The interaction between zinc and cadmium was investigated in tomato plants (Solanum lycopersicum). Ten-day-old seedlings were treated with 10 μmol/L CdC12 associated to different concentrations of ZnC12 (10, 50, 1...The interaction between zinc and cadmium was investigated in tomato plants (Solanum lycopersicum). Ten-day-old seedlings were treated with 10 μmol/L CdC12 associated to different concentrations of ZnC12 (10, 50, 100, and 150 μmol/L). Zn supply clearly reduced Cd accumulation in leaves and simultaneously increased Zn concentration. Cd induced oxidative stress in leaves as indicated by an increase in thiobarbituric acid-reactive substances (TBARS) level and chlorophyll breakdown. Furthermore, compared with control, Cd- treated plants had significantly higher activities of superoxide dismutase (SOD, EC 1.15.1.1), whereas, catalase (CAT, EC 1.111.1.6), ascorbate peroxidase (APX, EC 1.11.1.11), and glutathione reductase (GR, EC 1.6.4.2) activities were significantly suppressed by Cd addition. Zn supplementation, at low level, restored and enhanced the functional activity of these enzymes (SOD, CAT, APX and GR) as compared to Cd-alone-treated plants. The beneficial effect of adequate Zn level on Cd toxicity was confirmed by a significant decrease in TBARS level and restoration of chlorophyll content. However, when Zn was added at high level in combination with Cd there was an accumulation of oxidative stress, which was higher than that for Cd or excess Zn alone treatments. These results suggested that higher Zn concentrations and Cd are synergistic in their effect on plant growth parameters and oxidative stress.展开更多
Objective To investigate effects of glucose excursion on the oxidative/antioxidative system in subjects with different types of glucose regulation. Methods A total of 30 individuals with normal glucose regulation (NGR...Objective To investigate effects of glucose excursion on the oxidative/antioxidative system in subjects with different types of glucose regulation. Methods A total of 30 individuals with normal glucose regulation (NGR), 27 subjects with impaired glucose regulation (IGR) and 27 subjects with newly diagnosed type 2 diabetes mellitus (T2DM) were selected and recruited for 3 days’ continuous glucose monitor system (CGMS) assessment. The data from CGMS was used to calculate the mean amplitude of glycemic excursion (MAGE), mean blood glucose (MBG) and its standard deviation (SDBG), area under the ROC curve when the blood glucose 5.6 mmol/L within 24 h (AUC 5.6), mean of daily differences (MODD), and mean postprandial glucose excursion (MPPGE). In all groups, the content or activity of malondialdehyde (MDA), total antioxidation capacity (TAOC) and glutathione peroxidase (GSH‐Px) were detected. Results Glucose excursion parameters of subjects with T2DM or IGR were higher than those of NGR subjects (P0.05 or 0.01). Moreover, Glucose excursion parameters of T2DM subjects were higher than those of IGR subjects (P0.05 or 0.01). Subjects with T2DM or IGR had significant higher MDA levels and lower GSH‐Px/MDA and TAOC/MDA levels compared to NGR subjects (P0.01). T2DM subjects had even higher MDA levels and lower GSH‐Px/MDA levels than IGR (P0.05 or 0.01). According to the median of normal population for MAGE, T2DM and IGR subjects were divided into MAGE2.6mmol/L Group and MAGE≤2.6mmol/L Group. MAGE2.6mmol/L Group had higher levels of MDA and lower levels of GSH‐Px/MDA than MAGE≤2.6mmol/L Group (P0.05). There was no significant difference between the two groups (P0.05) in terms of the levels of TAOC/MDA. Pearson correlation analysis showed that MDA was positively correlated with FPG, 2hPG, MAGE, and SBP. GSH‐Px/MDA was negatively correlated with MAGE and TC. TAOC/MDA was negatively correlated with FPG. Partial correlation analysis showed that the relationship between MDA and MAGE, GSH‐Px/MDA, and MAGE remained significant after adjustments for the other differences among groups. Conclusion Glucose excursion contributed significantly to promoting lipid peroxidation and decreasing antioxidation capacity than chronic sustained hyperglycemia did in the subjects with different types of glucose regulation.展开更多
To explore the physiological and biochemical mechanism of the occurrence of vitrified shoots of Populus suaveolens in tissue culture, the changes in water, chlorphyll, lignin, H2O2, phenylalanine ammonialyase (PAL), m...To explore the physiological and biochemical mechanism of the occurrence of vitrified shoots of Populus suaveolens in tissue culture, the changes in water, chlorphyll, lignin, H2O2, phenylalanine ammonialyase (PAL), malonaldehyde (MDA), protective enzymatic systems, and some key enzymes involved in the ascorbate- glutathione cycle were comparatively studied in both normal and vitrified shoots of P. suaveolens. The results show that the lower activities of peroxidase (POD), catalase (CAT), ascorbate peroxidase (APX), dehydroascorbate reductase (DHAR), glutathione reductase (GR) and PAL, and the less contents of chlorphyll, lignin, ascorbate (ASA) and reduced glutathione (GSH) as well as the lower ratios of ASA / DHA and GSH / GSSG are observed in vitrified shoots than in normal ones during the whole culture period. While in comparison with normal shoots, the higher activity of superoxide dismutase (SOD) and the more concentrations of water, H2O2, MDA, dehydroascorbate (DHA) and oxidized glutathione (GSSG) are found in vitrified shoots. Statistical analysis indicates that the enhanced activity of SOD and the decreased activities of CAT and POD as well as some enzymes involved in the ascorbate-glutathione cycle might be closely correlated to the accumulation of H2O2. The less regeneration of ASA and GSH and the lower capacity of the ascorbate-glutathione cycle observed in vitrified shoots might be due to a significant decrease in APX, MDAR, DHAR and GR activities and a decline in redox status of ASA and GSH. The decreases in chlorphyll content might result in a decline in photosynthesis. The lower activities of POD and PAL could result in the decrease of lignin synthesis and cell wall ligination, which might be the key factor leading to the increase in water content. It is concluded that the deficiency of detoxification capacity caused by the lower capacity of the ascorbate-glutathione pathway and the decreased activity of protective enzymatic system might lead to the large accumulation of H2O2 and the enhancement of membrane lipid peroxidation, which might be the main cause leading to the occurrence of vitrifying shoots of P. suaveolens in tissue culture.展开更多
AIM:To investigate effects of hepatotropic growth factors on radical production in rat hepatocytes during sepsis.METHODS:Rat hepatocytes,isolated by collagenase perfusion,were incubated with a lipopolysaccharide(LPS)-...AIM:To investigate effects of hepatotropic growth factors on radical production in rat hepatocytes during sepsis.METHODS:Rat hepatocytes,isolated by collagenase perfusion,were incubated with a lipopolysaccharide(LPS)-containing cytokine mixture of interleukin-1β,tumor necrosis factor-α and interferon-γ to simulate sepsis and either co-incubated or pre-incubated with hepatotropic growth factors,e.g.hepatocyte growth factor,epidermal growth factor and/or transforming growth factor-α.Cells were analyzed for glutathione levels.Culture supernatants were assayed for produc-tion of reactive oxygen intermediates(ROIs) as well as NO2-,NO3-and S-nitrosothiols.To determine cellular damage,release of aspartate aminotransferase(AST) into the culture medium was analyzed.Activation of nuclear factor(NF)-κB was measured by electrophoretic mobility shift assay.RESULTS:Rat hepatocytes treated with the LPS-containing cytokine mixture showed a significant increase in ROI and nitrogen oxide intermediate formation.AST leakage was not significantly increased in cells treated with the LPS-containing cytokine mixture,independent of growth-factor co-stimulation.However,pretreatment with growth factors significantly reduced AST leakage and ROI formation while increasing cellular glutathione.Application of growth factors did not result in increased NF-κB activation.Pretreatment with growth factors further increased formation of NO2-,NO3-and S-nitrosothiols in hepatocytes stimulated with LPS-containing cytokine mixture.Thus,we propose that,together with an increase in glutathione increased NO2-,NO3-formation might shift their metabolism towards non-toxic products.CONCLUSION:Our data suggest that hepatotropic growth factors positively influence sepsis-induced hepatocellular injury by reducing cytotoxic ROI formation via induction of the cellular protective antioxidative systems.展开更多
Mitochondrial dysfunction and oxidative stress are widely regarded as primary drivers of aging and are associated with several neurodegenerative diseases.The degeneration of motor neurons during aging is a critical pa...Mitochondrial dysfunction and oxidative stress are widely regarded as primary drivers of aging and are associated with several neurodegenerative diseases.The degeneration of motor neurons during aging is a critical pathological factor contributing to the progression of sarcopenia.However,the morphological and functional changes in mitochondria and their interplay in the degeneration of the neuromuscular junction during aging remain poorly understood.A defined systematic search of the Pub Med,Web of Science and Embase databases(last accessed on October 30,2024)was conducted with search terms including'mitochondria','aging'and'NMJ'.Clinical and preclinical studies of mitochondrial dysfunction and neuromuscular junction degeneration during aging.Twentyseven studies were included in this systematic review.This systematic review provides a summary of morphological,functional and biological changes in neuromuscular junction,mitochondrial morphology,biosynthesis,respiratory chain function,and mitophagy during aging.We focus on the interactions and mechanisms underlying the relationship between mitochondria and neuromuscular junctions during aging.Aging is characterized by significant reductions in mitochondrial fusion/fission cycles,biosynthesis,and mitochondrial quality control,which may lead to neuromuscular junction dysfunction,denervation and poor physical performance.Motor nerve terminals that exhibit redox sensitivity are among the first to exhibit abnormalities,ultimately leading to an early decline in muscle strength through impaired neuromuscular junction transmission function.Parg coactivator 1 alpha is a crucial molecule that regulates mitochondrial biogenesis and modulates various pathways,including the mitochondrial respiratory chain,energy deficiency,oxidative stress,and inflammation.Mitochondrial dysfunction is correlated with neuromuscular junction denervation and acetylcholine receptor fragmentation,resulting in muscle atrophy and a decrease in strength during aging.Physical therapy,pharmacotherapy,and gene therapy can alleviate the structural degeneration and functional deterioration of neuromuscular junction by restoring mitochondrial function.Therefore,mitochondria are considered potential targets for preserving neuromuscular junction morphology and function during aging to treat sarcopenia.展开更多
Stroke remains a leading cause of death and disability worldwide,and electroacupuncture has a long history of use in stroke treatment.This meta-analysis and systematic review aimed to evaluate the efficacy of electroa...Stroke remains a leading cause of death and disability worldwide,and electroacupuncture has a long history of use in stroke treatment.This meta-analysis and systematic review aimed to evaluate the efficacy of electroacupuncture and explore its potential mechanisms in animal models of ischemic stroke.The PubMed,EMBASE,Web of Science,CENTRAL,and CINAHL databases were comprehensively searched up to May 1,2024.This review included articles on preclinical investigations of the efficacy and mechanisms of electroacupuncture in treating ischemic stroke.Data from 70 eligible studies were analyzed in Stata 18.0,using a random-effects model to calculate the standardized mean difference(Hedge’s g).The risk of bias was assessed using RevMan 5.4 software,and the quality of evidence was rated according to the Grading of Recommendations,Assessment,Development,and Evaluation(GRADE)system.Subgroup analyses were conducted to test the consistency of the results and sensitivity analyses were used to assess their robustness.The quality assessment revealed that most studies adequately handled incomplete data and selective reporting.However,several methodological limitations were identified:only 4 studies demonstrated a low risk of allocation concealment,26 achieved a low risk of outcome assessment bias,and 9 had a high risk of randomization bias.Additionally,there was an unclear risk regarding participant blinding and other methodological aspects.The GRADE assessment rated 12 outcomes as moderate quality and 6 as low quality.The mechanisms of electroacupuncture treatment for ischemic stroke can be categorized as five primary pathways:(1)Electroacupuncture significantly reduced infarct volume and apoptotic cell death(P<0.01)in ischemic stroke models;(2)electroacupuncture significantly decreased the levels of pro-inflammatory factors(P<0.01)while increasing the levels of anti-inflammatory factors(P=0.02);(3)electroacupuncture reduced the levels of oxidative stress indicators(P<0.01)and enhanced the expression of antioxidant enzymes(P<0.01);(4)electroacupuncture significantly promoted nerve regeneration(P<0.01);and(5)electroacupuncture influenced blood flow remodeling(P<0.01)and angiogenesis(P<0.01).Subgroup analyses indicated that electroacupuncture was most effective in the transient middle cerebral artery occlusion model(P<0.01)and in post-middle cerebral artery occlusion intervention(P<0.01).Dispersive waves were found to outperform continuous waves with respect to neuroprotection and anti-inflammatory effects(P<0.01),while scalp acupoints demonstrated greater efficacy than body acupoints(P<0.01).The heterogeneity among the included studies was minimal,and sensitivity analyses indicated stable results.Their methodological quality was generally satisfactory.In conclusion,electroacupuncture is effective in treating cerebral ischemia by modulating cell apoptosis,oxidative stress,inflammation,stroke-induced nerve regeneration,blood flow remodeling,and angiogenesis.The efficacy of electroacupuncture may be influenced by factors such as the middle cerebral artery occlusion model,the timing of intervention onset,waveform,and acupoint selection.Despite the moderate to low quality of evidence,these findings suggest that electroacupuncture has clinical potential for improving outcomes in ischemic stroke.展开更多
Background Systemic inflammatory responses and oxidative stress occur in laying hens during the aging process,particularly during the post-peaking laying period,which generally result in multi-organ damages,leading to...Background Systemic inflammatory responses and oxidative stress occur in laying hens during the aging process,particularly during the post-peaking laying period,which generally result in multi-organ damages,leading to significant declines in egg performance and quality.Chlorogenic acid(CGA)-enriched extract from Eucommia ulmoides leaves has anti-inflammatory and antioxidant activities.However,the mechanisms underlying whether and how CGA alleviates systemic inflammatory responses and oxidative stress to improve egg performance and quality in postpeaking laying hens remain unclear.In this study,the potential regulatory mechanisms of CGA in alleviating inflammatory responses and oxidative stress along the gut-liver axis were investigated.A total of 36055-week-old Hy-line white-laying hens were randomly selected and divided into four groups.The hens in the four groups were fed a basal diet(CON)or basal diets supplemented with 200,400,and 800 mg/kg of CGA(CGA200,CGA400,and CGA800,respectively)for 10 weeks.Results The results demonstrated that CGA significantly alleviated intestinal and hepatic damages resulting from systemic inflammatory responses and oxidative stress,thereby improving the laying performance and egg quality of post-peaking laying hens.CGA reduced systemic inflammation by improving intestinal barrier function and modulating inflammation-associated microbiota(Blautia and Megamonas),thus inhibiting endotoxin translocation.CGA can also reduce oxidative stress by upregulating the NRF-2 pathway-related genes and increasing antioxidant enzyme activities in the liver.The results of transcriptome sequencing revealed that CGA promoted lipid metabolism by regulating hepatic adipocytokine pathway-related genes/protein and reduced the inflammatory responses and apoptosis in liver by regulating PI3K/AKT pathway-related genes/proteins,which was also verified by qPCR and western blotting.Conclusion CGA alleviated multi-organ damages and dysfunction by suppressing the systemic inflammatory responses and oxidative stress in post-peaking laying hens,thereby improving egg performance and quality.The optimal dose of CGA is 400 mg/kg in this experiment.These results provide a sound theoretical basis for the application of CGA as an exogenous animal feed additive for laying hens.展开更多
As a novel two-dimensional(2D)material,MXenes are anticipated to have a significant impact on future aqueous energy storage and conversion technologies owing to their unique intrinsic laminar structure and exceptional...As a novel two-dimensional(2D)material,MXenes are anticipated to have a significant impact on future aqueous energy storage and conversion technologies owing to their unique intrinsic laminar structure and exceptional physicochemical properties.Nevertheless,the fabrication and utilization of functional MXenebased devices face formidable challenges due to their susceptibility to oxidative degradation in aqueous solutions.This review begins with an outline of various preparation techniques for MXenes and their implications for structure and surface chemistry.Subsequently,the controversial oxidation mechanisms are discussed,followed by a summary of currently employed oxidation characterization techniques.Additionally,the factors influencing MXene oxidation are then introduced,encompassing chemical composition(types of M,X elements,layer numbers,terminations,and defects)as well as environment(atmosphere,temperature,light,potential,solution pH,free water and O_(2)content).The review then shifts its focus to strategies aiming to prevent or delay MXene oxidation,thereby expanding the applicability of MXenes in complex environments.Finally,the challenges and prospects within this rapidly-growing research field are presented to promote further advancements of MXenes in aqueous storage systems.展开更多
The generation of reactive intermediates is a pivotal step during photocatalytic redox elimination of organic micropollutants in water.The UV/S(Ⅳ)-based water treatment system has garnered significant attention as an...The generation of reactive intermediates is a pivotal step during photocatalytic redox elimination of organic micropollutants in water.The UV/S(Ⅳ)-based water treatment system has garnered significant attention as an efficient advanced reduction process for pollutant abatement.However,as a reductive system,the conventional UV/S(Ⅳ)approach exhibits limited efficacy in removing electron-rich micropollutants.Our study uncovered that meso–tetrakis(4-chlorophenyl)porphyrin-Fe(Ⅲ)chloride(TPPFe,a typical iron(Ⅲ)porphyrin)catalyzed the conversion of SO_(3)^(2-)into SO_(3)^(·-)under UV365irradiation without generating of eaq-and H·,leading to the formation of diverse oxidizing species.Additionally,the introduction of TPPFe induced an absorption redshift,broadening the range of applicable UV wavelengths.An in-depth photocatalytic cycle mechanism for TPPFe^(Ⅲ)Cl-[TPPFe^(Ⅱ)Cl]-was introduced and verified by density functional theory(DFT)calculations.Furthermore,quantum chemistry calculations via transition state were conducted to assess the oxidizing reactivity of the reactive species with micropollutants.Both·OH and SO_(4)^(·-)demonstrate a strong propensity to react with carbamazepine(CMZ,a model micropollutant).Meanwhile,1O2exhibits a distinct reaction mechanism with CMZ.Consequently,the radical-and ^(1)O_(2)-mediated distinct degradation pathways were elucidated.This study provides an experimental/theoretical exploration of reactive intermediate generation and their interactions with CMZ,shedding valuable insights into the mechanisms of electron-shuttling photosensitizers catalyzing the UV/S(Ⅳ)oxidation process.展开更多
In this study,a novel polysaccharide GPA-G 2-H was derived from ginseng.Furthermore,the coherent study of its structural characteristics,fermented characteristics in vitro,as well as antioxidant mechanism of fermented...In this study,a novel polysaccharide GPA-G 2-H was derived from ginseng.Furthermore,the coherent study of its structural characteristics,fermented characteristics in vitro,as well as antioxidant mechanism of fermented product FGPA-G 2-H on Aβ25-35-induced PC 12 cells were explored.The structure of GPA-G 2-H was determined by means of zeta potential analysis,FTIR,HPLC,XRD,GC-MS and NMR.The backbone of GPA-G 2-H was mainly composed of→4)-α-D-Glcp-(1→with branches substituted at O-3.Notably,GPA-G 2-H was degraded by intestinal microbiota in vitro with total sugar content and pH value decreasing,and short-chain fatty acids(SCFAs)increasing.Moreover,GPA-G 2-H significantly promoted the proliferation of Lactobacillus,Muribaculaceae and Weissella,thereby making positive alterations in intestinal microbiota composition.Additionally,FGPA-G 2-H activated the Nrf 2/HO-1 signaling pathway,enhanced HO-1,NQO 1,SOD and GSH-Px,while inhabited Keap 1,MDA and LDH,which alleviated Aβ-induced oxidative stress in PC 12 cells.These provide a solid theoretical basis for the further development of ginseng polysaccharides as functional food and antioxidant drugs.展开更多
As a key component of shale oil,petroleum fractions,and chemical products,the oxidative pyrolysis behavior of paraffin directly influences energy conversion efficiency and the direction of process optimization.A deep ...As a key component of shale oil,petroleum fractions,and chemical products,the oxidative pyrolysis behavior of paraffin directly influences energy conversion efficiency and the direction of process optimization.A deep understanding of its oxidative pyrolysis mechanism is crucial for addressing wax deposition in oil and gas extraction,enhancing product selectivity in cracking processes,and advancing novel clean fuel technologies.Traditional experimental methods face challenges in capturing transient free-radical reaction pathways at high temperatures,whereas molecular dynamics simulations offer a powerful approach to bridge the research gap in elucidating atomic-scale dynamic mechanisms.This database is constructed based on high-precision molecular dynamics simulations,comprising oxidative pyrolysis trajectory data for three paraffin models featuring different straight-chain hydrocarbon distributions within the temperature range of 2100-2500 K.The COMPASS force field was employed to optimize the initial structures,and the ReaxFF reactive force field was used to simulate the oxidative pyrolysis process.The database includes atomic trajectories,species evolution information,and reaction network analysis results for both heating and isothermal cracking processes,with a total data volume of approximately 141 GB(including 150000 atomic configuration frames).The data is stored in a hierarchical directory structure,supporting multi-scale oxidative pyrolysis mechanism studies and providing atomic-scale dynamic evidence for revealing carbon chain length effects and temperature sensitivity.展开更多
A series of new chiral amide ligands were prepared from natural amino acids and applied to the copper-catalyzed asymmetric oxidative homocoupling reaction of 3-hydroxy-2-naphthoates.By optimizing the reaction conditio...A series of new chiral amide ligands were prepared from natural amino acids and applied to the copper-catalyzed asymmetric oxidative homocoupling reaction of 3-hydroxy-2-naphthoates.By optimizing the reaction conditions,it was found that when using L3(5 mol%)as the ligand,CuCl(5 mol%)as the catalyst,dichloromethane as the solvent,2,2,6,6-tetramethylpiperidine 1-oxyl(TEMPO)/O2 as the oxidant,and under the reaction condition of 40℃,this method exhibited good substrate tolerance.Under these conditions,a series of chiral 1,1'-bi-2-naphthol(BINOL)derivatives were synthesized with yields of 45%~90%and enantioselectivities ranging from 50∶50 to 97∶3.展开更多
In molybdenum chemistry,the oxidative addition of o-quinone or 1,2-dicarbonyl compounds to molybdenum has been widely used in Mo-catalyzed C—C bond construction.The carbonyl oxidative addition to Mo(0)or Mo(Ⅱ)is the...In molybdenum chemistry,the oxidative addition of o-quinone or 1,2-dicarbonyl compounds to molybdenum has been widely used in Mo-catalyzed C—C bond construction.The carbonyl oxidative addition to Mo(0)or Mo(Ⅱ)is the critical elementary reaction of molybdenum catalysis.However,the relevant density functional theory(DFT)studies are relatively scarce,especially regarding the rational selection of functionals.In this work,14 functionals were employed to investigate the Mo-catalyzed carbonyl oxidative addition step.A benchmark study was carried out to evaluate their performance in structure optimization and energy calculation.Analyses of mean absolute error(MAE)and mean squared error(MSE)indicated that the B3LYP-D3(BJ),TPSSh,and ωB97X-D functionals exhibited superior performance in structure optimization.Using the DLPNO-CCSD(T)functional as the reference,the M06,M06-L,and MN15-L functionals exhibited good performance for energy calculation based on the structures optimized using the B3LYP-D3(BJ)functional.In particular,MN15-L provided the best performance with the smallest MAE and MSE.展开更多
Background Heat stress(HS)can impair boar testicular function,leading to reproductive issues.However,chlorogenic acid(CGA)has been shown to mitigate HS-induced damage in various livestock and poultry species.Prepubert...Background Heat stress(HS)can impair boar testicular function,leading to reproductive issues.However,chlorogenic acid(CGA)has been shown to mitigate HS-induced damage in various livestock and poultry species.Prepuberty is an important stage of testicular development in boars after birth.However,the protective effect of CGA on testicular HS injury during prepuberty boars and the underlying mechanisms are still not fully understood.Results In vivo,a total of 30 healthy boars with similar body weights and ages were obtained and randomly divided into 3 groups,which were fed a basal diet supplemented with CGA 0(the ND_TN group),0(the ND_HS group)or 1,000(the CGA_HS group)mg/kg.After being fed for 28 d,all the groups,except the ND_TN group,were treated with high temperature for 7 d,after which samples were collected from the boars and analysed.The results showed that CGA significantly mitigated the HS-induced reduction in T-AOC content in testicular tissue and sperm density.Mechanistically,multiomics analysis revealed that the genes differentially expressed by CGA and HS were predominantly associated with the glutathione metabolism pathway.The combined analysis of transcriptomics and proteomics revealed that only BLVRA was affected by both HS and CGA when the mRNA and protein levels of a gene showed differential expression with the same trend.In vitro studies confirmed that CGA modulated GPX3 expression via BLVRA,affected GPx activity,and attenuated HS-induced ROS accumulation.Conclusions In conclusion,prepubertal HS impairs the spermatogenic capacity of boars.BLVRA may mediate the testicular protective effect of CGA,although in vivo validation of this pathway is needed.This study contributes to elucidating the mechanisms underlying the effects of HS on prepubertal boar testicular development using multiomics approaches,laying a foundation for the potential utilization of CGA in swine production.展开更多
The liver,a critical metabolic organ,is particularly vulnerable to damage upon aluminum exposure.However,the precise molecular mechanisms through which aluminum induces hepatotoxicity remain to be fully elucidated.Thi...The liver,a critical metabolic organ,is particularly vulnerable to damage upon aluminum exposure.However,the precise molecular mechanisms through which aluminum induces hepatotoxicity remain to be fully elucidated.This study aimed to investigate the adverse effects of aluminum exposure on mouse liver tissue.The results indicated that AlCl_(3) exposure induced significant liver dysfunction,characterized by reduced adenosine triphosphate levels,elevated plasma alanine aminotransferase and aspartate aminotransferase.Histopathological analysis of liver tissue revealed marked histological damage,accompanied by substantial iron deposition.Further examinations demonstrated elevated hepatic levels of malondialdehyde,4-hydroxynonenal,and reactive oxygen species,decreased levels of glutathione(GSH)and superoxide dismutase,increased levels of oxidized glutathione(GSSG),and a reduced GSH/GSSG ratio.The mRNA and protein expression of ferroptosis-related molecules,including downregulated glutathione peroxidase 4 and solute carrier family 7 member 11,were significantly downregulated,while acyl-CoA synthetase long-chain family member 4,ferritin heavy chain 1,and iron regulatory protein 1 levels were significantly upregulated.Treatment with Ferrostatin-1 markedly ameliorated liver dysfunction and histopathological damage,attenuating signs of ferroptosis.These findings highlight the potential of ferroptosis-targeted therapies as a viable treatment strategy for aluminum exposure-induced hepatocyte injury.展开更多
Objective:To evaluate the hepatoprotective effects of skate-derived bioactives-collagen peptides(CPs)and chondroitin-against ethanol(EtOH)-induced liver injury and to elucidate their underlying mechanisms.Methods:The ...Objective:To evaluate the hepatoprotective effects of skate-derived bioactives-collagen peptides(CPs)and chondroitin-against ethanol(EtOH)-induced liver injury and to elucidate their underlying mechanisms.Methods:The protective effects of CPs and chondroitin were assessed in different in vitro and in vivo EtOH-induced injury models.Oxidative stress was evaluated by measuring reactive oxygen species production and antioxidant markers(NRF2 and GCLC).EtOH metabolism was examined by measuring alchohol-metabolizing enzymes(alcohol dehydrogenase and aldehyde dehydrogenase)and cytochrome P450 enzymes.Furthermore,lipid dysregulation was assessed by Oil Red O staining and determination of lipogenic markers(SREBP-1 and FAS).Liver injury was also evaluated by measuring serum glutamate oxaloacetate transaminase and glutamate pyruvate transaminase,and performing histological analysis.Results:In hepatocytes and zebrafish,both CPs and chondroitin reduced oxidative stress,downregulated cytochrome P450 enzymes and lipogenic markers,and enhanced antioxidant defenses,with chondroitin showing the strongest hepatoprotection.In EtOH-fed mice,chondroitin significantly improved liver enzyme profiles,reduced hepatic lipid accumulation and inflammation,and restored antioxidant and metabolic homeostasis.Conclusions:Skate-derived chondroitin significantly attenuates EtOH-induced liver injury by modulating oxidative stress,EtOH metabolism,and lipid regulation.These findings demonstrate the hepatoprotective potential of chondroitin in different preclinical models of alcohol-induced liver damage.展开更多
Resistance exercise has been confirmed to be important for maintaining muscle mass and function.However,despite considerable experimental studies,the underlying mechanisms still requires further investigation to be el...Resistance exercise has been confirmed to be important for maintaining muscle mass and function.However,despite considerable experimental studies,the underlying mechanisms still requires further investigation to be elucidated.Sestrin1 is a stress-inducible protein strongly associated with the occurrence and development of skeletal muscle dysfunction.Besides,oxidative stress is believed to be a major pathogenic mechanism in the development of skeletal muscle atrophy,whereas regular exercise training induces the endogenous antioxidative system and protects the body against adverse effects of oxidative stress.Nevertheless,whether Sestrin1 is involved in the amelioration of resistance exercise on muscle atrophy and the role of its antioxidant function in this process remains unknown.Here we show that six-week resistance exercise training significantly improved muscle function,muscle mass,and oxidative damage and maintained the level of Sestrin1 in dexamethasone-treated C57BL/6J mice.Mechanistically,Sestrin1 overexpression rescued protein degradation and oxidative stress in atrophied myotubes.Furthermore,an emerging regulator of cellular defense against toxic and oxidative insults,nuclear factor erythroid2–related factor 2(Nrf2)controls the basal and induced expression of an array of antioxidant response element–dependent genes to regulate the pathophysiological outcomes of oxidant exposure.In this study,we found that Nrf2 is a target of Sestrin1,and Nrf2 nuclear translocation is facilitated by Sestrin1.ML385(an Nrf2 inhibitor)treatment mitigated the regulatory effects of overexpression-Sestrin1.Therefore,Sestrin1 was involved in the process of resistance exercise against skeletal muscle atrophy,which may be closely related to its antioxidant capacity,revealing a potential therapeutic strategy for reducing the loss of skeletal muscle.展开更多
Background During the weaning phase,piglets are exposed to significant physiological and environmental stressors,which disrupt the balance of their intestinal microbiota and often lead to severe diarrhea.Previous stud...Background During the weaning phase,piglets are exposed to significant physiological and environmental stressors,which disrupt the balance of their intestinal microbiota and often lead to severe diarrhea.Previous studies have demonstrated that alfalfa fiber,derived from the stems and leaves of alfalfa,can effectively alleviate diarrhea in piglets.Additionally,multiple studies have highlighted the potential of fecal microbiota transplantation(FMT)in mitigating diarrhea in various models of intestinal diseases in young animals.However,the specific mechanisms by which FMT from targeted sources alleviates diarrhea in weaned piglets remain to be fully elucidated.Results In this study,FMT from donor piglets fed an alfalfa fiber-supplemented diet effectively alleviated diarrhea,improved intestinal morphology,and enhanced gut barrier function in weaned piglets.FMT further promoted the colonization of beneficial bacterial genera(including UCG-005,unclassified Lachnospiraceae,Lachnospiraceae AC2044 group,UCG-002,Candidatus Saccharimonas,and Lachnospiraceae ND3007 group)while inhibiting the detrimental genus Tyzzerella,consequently enhancing the production of short-chain fatty acids(SCFAs).Additionally,FMT upregulated riboflavin metabolism,leading to elevated flavin adenine dinucleotide(FAD)levels and increased glutathione reductase activity,thereby collectively attenuating lipopolysaccharide(LPS)-induced oxidative stress and contributing to intestinal health.Conclusions We found that FMT modulates the structure of the gut microbiota,enhances microbial diversity and composition,increases the production of SCFAs,and upregulates riboflavin metabolism to elevate FAD levels.These changes collectively enhance immune and antioxidant capacities,thereby alleviating diarrhea.展开更多
Oxidative potential(OP)can be used as an indicator of the health risks of particulate matter in the air.To study the variation and sources of OP,we conducted an observation of PM_(2.5) in a megacity in southern China ...Oxidative potential(OP)can be used as an indicator of the health risks of particulate matter in the air.To study the variation and sources of OP,we conducted an observation of PM_(2.5) in a megacity in southern China in winter and spring of 2021.The results show that the average concentration of PM_(2.5) decreased by 47%from winter to spring,while volume-normalized and mass-normalized OP(i.e.,OP_(v) and OP_(m))increased by 6%and 69%,respectively.It suggests that the decline of PM_(2.5) may not necessarily decrease the health risks and the intrinsic toxicity of PM_(2.5).Variations of OP_(v) and OP_(m) among different periods were related to the different source contributions and environmental conditions.The positive matrix factorization model was used to identify the major sources of OP_(v).OP_(v) was mainly contributed by biomass burning/industrial emissions(29%),soil/road dust(20%),secondary sulfate(14%),and coal combustion(13%)in winter.Different major sources were resolved to be secondary sulfate(36%),biological sources(21%),and marine vessels(20%)in spring,presenting the substantial contribution of biological sources.The analysis shows strong associations between OP_(v) and both live and dead bacteria,further confirming the important contribution of bioaerosols to the enhancement of OP.This study highlights the importance of understanding OP in ambient PM_(2.5) in terms of public health impact and provides a new insight into the biological contribution to OP.展开更多
By using carbohydrates as the biomass carbon sources,Se/C materials could be easily prepared.The materials could catalyze the oxidative deoximation reactions,which are significant transformations in both pharmaceutica...By using carbohydrates as the biomass carbon sources,Se/C materials could be easily prepared.The materials could catalyze the oxidative deoximation reactions,which are significant transformations in both pharmaceutical industry and fine chemical production.Compared with the reported organoseleniumcatalyzed ionic reactions,the Se/C-catalyzed deoximation reactions occurred via unique free radical mechanisms,endowing the Se species high catalytic reactivity.The Se/C catalysts were recyclable and their turnover numbers(TONs)were high(>10^(4)),making the reactions practical for industrial grade preparation.The unique free radical mechanisms of the reaction and green and practical features of the catalysts are the characteristics and advantages of the work.展开更多
文摘The interaction between zinc and cadmium was investigated in tomato plants (Solanum lycopersicum). Ten-day-old seedlings were treated with 10 μmol/L CdC12 associated to different concentrations of ZnC12 (10, 50, 100, and 150 μmol/L). Zn supply clearly reduced Cd accumulation in leaves and simultaneously increased Zn concentration. Cd induced oxidative stress in leaves as indicated by an increase in thiobarbituric acid-reactive substances (TBARS) level and chlorophyll breakdown. Furthermore, compared with control, Cd- treated plants had significantly higher activities of superoxide dismutase (SOD, EC 1.15.1.1), whereas, catalase (CAT, EC 1.111.1.6), ascorbate peroxidase (APX, EC 1.11.1.11), and glutathione reductase (GR, EC 1.6.4.2) activities were significantly suppressed by Cd addition. Zn supplementation, at low level, restored and enhanced the functional activity of these enzymes (SOD, CAT, APX and GR) as compared to Cd-alone-treated plants. The beneficial effect of adequate Zn level on Cd toxicity was confirmed by a significant decrease in TBARS level and restoration of chlorophyll content. However, when Zn was added at high level in combination with Cd there was an accumulation of oxidative stress, which was higher than that for Cd or excess Zn alone treatments. These results suggested that higher Zn concentrations and Cd are synergistic in their effect on plant growth parameters and oxidative stress.
基金supported by the Shanghai United Developing Technology Project of Municipal Hospitals (SHDC12006101)the Health Bureau of Zhejiang Province (2009B091)
文摘Objective To investigate effects of glucose excursion on the oxidative/antioxidative system in subjects with different types of glucose regulation. Methods A total of 30 individuals with normal glucose regulation (NGR), 27 subjects with impaired glucose regulation (IGR) and 27 subjects with newly diagnosed type 2 diabetes mellitus (T2DM) were selected and recruited for 3 days’ continuous glucose monitor system (CGMS) assessment. The data from CGMS was used to calculate the mean amplitude of glycemic excursion (MAGE), mean blood glucose (MBG) and its standard deviation (SDBG), area under the ROC curve when the blood glucose 5.6 mmol/L within 24 h (AUC 5.6), mean of daily differences (MODD), and mean postprandial glucose excursion (MPPGE). In all groups, the content or activity of malondialdehyde (MDA), total antioxidation capacity (TAOC) and glutathione peroxidase (GSH‐Px) were detected. Results Glucose excursion parameters of subjects with T2DM or IGR were higher than those of NGR subjects (P0.05 or 0.01). Moreover, Glucose excursion parameters of T2DM subjects were higher than those of IGR subjects (P0.05 or 0.01). Subjects with T2DM or IGR had significant higher MDA levels and lower GSH‐Px/MDA and TAOC/MDA levels compared to NGR subjects (P0.01). T2DM subjects had even higher MDA levels and lower GSH‐Px/MDA levels than IGR (P0.05 or 0.01). According to the median of normal population for MAGE, T2DM and IGR subjects were divided into MAGE2.6mmol/L Group and MAGE≤2.6mmol/L Group. MAGE2.6mmol/L Group had higher levels of MDA and lower levels of GSH‐Px/MDA than MAGE≤2.6mmol/L Group (P0.05). There was no significant difference between the two groups (P0.05) in terms of the levels of TAOC/MDA. Pearson correlation analysis showed that MDA was positively correlated with FPG, 2hPG, MAGE, and SBP. GSH‐Px/MDA was negatively correlated with MAGE and TC. TAOC/MDA was negatively correlated with FPG. Partial correlation analysis showed that the relationship between MDA and MAGE, GSH‐Px/MDA, and MAGE remained significant after adjustments for the other differences among groups. Conclusion Glucose excursion contributed significantly to promoting lipid peroxidation and decreasing antioxidation capacity than chronic sustained hyperglycemia did in the subjects with different types of glucose regulation.
基金Supported by National Natural Science Foundation of China (Grant No. 30271093) and the Foundation of State-designated Base for Biology Researching and Teaching in Beijing Forestry University
文摘To explore the physiological and biochemical mechanism of the occurrence of vitrified shoots of Populus suaveolens in tissue culture, the changes in water, chlorphyll, lignin, H2O2, phenylalanine ammonialyase (PAL), malonaldehyde (MDA), protective enzymatic systems, and some key enzymes involved in the ascorbate- glutathione cycle were comparatively studied in both normal and vitrified shoots of P. suaveolens. The results show that the lower activities of peroxidase (POD), catalase (CAT), ascorbate peroxidase (APX), dehydroascorbate reductase (DHAR), glutathione reductase (GR) and PAL, and the less contents of chlorphyll, lignin, ascorbate (ASA) and reduced glutathione (GSH) as well as the lower ratios of ASA / DHA and GSH / GSSG are observed in vitrified shoots than in normal ones during the whole culture period. While in comparison with normal shoots, the higher activity of superoxide dismutase (SOD) and the more concentrations of water, H2O2, MDA, dehydroascorbate (DHA) and oxidized glutathione (GSSG) are found in vitrified shoots. Statistical analysis indicates that the enhanced activity of SOD and the decreased activities of CAT and POD as well as some enzymes involved in the ascorbate-glutathione cycle might be closely correlated to the accumulation of H2O2. The less regeneration of ASA and GSH and the lower capacity of the ascorbate-glutathione cycle observed in vitrified shoots might be due to a significant decrease in APX, MDAR, DHAR and GR activities and a decline in redox status of ASA and GSH. The decreases in chlorphyll content might result in a decline in photosynthesis. The lower activities of POD and PAL could result in the decrease of lignin synthesis and cell wall ligination, which might be the key factor leading to the increase in water content. It is concluded that the deficiency of detoxification capacity caused by the lower capacity of the ascorbate-glutathione pathway and the decreased activity of protective enzymatic system might lead to the large accumulation of H2O2 and the enhancement of membrane lipid peroxidation, which might be the main cause leading to the occurrence of vitrifying shoots of P. suaveolens in tissue culture.
基金Supported by The Federal Ministry of Research (BMBF-01 GN0984)
文摘AIM:To investigate effects of hepatotropic growth factors on radical production in rat hepatocytes during sepsis.METHODS:Rat hepatocytes,isolated by collagenase perfusion,were incubated with a lipopolysaccharide(LPS)-containing cytokine mixture of interleukin-1β,tumor necrosis factor-α and interferon-γ to simulate sepsis and either co-incubated or pre-incubated with hepatotropic growth factors,e.g.hepatocyte growth factor,epidermal growth factor and/or transforming growth factor-α.Cells were analyzed for glutathione levels.Culture supernatants were assayed for produc-tion of reactive oxygen intermediates(ROIs) as well as NO2-,NO3-and S-nitrosothiols.To determine cellular damage,release of aspartate aminotransferase(AST) into the culture medium was analyzed.Activation of nuclear factor(NF)-κB was measured by electrophoretic mobility shift assay.RESULTS:Rat hepatocytes treated with the LPS-containing cytokine mixture showed a significant increase in ROI and nitrogen oxide intermediate formation.AST leakage was not significantly increased in cells treated with the LPS-containing cytokine mixture,independent of growth-factor co-stimulation.However,pretreatment with growth factors significantly reduced AST leakage and ROI formation while increasing cellular glutathione.Application of growth factors did not result in increased NF-κB activation.Pretreatment with growth factors further increased formation of NO2-,NO3-and S-nitrosothiols in hepatocytes stimulated with LPS-containing cytokine mixture.Thus,we propose that,together with an increase in glutathione increased NO2-,NO3-formation might shift their metabolism towards non-toxic products.CONCLUSION:Our data suggest that hepatotropic growth factors positively influence sepsis-induced hepatocellular injury by reducing cytotoxic ROI formation via induction of the cellular protective antioxidative systems.
基金supported by grants from Collaborative Research Fund(Ref:C4032-21GF)General Research Grant(Ref:14114822)+1 种基金Group Research Scheme(Ref:3110146)Area of Excellence(Ref:Ao E/M-402/20)。
文摘Mitochondrial dysfunction and oxidative stress are widely regarded as primary drivers of aging and are associated with several neurodegenerative diseases.The degeneration of motor neurons during aging is a critical pathological factor contributing to the progression of sarcopenia.However,the morphological and functional changes in mitochondria and their interplay in the degeneration of the neuromuscular junction during aging remain poorly understood.A defined systematic search of the Pub Med,Web of Science and Embase databases(last accessed on October 30,2024)was conducted with search terms including'mitochondria','aging'and'NMJ'.Clinical and preclinical studies of mitochondrial dysfunction and neuromuscular junction degeneration during aging.Twentyseven studies were included in this systematic review.This systematic review provides a summary of morphological,functional and biological changes in neuromuscular junction,mitochondrial morphology,biosynthesis,respiratory chain function,and mitophagy during aging.We focus on the interactions and mechanisms underlying the relationship between mitochondria and neuromuscular junctions during aging.Aging is characterized by significant reductions in mitochondrial fusion/fission cycles,biosynthesis,and mitochondrial quality control,which may lead to neuromuscular junction dysfunction,denervation and poor physical performance.Motor nerve terminals that exhibit redox sensitivity are among the first to exhibit abnormalities,ultimately leading to an early decline in muscle strength through impaired neuromuscular junction transmission function.Parg coactivator 1 alpha is a crucial molecule that regulates mitochondrial biogenesis and modulates various pathways,including the mitochondrial respiratory chain,energy deficiency,oxidative stress,and inflammation.Mitochondrial dysfunction is correlated with neuromuscular junction denervation and acetylcholine receptor fragmentation,resulting in muscle atrophy and a decrease in strength during aging.Physical therapy,pharmacotherapy,and gene therapy can alleviate the structural degeneration and functional deterioration of neuromuscular junction by restoring mitochondrial function.Therefore,mitochondria are considered potential targets for preserving neuromuscular junction morphology and function during aging to treat sarcopenia.
基金supported by the National Natural Science Foundation of China,Nos.82174496(to NW),82374574(to NW),82302865(to LL)Shanghai Science and Technology Committee Sailing Program,Nos.23YF1403800(to LL),23YF1405200(to YX)Shanghai Hospital Development Center Foundation-Shanghai Municipal Hospital Rehabilitation Medicine Specialty Alliance,No.SHDC22023304(to YW).
文摘Stroke remains a leading cause of death and disability worldwide,and electroacupuncture has a long history of use in stroke treatment.This meta-analysis and systematic review aimed to evaluate the efficacy of electroacupuncture and explore its potential mechanisms in animal models of ischemic stroke.The PubMed,EMBASE,Web of Science,CENTRAL,and CINAHL databases were comprehensively searched up to May 1,2024.This review included articles on preclinical investigations of the efficacy and mechanisms of electroacupuncture in treating ischemic stroke.Data from 70 eligible studies were analyzed in Stata 18.0,using a random-effects model to calculate the standardized mean difference(Hedge’s g).The risk of bias was assessed using RevMan 5.4 software,and the quality of evidence was rated according to the Grading of Recommendations,Assessment,Development,and Evaluation(GRADE)system.Subgroup analyses were conducted to test the consistency of the results and sensitivity analyses were used to assess their robustness.The quality assessment revealed that most studies adequately handled incomplete data and selective reporting.However,several methodological limitations were identified:only 4 studies demonstrated a low risk of allocation concealment,26 achieved a low risk of outcome assessment bias,and 9 had a high risk of randomization bias.Additionally,there was an unclear risk regarding participant blinding and other methodological aspects.The GRADE assessment rated 12 outcomes as moderate quality and 6 as low quality.The mechanisms of electroacupuncture treatment for ischemic stroke can be categorized as five primary pathways:(1)Electroacupuncture significantly reduced infarct volume and apoptotic cell death(P<0.01)in ischemic stroke models;(2)electroacupuncture significantly decreased the levels of pro-inflammatory factors(P<0.01)while increasing the levels of anti-inflammatory factors(P=0.02);(3)electroacupuncture reduced the levels of oxidative stress indicators(P<0.01)and enhanced the expression of antioxidant enzymes(P<0.01);(4)electroacupuncture significantly promoted nerve regeneration(P<0.01);and(5)electroacupuncture influenced blood flow remodeling(P<0.01)and angiogenesis(P<0.01).Subgroup analyses indicated that electroacupuncture was most effective in the transient middle cerebral artery occlusion model(P<0.01)and in post-middle cerebral artery occlusion intervention(P<0.01).Dispersive waves were found to outperform continuous waves with respect to neuroprotection and anti-inflammatory effects(P<0.01),while scalp acupoints demonstrated greater efficacy than body acupoints(P<0.01).The heterogeneity among the included studies was minimal,and sensitivity analyses indicated stable results.Their methodological quality was generally satisfactory.In conclusion,electroacupuncture is effective in treating cerebral ischemia by modulating cell apoptosis,oxidative stress,inflammation,stroke-induced nerve regeneration,blood flow remodeling,and angiogenesis.The efficacy of electroacupuncture may be influenced by factors such as the middle cerebral artery occlusion model,the timing of intervention onset,waveform,and acupoint selection.Despite the moderate to low quality of evidence,these findings suggest that electroacupuncture has clinical potential for improving outcomes in ischemic stroke.
基金financially supported by the Collaborative Extension Program for Advancements in Agricultural Technologies of Zhejiang Province(Grant no:2023ZDXT15)the Key Research&Development Program of Zhejiang Province(Grant no:2024C02004)Bureau of Science and Technology of Xinchang County Foundation.
文摘Background Systemic inflammatory responses and oxidative stress occur in laying hens during the aging process,particularly during the post-peaking laying period,which generally result in multi-organ damages,leading to significant declines in egg performance and quality.Chlorogenic acid(CGA)-enriched extract from Eucommia ulmoides leaves has anti-inflammatory and antioxidant activities.However,the mechanisms underlying whether and how CGA alleviates systemic inflammatory responses and oxidative stress to improve egg performance and quality in postpeaking laying hens remain unclear.In this study,the potential regulatory mechanisms of CGA in alleviating inflammatory responses and oxidative stress along the gut-liver axis were investigated.A total of 36055-week-old Hy-line white-laying hens were randomly selected and divided into four groups.The hens in the four groups were fed a basal diet(CON)or basal diets supplemented with 200,400,and 800 mg/kg of CGA(CGA200,CGA400,and CGA800,respectively)for 10 weeks.Results The results demonstrated that CGA significantly alleviated intestinal and hepatic damages resulting from systemic inflammatory responses and oxidative stress,thereby improving the laying performance and egg quality of post-peaking laying hens.CGA reduced systemic inflammation by improving intestinal barrier function and modulating inflammation-associated microbiota(Blautia and Megamonas),thus inhibiting endotoxin translocation.CGA can also reduce oxidative stress by upregulating the NRF-2 pathway-related genes and increasing antioxidant enzyme activities in the liver.The results of transcriptome sequencing revealed that CGA promoted lipid metabolism by regulating hepatic adipocytokine pathway-related genes/protein and reduced the inflammatory responses and apoptosis in liver by regulating PI3K/AKT pathway-related genes/proteins,which was also verified by qPCR and western blotting.Conclusion CGA alleviated multi-organ damages and dysfunction by suppressing the systemic inflammatory responses and oxidative stress in post-peaking laying hens,thereby improving egg performance and quality.The optimal dose of CGA is 400 mg/kg in this experiment.These results provide a sound theoretical basis for the application of CGA as an exogenous animal feed additive for laying hens.
基金supported by the Fundamental Research Funds for the Central Universities(No.2042023kf0094)the National Key Research and Development Program of China(No.2022YFA1502902)the National Natural Science Foundation of China(No.22101217).
文摘As a novel two-dimensional(2D)material,MXenes are anticipated to have a significant impact on future aqueous energy storage and conversion technologies owing to their unique intrinsic laminar structure and exceptional physicochemical properties.Nevertheless,the fabrication and utilization of functional MXenebased devices face formidable challenges due to their susceptibility to oxidative degradation in aqueous solutions.This review begins with an outline of various preparation techniques for MXenes and their implications for structure and surface chemistry.Subsequently,the controversial oxidation mechanisms are discussed,followed by a summary of currently employed oxidation characterization techniques.Additionally,the factors influencing MXene oxidation are then introduced,encompassing chemical composition(types of M,X elements,layer numbers,terminations,and defects)as well as environment(atmosphere,temperature,light,potential,solution pH,free water and O_(2)content).The review then shifts its focus to strategies aiming to prevent or delay MXene oxidation,thereby expanding the applicability of MXenes in complex environments.Finally,the challenges and prospects within this rapidly-growing research field are presented to promote further advancements of MXenes in aqueous storage systems.
基金financially supported by the National Key R&D Program of China(No.2023YFE0112100)the XMU Training Program of Innovation and Entrepreneurship of Undergraduates(No.2024Y1328)。
文摘The generation of reactive intermediates is a pivotal step during photocatalytic redox elimination of organic micropollutants in water.The UV/S(Ⅳ)-based water treatment system has garnered significant attention as an efficient advanced reduction process for pollutant abatement.However,as a reductive system,the conventional UV/S(Ⅳ)approach exhibits limited efficacy in removing electron-rich micropollutants.Our study uncovered that meso–tetrakis(4-chlorophenyl)porphyrin-Fe(Ⅲ)chloride(TPPFe,a typical iron(Ⅲ)porphyrin)catalyzed the conversion of SO_(3)^(2-)into SO_(3)^(·-)under UV365irradiation without generating of eaq-and H·,leading to the formation of diverse oxidizing species.Additionally,the introduction of TPPFe induced an absorption redshift,broadening the range of applicable UV wavelengths.An in-depth photocatalytic cycle mechanism for TPPFe^(Ⅲ)Cl-[TPPFe^(Ⅱ)Cl]-was introduced and verified by density functional theory(DFT)calculations.Furthermore,quantum chemistry calculations via transition state were conducted to assess the oxidizing reactivity of the reactive species with micropollutants.Both·OH and SO_(4)^(·-)demonstrate a strong propensity to react with carbamazepine(CMZ,a model micropollutant).Meanwhile,1O2exhibits a distinct reaction mechanism with CMZ.Consequently,the radical-and ^(1)O_(2)-mediated distinct degradation pathways were elucidated.This study provides an experimental/theoretical exploration of reactive intermediate generation and their interactions with CMZ,shedding valuable insights into the mechanisms of electron-shuttling photosensitizers catalyzing the UV/S(Ⅳ)oxidation process.
基金Supported by the National Key Research and Development Program of Traditional Chinese Medicine Modernization Project,China(No.2023YFC3504000)the Science and Technology Development Project of Jilin Province,China(No.20240404043ZP)the Science and Technology Innovation Cooperation Project of Changchun Science and Technology Bureau and Chinese Academy of Sciences,China(No.23SH14)。
文摘In this study,a novel polysaccharide GPA-G 2-H was derived from ginseng.Furthermore,the coherent study of its structural characteristics,fermented characteristics in vitro,as well as antioxidant mechanism of fermented product FGPA-G 2-H on Aβ25-35-induced PC 12 cells were explored.The structure of GPA-G 2-H was determined by means of zeta potential analysis,FTIR,HPLC,XRD,GC-MS and NMR.The backbone of GPA-G 2-H was mainly composed of→4)-α-D-Glcp-(1→with branches substituted at O-3.Notably,GPA-G 2-H was degraded by intestinal microbiota in vitro with total sugar content and pH value decreasing,and short-chain fatty acids(SCFAs)increasing.Moreover,GPA-G 2-H significantly promoted the proliferation of Lactobacillus,Muribaculaceae and Weissella,thereby making positive alterations in intestinal microbiota composition.Additionally,FGPA-G 2-H activated the Nrf 2/HO-1 signaling pathway,enhanced HO-1,NQO 1,SOD and GSH-Px,while inhabited Keap 1,MDA and LDH,which alleviated Aβ-induced oxidative stress in PC 12 cells.These provide a solid theoretical basis for the further development of ginseng polysaccharides as functional food and antioxidant drugs.
基金Supported by Natural Science Foundation of Shanxi Province (202203021221219)Research on the Construction of Scientific and Technological Innovation Think Tank of Shanxi Association for Science and Technology (KXKT202542)Planning Project under Commerce Statistical Society of China (2025STY122)。
文摘As a key component of shale oil,petroleum fractions,and chemical products,the oxidative pyrolysis behavior of paraffin directly influences energy conversion efficiency and the direction of process optimization.A deep understanding of its oxidative pyrolysis mechanism is crucial for addressing wax deposition in oil and gas extraction,enhancing product selectivity in cracking processes,and advancing novel clean fuel technologies.Traditional experimental methods face challenges in capturing transient free-radical reaction pathways at high temperatures,whereas molecular dynamics simulations offer a powerful approach to bridge the research gap in elucidating atomic-scale dynamic mechanisms.This database is constructed based on high-precision molecular dynamics simulations,comprising oxidative pyrolysis trajectory data for three paraffin models featuring different straight-chain hydrocarbon distributions within the temperature range of 2100-2500 K.The COMPASS force field was employed to optimize the initial structures,and the ReaxFF reactive force field was used to simulate the oxidative pyrolysis process.The database includes atomic trajectories,species evolution information,and reaction network analysis results for both heating and isothermal cracking processes,with a total data volume of approximately 141 GB(including 150000 atomic configuration frames).The data is stored in a hierarchical directory structure,supporting multi-scale oxidative pyrolysis mechanism studies and providing atomic-scale dynamic evidence for revealing carbon chain length effects and temperature sensitivity.
文摘A series of new chiral amide ligands were prepared from natural amino acids and applied to the copper-catalyzed asymmetric oxidative homocoupling reaction of 3-hydroxy-2-naphthoates.By optimizing the reaction conditions,it was found that when using L3(5 mol%)as the ligand,CuCl(5 mol%)as the catalyst,dichloromethane as the solvent,2,2,6,6-tetramethylpiperidine 1-oxyl(TEMPO)/O2 as the oxidant,and under the reaction condition of 40℃,this method exhibited good substrate tolerance.Under these conditions,a series of chiral 1,1'-bi-2-naphthol(BINOL)derivatives were synthesized with yields of 45%~90%and enantioselectivities ranging from 50∶50 to 97∶3.
基金Project supported by the Fundamental Research Funds for the Central Universities(No.2042025kf0052)。
文摘In molybdenum chemistry,the oxidative addition of o-quinone or 1,2-dicarbonyl compounds to molybdenum has been widely used in Mo-catalyzed C—C bond construction.The carbonyl oxidative addition to Mo(0)or Mo(Ⅱ)is the critical elementary reaction of molybdenum catalysis.However,the relevant density functional theory(DFT)studies are relatively scarce,especially regarding the rational selection of functionals.In this work,14 functionals were employed to investigate the Mo-catalyzed carbonyl oxidative addition step.A benchmark study was carried out to evaluate their performance in structure optimization and energy calculation.Analyses of mean absolute error(MAE)and mean squared error(MSE)indicated that the B3LYP-D3(BJ),TPSSh,and ωB97X-D functionals exhibited superior performance in structure optimization.Using the DLPNO-CCSD(T)functional as the reference,the M06,M06-L,and MN15-L functionals exhibited good performance for energy calculation based on the structures optimized using the B3LYP-D3(BJ)functional.In particular,MN15-L provided the best performance with the smallest MAE and MSE.
基金supported by The Program of Science and Technology Development Plan of Jilin Province(20230202066NC)Graduate Innovation Research Project of Jilin University(2024CX151)。
文摘Background Heat stress(HS)can impair boar testicular function,leading to reproductive issues.However,chlorogenic acid(CGA)has been shown to mitigate HS-induced damage in various livestock and poultry species.Prepuberty is an important stage of testicular development in boars after birth.However,the protective effect of CGA on testicular HS injury during prepuberty boars and the underlying mechanisms are still not fully understood.Results In vivo,a total of 30 healthy boars with similar body weights and ages were obtained and randomly divided into 3 groups,which were fed a basal diet supplemented with CGA 0(the ND_TN group),0(the ND_HS group)or 1,000(the CGA_HS group)mg/kg.After being fed for 28 d,all the groups,except the ND_TN group,were treated with high temperature for 7 d,after which samples were collected from the boars and analysed.The results showed that CGA significantly mitigated the HS-induced reduction in T-AOC content in testicular tissue and sperm density.Mechanistically,multiomics analysis revealed that the genes differentially expressed by CGA and HS were predominantly associated with the glutathione metabolism pathway.The combined analysis of transcriptomics and proteomics revealed that only BLVRA was affected by both HS and CGA when the mRNA and protein levels of a gene showed differential expression with the same trend.In vitro studies confirmed that CGA modulated GPX3 expression via BLVRA,affected GPx activity,and attenuated HS-induced ROS accumulation.Conclusions In conclusion,prepubertal HS impairs the spermatogenic capacity of boars.BLVRA may mediate the testicular protective effect of CGA,although in vivo validation of this pathway is needed.This study contributes to elucidating the mechanisms underlying the effects of HS on prepubertal boar testicular development using multiomics approaches,laying a foundation for the potential utilization of CGA in swine production.
基金supported by the Central Guided Local Development Fund Special Project(No.ZY23055039)the Natural Science Foundation of Guangxi Province(No.2025GXNSFHA069061)+5 种基金Baise City Scientific Research and Technology Development Plan Self-Funded Project(No.Encyclopedia 20241590)Baise City Scientific Research and Technol-ogy Development Plan Project(No.Encyclopedia 20232083)Guangxi Zhuang Autonomous Region Traditional Chinese Medicine Management Bureau Self-Funded Scientific Research Project(No.GZZC2020248)Guangxi Zhuang Autonomous Region Health Commission Self-Funded Scientific Research Project(No.Z20201416)2024 Innovation Project of Youjiang Medical University for Nationalities Graduate Education(No.YXCXJH2024004)the Natural Science Foundation of Guangxi Province(No.GUIKEAB24010060).
文摘The liver,a critical metabolic organ,is particularly vulnerable to damage upon aluminum exposure.However,the precise molecular mechanisms through which aluminum induces hepatotoxicity remain to be fully elucidated.This study aimed to investigate the adverse effects of aluminum exposure on mouse liver tissue.The results indicated that AlCl_(3) exposure induced significant liver dysfunction,characterized by reduced adenosine triphosphate levels,elevated plasma alanine aminotransferase and aspartate aminotransferase.Histopathological analysis of liver tissue revealed marked histological damage,accompanied by substantial iron deposition.Further examinations demonstrated elevated hepatic levels of malondialdehyde,4-hydroxynonenal,and reactive oxygen species,decreased levels of glutathione(GSH)and superoxide dismutase,increased levels of oxidized glutathione(GSSG),and a reduced GSH/GSSG ratio.The mRNA and protein expression of ferroptosis-related molecules,including downregulated glutathione peroxidase 4 and solute carrier family 7 member 11,were significantly downregulated,while acyl-CoA synthetase long-chain family member 4,ferritin heavy chain 1,and iron regulatory protein 1 levels were significantly upregulated.Treatment with Ferrostatin-1 markedly ameliorated liver dysfunction and histopathological damage,attenuating signs of ferroptosis.These findings highlight the potential of ferroptosis-targeted therapies as a viable treatment strategy for aluminum exposure-induced hepatocyte injury.
基金supported by the National Research Foundation of Korea grant funded by the Korean government(Grant no.:RS-2022-NR070862).
文摘Objective:To evaluate the hepatoprotective effects of skate-derived bioactives-collagen peptides(CPs)and chondroitin-against ethanol(EtOH)-induced liver injury and to elucidate their underlying mechanisms.Methods:The protective effects of CPs and chondroitin were assessed in different in vitro and in vivo EtOH-induced injury models.Oxidative stress was evaluated by measuring reactive oxygen species production and antioxidant markers(NRF2 and GCLC).EtOH metabolism was examined by measuring alchohol-metabolizing enzymes(alcohol dehydrogenase and aldehyde dehydrogenase)and cytochrome P450 enzymes.Furthermore,lipid dysregulation was assessed by Oil Red O staining and determination of lipogenic markers(SREBP-1 and FAS).Liver injury was also evaluated by measuring serum glutamate oxaloacetate transaminase and glutamate pyruvate transaminase,and performing histological analysis.Results:In hepatocytes and zebrafish,both CPs and chondroitin reduced oxidative stress,downregulated cytochrome P450 enzymes and lipogenic markers,and enhanced antioxidant defenses,with chondroitin showing the strongest hepatoprotection.In EtOH-fed mice,chondroitin significantly improved liver enzyme profiles,reduced hepatic lipid accumulation and inflammation,and restored antioxidant and metabolic homeostasis.Conclusions:Skate-derived chondroitin significantly attenuates EtOH-induced liver injury by modulating oxidative stress,EtOH metabolism,and lipid regulation.These findings demonstrate the hepatoprotective potential of chondroitin in different preclinical models of alcohol-induced liver damage.
基金funded by research grant from National Natural Science Foundation of China(32171135).
文摘Resistance exercise has been confirmed to be important for maintaining muscle mass and function.However,despite considerable experimental studies,the underlying mechanisms still requires further investigation to be elucidated.Sestrin1 is a stress-inducible protein strongly associated with the occurrence and development of skeletal muscle dysfunction.Besides,oxidative stress is believed to be a major pathogenic mechanism in the development of skeletal muscle atrophy,whereas regular exercise training induces the endogenous antioxidative system and protects the body against adverse effects of oxidative stress.Nevertheless,whether Sestrin1 is involved in the amelioration of resistance exercise on muscle atrophy and the role of its antioxidant function in this process remains unknown.Here we show that six-week resistance exercise training significantly improved muscle function,muscle mass,and oxidative damage and maintained the level of Sestrin1 in dexamethasone-treated C57BL/6J mice.Mechanistically,Sestrin1 overexpression rescued protein degradation and oxidative stress in atrophied myotubes.Furthermore,an emerging regulator of cellular defense against toxic and oxidative insults,nuclear factor erythroid2–related factor 2(Nrf2)controls the basal and induced expression of an array of antioxidant response element–dependent genes to regulate the pathophysiological outcomes of oxidant exposure.In this study,we found that Nrf2 is a target of Sestrin1,and Nrf2 nuclear translocation is facilitated by Sestrin1.ML385(an Nrf2 inhibitor)treatment mitigated the regulatory effects of overexpression-Sestrin1.Therefore,Sestrin1 was involved in the process of resistance exercise against skeletal muscle atrophy,which may be closely related to its antioxidant capacity,revealing a potential therapeutic strategy for reducing the loss of skeletal muscle.
基金Financial support for this research was provided by Modern Agro-industry Technology Research System of China(CARS-34)the Science and Technology Innovation Leading Talent in Central Plains(No.244200510010)the Outstanding Talents of Henan Agricultural University(No.30500636)。
文摘Background During the weaning phase,piglets are exposed to significant physiological and environmental stressors,which disrupt the balance of their intestinal microbiota and often lead to severe diarrhea.Previous studies have demonstrated that alfalfa fiber,derived from the stems and leaves of alfalfa,can effectively alleviate diarrhea in piglets.Additionally,multiple studies have highlighted the potential of fecal microbiota transplantation(FMT)in mitigating diarrhea in various models of intestinal diseases in young animals.However,the specific mechanisms by which FMT from targeted sources alleviates diarrhea in weaned piglets remain to be fully elucidated.Results In this study,FMT from donor piglets fed an alfalfa fiber-supplemented diet effectively alleviated diarrhea,improved intestinal morphology,and enhanced gut barrier function in weaned piglets.FMT further promoted the colonization of beneficial bacterial genera(including UCG-005,unclassified Lachnospiraceae,Lachnospiraceae AC2044 group,UCG-002,Candidatus Saccharimonas,and Lachnospiraceae ND3007 group)while inhibiting the detrimental genus Tyzzerella,consequently enhancing the production of short-chain fatty acids(SCFAs).Additionally,FMT upregulated riboflavin metabolism,leading to elevated flavin adenine dinucleotide(FAD)levels and increased glutathione reductase activity,thereby collectively attenuating lipopolysaccharide(LPS)-induced oxidative stress and contributing to intestinal health.Conclusions We found that FMT modulates the structure of the gut microbiota,enhances microbial diversity and composition,increases the production of SCFAs,and upregulates riboflavin metabolism to elevate FAD levels.These changes collectively enhance immune and antioxidant capacities,thereby alleviating diarrhea.
基金supported by the National Natural Science Foundation of China(No.41975156)and the Fundamental Research Funds for the Central Universities.
文摘Oxidative potential(OP)can be used as an indicator of the health risks of particulate matter in the air.To study the variation and sources of OP,we conducted an observation of PM_(2.5) in a megacity in southern China in winter and spring of 2021.The results show that the average concentration of PM_(2.5) decreased by 47%from winter to spring,while volume-normalized and mass-normalized OP(i.e.,OP_(v) and OP_(m))increased by 6%and 69%,respectively.It suggests that the decline of PM_(2.5) may not necessarily decrease the health risks and the intrinsic toxicity of PM_(2.5).Variations of OP_(v) and OP_(m) among different periods were related to the different source contributions and environmental conditions.The positive matrix factorization model was used to identify the major sources of OP_(v).OP_(v) was mainly contributed by biomass burning/industrial emissions(29%),soil/road dust(20%),secondary sulfate(14%),and coal combustion(13%)in winter.Different major sources were resolved to be secondary sulfate(36%),biological sources(21%),and marine vessels(20%)in spring,presenting the substantial contribution of biological sources.The analysis shows strong associations between OP_(v) and both live and dead bacteria,further confirming the important contribution of bioaerosols to the enhancement of OP.This study highlights the importance of understanding OP in ambient PM_(2.5) in terms of public health impact and provides a new insight into the biological contribution to OP.
基金financially supported by the Hospital University United Fund of the Second Affiliated Hospital,School of Medicine,The Chinese University of Hong Kong,Shenzhen(Nos.AIE2202,HUUF-ZD-202302)Longgang Medical Discipline Construction Fund+1 种基金Cooperation Project of Yangzhou City with Yangzhou University(No.YZ2023209)Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD)for financial support。
文摘By using carbohydrates as the biomass carbon sources,Se/C materials could be easily prepared.The materials could catalyze the oxidative deoximation reactions,which are significant transformations in both pharmaceutical industry and fine chemical production.Compared with the reported organoseleniumcatalyzed ionic reactions,the Se/C-catalyzed deoximation reactions occurred via unique free radical mechanisms,endowing the Se species high catalytic reactivity.The Se/C catalysts were recyclable and their turnover numbers(TONs)were high(>10^(4)),making the reactions practical for industrial grade preparation.The unique free radical mechanisms of the reaction and green and practical features of the catalysts are the characteristics and advantages of the work.
