This study reviews the hepatotoxic chemicals,mechanisms of toxicity,and detoxification methods of Toosendan Fructus(TF).Limonin-type triterpenoids,as primary hepatotoxic components,mediate toxicity though inflammation...This study reviews the hepatotoxic chemicals,mechanisms of toxicity,and detoxification methods of Toosendan Fructus(TF).Limonin-type triterpenoids,as primary hepatotoxic components,mediate toxicity though inflammation,oxidative stress,mitochondrial dysfunction,ferroptosis,and apoptosis.Hepatotoxicity can be mitigated by controlling dosage,using processed forms of the herbs,and through rational herbal compatibility.The review provides insights for enhancing the safety and clinical application of TF.展开更多
To evaluate the subchronic and chronic toxicity of Fuyanxiao capsules,Sprague-Dawley(SD)rats were used in toxicity studies.In the subchronic toxicity study,50 female rats were randomly divided into a high-dose group(5...To evaluate the subchronic and chronic toxicity of Fuyanxiao capsules,Sprague-Dawley(SD)rats were used in toxicity studies.In the subchronic toxicity study,50 female rats were randomly divided into a high-dose group(5.4g/kg/day)and a control group,with 15 rats in each,and medium(2.7g/kg/day)and low(1.35g/kg/day)dose groups,with 10 rats in each.The test substance was administered orally(mixed with feed,twice daily)for 90 consecutive days.In the chronic toxicity study,40 female rats were randomly divided into high,medium,and low dose groups and a control group,with 10 rats in each.The test substance was administered orally in the same manner for 180 consecutive days.Clinical signs,body weight,and food consumption were observed and recorded daily.At the end of the terminal phase(the first 10 rats from each group,1 day after the last dose)and the recovery phase(the last 5 rats from the control group and the high-dose group,observed for an additional 28 days after the last dose),blood and urine samples,as well as organs,were collected.Organ coefficients were calculated,and various hematological and urinary indicators were detected,followed by pathological analysis.The results showed that there were no significant differences in body weight,food consumption,or organ coefficients between any of the dose groups and the control group in both subchronic and chronic toxicity studies(P>0.05).Histopathological examination revealed no lesions,suggesting no tissue or organ damage in any of the dose groups.The rats exhibited good mental status,and hematological and urinary physiological indicators were within normal ranges,indicating stable liver and kidney function,hematopoietic system of the bone marrow,and internal environment in all dose groups.Therefore,Fuyanxiao capsule has no obvious subchronic or chronic toxicity in SD rats,and it is safe and reliable to use at reasonable dosage in clinical practice.展开更多
This study attempted to assess the lethal concentration(96-h LC_(50))effects of imidacloprid(neonicotinoid pesticide),thiamethoxam(neonicotinoid pesticide),and their combination on juvenile Zebrafish(Danio rerio).Each...This study attempted to assess the lethal concentration(96-h LC_(50))effects of imidacloprid(neonicotinoid pesticide),thiamethoxam(neonicotinoid pesticide),and their combination on juvenile Zebrafish(Danio rerio).Each set of trials contained a control(de-chlorinated tap water),and the experiments were repeated three times.The fish(n=10)were randomly measured with an average length of(3.4±0.34)cm and weight of(1±0.1)g.The temperature was kept at 24℃.Experiments 1 and 2 were designed to investigate at the acute toxicity of imidacloprid and thiamethoxam on juvenile zebrafish(Danio rerio)respectively,whereas experiment 3 was aimed at the combined toxicity of IMI and THM on zebrafish.The tests followed the same study design,and each experiment used seven different logarithmic concentrations of imidacloprid insecticides(310.00,317.08,324.33,331.74,339.32,347.07,355.00 mg/L)and thiamethoxam(175.00,185.52,200.93,215.30,230.70,247.20,264.88 mg/L).The results show that THM is more toxic than IMI,with LC_(50)values of 190.34 mg/L for THM and 310.92 mg/L for IMI.Both individual toxicities showed a substantial positive connection(P<0.05)with confidence limits of 321.50-300.68 mg/L for IMI and 199.91-181.21 mg/L for THM.The joint toxicity test was carried out using the 96-h LC_(50)values of imidacloprid and thiamethoxam obtained in the individual acute toxicity trials at a 1:1 ratio.The Additive Index(AI)demonstrated that imidacloprid and thiamethoxam acted synergistically on D.rerio.As a matter of fact,more research is needed to better understand the impact of IMI and THM on other aquatic organisms and also create strategies to mitigate its harmful effects on aquatic life.展开更多
The zebrafish has emerged as a powerful model organism in life science owing to its remarkable biological characteristics and wide-ranging applications.This review provides a comprehensive overview of the recent advan...The zebrafish has emerged as a powerful model organism in life science owing to its remarkable biological characteristics and wide-ranging applications.This review provides a comprehensive overview of the recent advancements in research on zebrafish within the field of environmental toxicology,highlighting specific studies where this species was used to investigate various pollutants to elucidate their impacts and underlying mechanisms.The findings of these studies underscore the significant potential of zebrafish as a model to gain crucial insights into the ecological consequences of environmental contamination and toxicity pathways.By incorporating cutting-edge technologies such as artificial intelligence(Al),high-throughput screening,and omics approaches,the use of zebrafish as a model organism is poised to significantly accelerate toxicological investigations,promote environmental conservation efforts,contribute to safeguarding human health,and advance sustainable development objectives.展开更多
Persistent toxic substances(PTS)represent a paramount environmental issue in the 21st century.Understanding the concentrations and forms of PTS in the environment is crucial for accurately assessing their environmenta...Persistent toxic substances(PTS)represent a paramount environmental issue in the 21st century.Understanding the concentrations and forms of PTS in the environment is crucial for accurately assessing their environmental health impacts.This article presents a concise overview of the components of PTS,pertinent environmental regulations,and conventional detection methodologies.Additionally,we offer an in-depth review of the principles,development,and practical applications of surface-enhanced Raman scattering(SERS)in environmental monitoring,emphasizing the advancements in detecting trace amounts of PTS in complex environmental matrices.Recent progress in enhancing SERS sensitivity,improving selectivity,and practical implementations are detailed,showcasing innovative materials and methods.Integrating SERS with advanced algorithms are highlighted as pivotal areas for future research.展开更多
Background Hexafluoropropylene oxide dimer acid(GenX),a substitute for per-and polyfluoroalkyl substances,has been widely detected in various environmental matrices and foods recently,attracting great attention.Howeve...Background Hexafluoropropylene oxide dimer acid(GenX),a substitute for per-and polyfluoroalkyl substances,has been widely detected in various environmental matrices and foods recently,attracting great attention.However,a systematic characterization of its reproductive toxicity is still missing.This study aims to explore the male reproductive toxicity caused by GenX exposure and the potential cellular and molecular regulatory mechanisms behind it.Results Normally developing mice were exposed to GenX,and testicular tissue was subsequently analyzed and validated using single-cell RNA sequencing.Our results revealed that GenX induced severe testicular damage,disrupted the balance between undifferentiated and differentiated spermatogonial stem cells,and led to strong variation in the cellular dynamics of spermatogenesis.Furthermore,GenX exposure caused global upregulation of testicular somatic cellular inflammatory responses,increased abnormal macrophage differentiation,and attenuated fibroblast adhesion,disorganizing the somatic-germline interactions.Conclusions In conclusion,this study revealed complex cellular dynamics and transcriptome changes in mouse testis after GenX exposure,providing a valuable resource for understanding its reproductive toxicity.展开更多
BACKGROUND Return to work(RTW)serves as an indication for young and middle-aged colorectal cancer(CRC)survivors to resume their normal social lives.However,these survivors encounter significant challenges during their...BACKGROUND Return to work(RTW)serves as an indication for young and middle-aged colorectal cancer(CRC)survivors to resume their normal social lives.However,these survivors encounter significant challenges during their RTW process.Hence,scientific research is necessary to explore the barriers and facilitating factors of returning to work for young and middle-aged CRC survivors.AIM To examine the current RTW status among young and middle-aged CRC survivors and to analyze the impact of RTW self-efficacy(RTW-SE),fear of progression(FoP),eHealth literacy(eHL),family resilience(FR),and financial toxicity(FT)on their RTW outcomes.METHODS A cross-sectional investigation was adopted in this study.From September 2022 to February 2023,a total of 209 participants were recruited through a convenience sampling method from the gastrointestinal surgery department of a class A tertiary hospital in Chongqing.The investigation utilized a general information questionnaire alongside scales assessing RTW-SE,FoP,eHL,FR,and FT.To analyze the factors that influence RTW outcomes among young and middle-aged CRC survivors,Cox regression modeling and Kaplan-Meier survival analysis were used.RESULTS A total of 43.54%of the participants successfully returned to work,with an average RTW time of 100 days.Cox regression univariate analysis revealed that RTW-SE,FoP,eHL,FR,and FT were significantly different between the non-RTW and RTW groups(P<0.05).Furthermore,Cox regression multivariate analysis identified per capita family monthly income,job type,RTW-SE,and FR as independent influencing factors for RTW(P<0.05).CONCLUSION The RTW rate requires further improvement.Elevated levels of RTW-SE and FR were found to significantly increase RTW among young and middle-aged CRC survivors.Health professionals should focus on modifiable factors,such as RTW-SE and FR,to design targeted RTW support programs,thereby facilitating their timely reintegration into mainstream society.展开更多
Developmental and reproductive toxicity(DART)endpoint entails a toxicological assessment of all developmental stages and reproductive cycles of an organism.In silico tools to predict DART will provide a method to asse...Developmental and reproductive toxicity(DART)endpoint entails a toxicological assessment of all developmental stages and reproductive cycles of an organism.In silico tools to predict DART will provide a method to assess this complex toxicity endpoint and will be valuable for screening emerging pollutants as well as for m anaging new chemicals in China.Currently,there are few published DART prediction models in China,but many related research and development projects are in progress.In 2013,WU et al.published an expert rule-based DART decision tree(DT).This DT relies on known chemical structures linked to DART to forecast DART potential of a given chemical.Within this procedure,an accurate DART data interpretation is the foundation of building and expanding the DT.This paper excerpted case studies demonstrating DART data curation and interpretation of four chemicals(including 8-hydroxyquinoline,3,5,6-trichloro-2-pyridinol,thiacloprid,and imidacloprid)to expand the existing DART DT.Chemicals were first selected from the database of Solid Waste and Chemicals Management Center,Ministry of Ecology and Environment(MEESCC)in China.The structures of these 4 chemicals were analyzed and preliminarily grouped by chemists based on core structural features,functional groups,receptor binding property,metabolism,and possible mode of actions.Then,the DART conclusion was derived by collecting chemical information,searching,integrating,and interpreting DART data by the toxicologists.Finally,these chemicals were classified into either an existing category or a new category via integrating their chemical features,DART conclusions,and biological properties.The results showed that 8-hydroxyquinoline impacted estrous cyclicity,s exual organ weights,and embryonal development,and 3,5,6-trichloro-2-pyridinol caused central nervous system(CNS)malformations,which were added to an existing subcategory 8e(aromatic compounds with multi-halogen and nitro groups)of the DT.Thiacloprid caused dystocia and fetal skeletal malformation,and imidacloprid disrupted the endocrine system and male fertility.They both contain 2-chloro-5-methylpyridine substituted imidazolidine c yclic ring,which were expected to create a new category of neonicotinoids.The current work delineates a t ransparent process of curating toxicological data for the purpose of DART data interpretation.In the presence of sufficient related structures and DART data,the DT can be expanded by iteratively adding chemicals within the a pplicable domain of each category or subcategory.This DT can potentially serve as a tool for screening emerging pollutants and assessing new chemicals in China.展开更多
The herbal drink “Attoté” has been widely used in the Abidjan district to treat a number of illnesses, notably erectile dysfunction. Despite the popularity of its therapeutic effects, very few studies have been...The herbal drink “Attoté” has been widely used in the Abidjan district to treat a number of illnesses, notably erectile dysfunction. Despite the popularity of its therapeutic effects, very few studies have been carried out on its effects on the health of users. The aim of this study was to identify the constituents contained in the phytomedicinal product and to assess their potential adverse effects in vivo. Phytochemical screening was conducted to identify the bioactive molecules in “Attoté” and to evaluate its hepatic effects in vivo. Forty (40) Wistar rats, randomly divided into 4 groups, with 10 animals per group (5 males and 5 females) were used to study potential hepatotoxic effects. Group 1 animals (control group) received distilled water. Batches I, II and III received by gavage a volume of Attoté extract corresponding to 1 ml/100 g body weight at 200 mg/kg, 400 mg/kg and 800 mg/kg, respectively. Attoté extract was administered daily at the same time for 28 days, and serum was collected every two weeks to assess hepatic biochemical markers by spectrophotometry using a Cobas C311® HITACHI biochemistry system. After one month of study, the rats were euthanized by ether overdose and the livers were harvested for morphological and histopathological analysis. Phytochemical screening revealed the presence of alkaloids, polyphenols, leucoanthocyanes, anthraquinones and quinones. Hepatic biochemical and hematological parameters such as red globular, hemoglobin, alanine aminotransferase (ALAT), aspartate aminotransferase (ASAT), alkaline phosphatase (ALPs) and gamma glutamyl transferase (GGT) showed no significant change (p > 0.05) in the treated rat group compared with controls. However, these variations were moderate and transient, with values remaining almost within their standard limits. Microscopic observations of liver tissue sections from treated rats showed no liver damage or dysfunction. This study merits further investigation, with a view to gaining a better understanding of the cytotoxic mechanisms of herbal medicinal beverages, with a view to their reformulation as improved traditional medicines (ITMs).展开更多
This study investigated the eco-biocontrol potential of indigenous isolates obtained from agricultural soils in WarboVillage, Papua, Indonesia, targeting the highly destructive fall armyworm (Spodoptera frugiperda) in...This study investigated the eco-biocontrol potential of indigenous isolates obtained from agricultural soils in WarboVillage, Papua, Indonesia, targeting the highly destructive fall armyworm (Spodoptera frugiperda) in corn agroecosystems.A total of 58 bacterial colonies were isolated, of which 18 were morphologically confirmed as Bacillus thuringiensis basedon endospore and parasporal crystal protein characteristics. These isolates were cultured in Tryptose Phosphate Broth andtested for larvicidal activity against second-instar larvae under controlled conditions. Toxicity tests revealed that isolate 18exhibited the highest efficacy, causing 100% larval mortality, followed by isolates 12 and 13 with 93.3%, confirming astrong entomopathogenic potential. The most toxic isolates were further verified by the presence of cry1F and cry2Aagenes through PCR analysis, indicating the molecular basis of their virulence. The innovation of this research lies in thecombination of morphological, toxicological, and molecular characterizations of locally adapted Bacillus thuringiensisstrains, which offers a sustainable, environmentally friendly alternative to chemical pesticides. These findings provide ascientific foundation for developing region-specific bioinsecticides, reducing dependence on synthetic inputs, and supportingsustainable pest management strategies in tropical corn production systems.展开更多
Background:Inhalation exposure is the gold standard when assessing pulmonary tox-icity.However,it typically requires substantial amounts of test material.Intratracheal instillation is an alternative administration tec...Background:Inhalation exposure is the gold standard when assessing pulmonary tox-icity.However,it typically requires substantial amounts of test material.Intratracheal instillation is an alternative administration technique,where the test substance is suspended in a liquid vehicle and deposited into the lung via the trachea.Instillation requires minimal test material,delivers an exact dose deep into the lung,and is less labor-intensive than inhalation exposures.However,one shortcoming is that the pro-cedure may induce short-term inflammation.To minimize this,we tested different modifications of the technique to identify the potential for refinement.Methods:First,we tested whether previous findings of increased inflammation could be confirmed.Next,we tested whether instillation with a disposable 1 mL syringe with ball-tipped steel-needle(Disposable-syringe/steel-needle)induced less inflammation than the use of our standard set-up,a 250μL reusable glass syringe with a disposable plastic catheter(Glass-syringe/plastic-catheter).Finally,we tested if access to pelleted and liquid feed prior to instillation affected inflammation.We evaluated inflammation by neutrophil numbers in bronchoalveolar fluid 24 h post-exposure.Results:Vehicle-instilled mice showed a small increase in neutrophil numbers com-pared to untreated mice.Neutrophil numbers were slightly elevated in the groups in-stilled with Disposable-syringe/steel-needle;an interaction with feed type indicated that the increase in neutrophils was more pronounced in combination with feed pel-lets compared to liquid feed.We found no difference between the feed types when using the Glass-syringe/plastic-catheter combination.Conclusion:The Glass-syringe/plastic-catheter combination induced the least exposure-related inflammation,confirming this as a preferred instillation procedure.展开更多
The potential toxicity of ionic liquids(ILs)affects their applications;how to control the toxicity is one of the key issues in their applications.To understand its toxicity structure relationship and promote its green...The potential toxicity of ionic liquids(ILs)affects their applications;how to control the toxicity is one of the key issues in their applications.To understand its toxicity structure relationship and promote its greener application,six different machine learning algorithms,including Bagging,Adaptive Boosting(AdaBoost),Gradient Boosting(GBoost),Stacking,Voting and Categorical Boosting(CatBoost),are established to model the toxicity of ILs on four distinct datasets including Leukemia rat cell line IPC-81(IPC-81),Acetylcholinesterase(AChE),Escherichia coli(E.coli)and Vibrio fischeri.Molecular descriptors obtained from the simplified molecular input line entry system(SMILES)are used to characterize ILs.All models are assessed by the mean square error(MSE),root mean square error(RMSE),mean absolute error(MAE)and correlation coefficient(R^(2)).Additionally,an interpretation model based on SHapley Additive exPlanations(SHAP)is built to determine the positive and negative effects of each molecular feature on toxicity.With additional parameters and complexity,the Catboost model outperforms the other models,making it a more reliable model for ILs'toxicity prediction.The results of the model's interpretation indicate that the most significant positive features,SMR_VSA5,PEOE_VSA8,Kappa2,PEOE_VSA6,SMR_VSA5,PEOE_VSA6 and EState_VSA1,can increase the toxicity of ILs as their levels rise,while the most significant negative features,VSA_EState7,EState_VSA8,PEOE_VSA9 and FpDensityMorgan1,can decrease the toxicity as their levels rise.Also,an IL's toxicity will grow as its average molecular weight and number of pyridine rings increase,whereas its toxicity will decrease as its hydrogen bond acceptors increase.This finding offers a theoretical foundation for rapid screening and synthesis of environmentally-benign ILs.展开更多
Excessive concentrations of toxic metals are a global threat to aquatic systems.Taking a typical tributary(Zijiang River,ZR)of the midstream of the Yangtze River as the research area,the concentration distribution and...Excessive concentrations of toxic metals are a global threat to aquatic systems.Taking a typical tributary(Zijiang River,ZR)of the midstream of the Yangtze River as the research area,the concentration distribution and chemical fractions occurrence characteristics of five toxic metals(Cd,Cr,Cu,Pb,and Zn)were analyzed,their potential sources were explored,and their contamination and ecological risk was assessed.In the surface waters and sediments,there were high concentrations of Zn,a low concentration of Cd,and small spatial differences in concentration among the upstream,midstream,and downstream.In terms of speciation,Cd mainly existed in the acid-soluble fraction,Pb mainly existed in the reducible fraction,and Cr,Cu,and Zn mainly existed in the residue fraction.The potential sources in surface waters and sediments were determined to be industrial emissions and agricultural non-point sources through the absolute principal component scores–multiple linear regression model(APCS–MLR).Based on the assessment results of total concentration and speciation,Cd was the typical contamination element in ZR sediments.In addition,the secondary phase enrichment factor(SPEF)based on speciation underestimates the degree of Pb contamination,and the ecological risk of Zn assessed by the ratio of secondary phase and primary phase(RSP)and the risk assessment code(RAC)was higher than that of Cr,which was inconsistent with the results based on total concentrations.SOM and Al/Fe/Mn cycles in sediments influenced the geochemical behavior of toxic metals.展开更多
Phytophthora infestans control is a long-standing problem that has caused ongoing difficulties and brought limited success for over a century.Traditional methods,such as fungicides,have drawbacks including high cost,r...Phytophthora infestans control is a long-standing problem that has caused ongoing difficulties and brought limited success for over a century.Traditional methods,such as fungicides,have drawbacks including high cost,restrictions on organic farming,potential risks to the environment and human health,and the development of resistant strains.In this study,we employed cutting-edge computer-based techniques,including Quantitative Structure-Activity Relationship(QSAR)modeling and molecular docking simulations,to uncover new fungicidal compounds and gain insights into their specific mechanisms of action against P.infestans.QSAR modeling on the number of compounds tested as P.infestans inhibitors was performed using an interactive OCHEM web platform.The predictive ability of the developed classification models had a balanced accuracy(BA)of 77–85%for the training set and BA?89–93%for the validation external test set.During the in vitro testing against P.infestans,thirteen synthesized 2-oxoimidazolidine-4-sulfonamides demonstrated inhibition rates,ranging from 23.6%to 87.4%.The fungicidal potential of six of these fungicides ranged from 79.3%to 87.4%,which is comparable to the activity of known fungicides.Acute toxicity results using the well-known aquatic marker Daphnia magna showed that the most active sulfonamides 3d,3f,3h,3j,3k,and 3l,with LC_(50) values ranging from 13.7 to 52.9 mg/L,are low-toxicity compounds.The molecular docking results demonstrated a potential mechanism of the antifungal action of the studied 2-oxoimidazolidin-4-sulfonamide derivatives via the inhibition of fungal CYP51,a sterol biosynthesis enzyme.展开更多
Annona squamosa Linn.fruit is famous for its nutritional value with a long history of medicinal benefits due to the presence of many phytochemicals,including alkaloids,diterpenes,essential oil,phytopeptides,etc.Severa...Annona squamosa Linn.fruit is famous for its nutritional value with a long history of medicinal benefits due to the presence of many phytochemicals,including alkaloids,diterpenes,essential oil,phytopeptides,etc.Several studies envisaged that Annona squamosa possesses cytotoxic,diuretic,antiurolithiatic,antitumor,anti-psoriatic,antioxidant,and hepatoprotective properties.This plant is traditionally used for the treatment of wound infection,dysentery,seizure,tumors,fever,vomiting,parasitic infections,hypertension,thyroid,toothache,acne,heart disease,inflammation,diabetes,hair loss,dandruff,hemorrhage,maggot-infected sores,abortifacient,and cough.However,some chemical constituents isolated from the plant have shown specific toxic effects in human and animal models,such as acute oral toxic effects,genotoxic,neurotoxic,and ocular toxic.The plant has diverse pharmacological actions,the seeds of this plant possess a genotoxic effect but on the contrary,the bark of the plant shows genoprotective activity.A large number of ethnobotanical studies reported the seed of this plant is used to induce abortion in humans,but a scientific study carried out in pregnant rats reported aqueous seed extract of the plant did not interfere with reproductive performance.The presented review summarized the traditional uses,pharmacological,and toxicological activities of the isolated compounds from this plant.Additionally,some patents and commercial products related to Annona squamosa are also brought up in this article to explore its application which would attract the scientific community to search out its hidden side.展开更多
Acid-base dissociable antibiotic-metal complexes are known to be emerging contaminants in the aquatic environments.However,little information is available on the photochemical properties and toxicity of these complex ...Acid-base dissociable antibiotic-metal complexes are known to be emerging contaminants in the aquatic environments.However,little information is available on the photochemical properties and toxicity of these complex forms.This study investigated the spectral properties of three fluoroquinolones(FQs)with and without metal ions Fe(III),Cu(II),and Al(III)in solutions under different pH conditions,as well as evaluated the changes in toxicity due to the complex with thesemetal ions using luminescent bacteria(vibrio fischeri).FQs showed a higher tendency to coordinate metal ions under alkaline conditions compared to neutral and acidic conditions,and the formation of complexes weakened the ultravioletabsorbing ability of FQs.At pH=7.0,Cu(II)quenched the fluorescence intensity of FQs.Moreover,their Fourier-transform infrared spectroscopy and X-ray photoelectron spectroscopy were explored,revealing that the coordination sites of Cu(II)in three FQs were situated in a bidentate manner through the oxygen atom of the deprotonated carboxyl group and cyclic carbonyl oxygen atom.This conclusion was further verified by the theory of molecular surface electrostatic potential.In addition,except for complexes of ciprofloxacin-metals,enhanced toxicity of FQs upon coordination with Fe(III)was observed,while reduced toxicity was found for coordination with Cu(II)and Al(III).These results are important for accurately evaluating the photochemical behavior and risk of these antibiotics in aquatic environments contaminated with metal ions.展开更多
Nanoplastics are emerging contaminants that may co-exist with organochlorine pesticides and adversely affect invertebrates in the environment.However,the impact of environmental aging on the combined toxicity of nanop...Nanoplastics are emerging contaminants that may co-exist with organochlorine pesticides and adversely affect invertebrates in the environment.However,the impact of environmental aging on the combined toxicity of nanoplastics and organochlorine pesticides remains unclear.This study investigated the effects of aging on the combined toxicity of polystyrene nanoplastics(PS NPs)and chlordane against Caenorhabditis elegans.The results showed that photo-aging altered the physicochemical properties of PS NPs and promoted the combined toxicity of PS NPs and chlordane to nematodes by reducing survival rate,body length and enhancing germline apoptosis.Additionally,combined exposure of nematodes to aged PS NPs and chlordane significantly increased reactive oxygen species production and intestinal permeability,suggesting that aging enhances combined toxicity through oxidative stress and intestinal damage.Moreover,aging increased chlordane contents in nematodes without promoting PS NPs accumulation,potentially leading to increased combined toxicity of PS NPs and chlordane.Notably,aging significantly increased the accumulation of PS NPs in the posterior intestine of the nematode during co-exposure,which may be responsible for the most sensitive and highest degree of change in germline apoptosis.These observations emphasize the significance of accounting for environmental aging as well as the accumulation and distribution of nanoplastics in organisms when assessing the combined effects of nanoplastics and coexisting pollutants.展开更多
Dissolved black carbon(DBC)plays a crucial role in the migration and bioavailability of iron in water.However,the properties of DBC releasing under diverse pyrolysis conditions and dissolving processes have not been s...Dissolved black carbon(DBC)plays a crucial role in the migration and bioavailability of iron in water.However,the properties of DBC releasing under diverse pyrolysis conditions and dissolving processes have not been systematically studied.Here,the compositions of DBC released from biochar through redox processes dominated by bacteria and light were thoroughly studied.It was found that the DBC released from straw biochar possess more oxygen-containing functional groups and aromatic substances.The content of phenolic and carboxylic groups in DBC was increased under influence of microorganisms and light,respectively.The concentration of phenolic hydroxyl groups increased from 10.0~57.5 mmol/gC to 6.6~65.2 mmol/gC,and the concentration of carboxyl groups increased from49.7~97.5 mmol/gC to 62.1~113.3 mmol/gC.Then the impacts of DBC on pyrite dissolution andmicroalgae growth were also investigated.The complexing Fe^(3+)was proved to play a predominant role in the dissolution of ferrous mineral in DBC solution.Due to complexing between iron ion and DBC,the amount of dissolved Fe in aquatic water may rise as a result of elevated number of aromatic components with oxygen containing groups and low molecular weight generated under light conditions.Fe-DBC complexations in solution significantly promoted microalga growth,which might be attributed to the stimulating effect of dissolved Fe on the chlorophyll synthesis.The results of study will deepen our understanding of the behavior and ultimate destiny of DBC released into an iron-rich environment under redox conditions.展开更多
Chemotherapy-induced toxicity(CIT)remains a major concern in cancer patients undergoing chemotherapy.New approaches to ameliorate the side effects of chemotherapy are urgently needed.Recently,the nutritional value of ...Chemotherapy-induced toxicity(CIT)remains a major concern in cancer patients undergoing chemotherapy.New approaches to ameliorate the side effects of chemotherapy are urgently needed.Recently,the nutritional value of citrus fruits has attracted wide attention.Hesperidin and its aglycone hesperetin are the main active components in citrus fruits.Hesperidin and hesperetin have a wide range of pharmacological activities,including antioxidant and anti-inflammatory properties.This review aims to provide insights into the potential application of citrus flavonoids in CIT and summarize the underlying mechanisms of hesperidin and hesperetin in alleviating CIT.We have collected and collated relevant scientific articles on hesperidin and hesperetin and their treatment of CIT from different scientific databases.Hesperidin and its glycosides can reduce the toxicity of chemotherapeutic drugs,and their therapeutic effects are mainly through anti-inflammatory and antioxidant effects.At present,modern medical treatment is the main treatment method for CIT,but hesperidin,as an extract of food and medicinal materials,can greatly alleviate CIT.While killing tumor cells,chemotherapeutic drugs also damage normal cells leading to toxic effect on various organs.The pathological mechanism of CIT has not been fully elucidated,but current evidences indicate that cellular stress plays a key role.The citrus flavonoids hesperidin and hesperetin have the protective effect against CIT,highlighting its potential as an adjuvant in chemotherapy regimens.Hesperidin may also have synergistic anti-tumor activity with chemotherapeutic agents.We believe that more functional foods and anti-CIT drugs based on natural foods will be developed.展开更多
文摘This study reviews the hepatotoxic chemicals,mechanisms of toxicity,and detoxification methods of Toosendan Fructus(TF).Limonin-type triterpenoids,as primary hepatotoxic components,mediate toxicity though inflammation,oxidative stress,mitochondrial dysfunction,ferroptosis,and apoptosis.Hepatotoxicity can be mitigated by controlling dosage,using processed forms of the herbs,and through rational herbal compatibility.The review provides insights for enhancing the safety and clinical application of TF.
文摘To evaluate the subchronic and chronic toxicity of Fuyanxiao capsules,Sprague-Dawley(SD)rats were used in toxicity studies.In the subchronic toxicity study,50 female rats were randomly divided into a high-dose group(5.4g/kg/day)and a control group,with 15 rats in each,and medium(2.7g/kg/day)and low(1.35g/kg/day)dose groups,with 10 rats in each.The test substance was administered orally(mixed with feed,twice daily)for 90 consecutive days.In the chronic toxicity study,40 female rats were randomly divided into high,medium,and low dose groups and a control group,with 10 rats in each.The test substance was administered orally in the same manner for 180 consecutive days.Clinical signs,body weight,and food consumption were observed and recorded daily.At the end of the terminal phase(the first 10 rats from each group,1 day after the last dose)and the recovery phase(the last 5 rats from the control group and the high-dose group,observed for an additional 28 days after the last dose),blood and urine samples,as well as organs,were collected.Organ coefficients were calculated,and various hematological and urinary indicators were detected,followed by pathological analysis.The results showed that there were no significant differences in body weight,food consumption,or organ coefficients between any of the dose groups and the control group in both subchronic and chronic toxicity studies(P>0.05).Histopathological examination revealed no lesions,suggesting no tissue or organ damage in any of the dose groups.The rats exhibited good mental status,and hematological and urinary physiological indicators were within normal ranges,indicating stable liver and kidney function,hematopoietic system of the bone marrow,and internal environment in all dose groups.Therefore,Fuyanxiao capsule has no obvious subchronic or chronic toxicity in SD rats,and it is safe and reliable to use at reasonable dosage in clinical practice.
基金Supported by the Central Public-interest Scientific Institution Basal Research Fund,CAFS(2025XT0902)the earmarked fund for China Agriculture Research System(CARS-46).
文摘This study attempted to assess the lethal concentration(96-h LC_(50))effects of imidacloprid(neonicotinoid pesticide),thiamethoxam(neonicotinoid pesticide),and their combination on juvenile Zebrafish(Danio rerio).Each set of trials contained a control(de-chlorinated tap water),and the experiments were repeated three times.The fish(n=10)were randomly measured with an average length of(3.4±0.34)cm and weight of(1±0.1)g.The temperature was kept at 24℃.Experiments 1 and 2 were designed to investigate at the acute toxicity of imidacloprid and thiamethoxam on juvenile zebrafish(Danio rerio)respectively,whereas experiment 3 was aimed at the combined toxicity of IMI and THM on zebrafish.The tests followed the same study design,and each experiment used seven different logarithmic concentrations of imidacloprid insecticides(310.00,317.08,324.33,331.74,339.32,347.07,355.00 mg/L)and thiamethoxam(175.00,185.52,200.93,215.30,230.70,247.20,264.88 mg/L).The results show that THM is more toxic than IMI,with LC_(50)values of 190.34 mg/L for THM and 310.92 mg/L for IMI.Both individual toxicities showed a substantial positive connection(P<0.05)with confidence limits of 321.50-300.68 mg/L for IMI and 199.91-181.21 mg/L for THM.The joint toxicity test was carried out using the 96-h LC_(50)values of imidacloprid and thiamethoxam obtained in the individual acute toxicity trials at a 1:1 ratio.The Additive Index(AI)demonstrated that imidacloprid and thiamethoxam acted synergistically on D.rerio.As a matter of fact,more research is needed to better understand the impact of IMI and THM on other aquatic organisms and also create strategies to mitigate its harmful effects on aquatic life.
基金supported by the Leading Goose R&D Program of Zhejiang(No.2024C03230)the Fundamental Research Funds for the Central Universities。
文摘The zebrafish has emerged as a powerful model organism in life science owing to its remarkable biological characteristics and wide-ranging applications.This review provides a comprehensive overview of the recent advancements in research on zebrafish within the field of environmental toxicology,highlighting specific studies where this species was used to investigate various pollutants to elucidate their impacts and underlying mechanisms.The findings of these studies underscore the significant potential of zebrafish as a model to gain crucial insights into the ecological consequences of environmental contamination and toxicity pathways.By incorporating cutting-edge technologies such as artificial intelligence(Al),high-throughput screening,and omics approaches,the use of zebrafish as a model organism is poised to significantly accelerate toxicological investigations,promote environmental conservation efforts,contribute to safeguarding human health,and advance sustainable development objectives.
基金supported by the National Natural Science Foundation of China(Nos.42077299,and U21A20290)the Strategic Priority Research Program of the Chinese Academy of Sciences(No.XDB0750400)the Ordos Key Research and Development Program(No.YF20240037).
文摘Persistent toxic substances(PTS)represent a paramount environmental issue in the 21st century.Understanding the concentrations and forms of PTS in the environment is crucial for accurately assessing their environmental health impacts.This article presents a concise overview of the components of PTS,pertinent environmental regulations,and conventional detection methodologies.Additionally,we offer an in-depth review of the principles,development,and practical applications of surface-enhanced Raman scattering(SERS)in environmental monitoring,emphasizing the advancements in detecting trace amounts of PTS in complex environmental matrices.Recent progress in enhancing SERS sensitivity,improving selectivity,and practical implementations are detailed,showcasing innovative materials and methods.Integrating SERS with advanced algorithms are highlighted as pivotal areas for future research.
基金supported by the Guangdong Provincial Key Area Research and Development Program[grant number 2022B0202090002]China Postdoctoral Science Foundation[grant number 2024M760977].
文摘Background Hexafluoropropylene oxide dimer acid(GenX),a substitute for per-and polyfluoroalkyl substances,has been widely detected in various environmental matrices and foods recently,attracting great attention.However,a systematic characterization of its reproductive toxicity is still missing.This study aims to explore the male reproductive toxicity caused by GenX exposure and the potential cellular and molecular regulatory mechanisms behind it.Results Normally developing mice were exposed to GenX,and testicular tissue was subsequently analyzed and validated using single-cell RNA sequencing.Our results revealed that GenX induced severe testicular damage,disrupted the balance between undifferentiated and differentiated spermatogonial stem cells,and led to strong variation in the cellular dynamics of spermatogenesis.Furthermore,GenX exposure caused global upregulation of testicular somatic cellular inflammatory responses,increased abnormal macrophage differentiation,and attenuated fibroblast adhesion,disorganizing the somatic-germline interactions.Conclusions In conclusion,this study revealed complex cellular dynamics and transcriptome changes in mouse testis after GenX exposure,providing a valuable resource for understanding its reproductive toxicity.
基金Supported by the Chongqing Medical University Program for Youth Innovation in Future Medicine,No.W0019Chongqing Municipal Education Commission’s 14th Five-Year Key Discipline Support Project,No.20240101 and No.20240102。
文摘BACKGROUND Return to work(RTW)serves as an indication for young and middle-aged colorectal cancer(CRC)survivors to resume their normal social lives.However,these survivors encounter significant challenges during their RTW process.Hence,scientific research is necessary to explore the barriers and facilitating factors of returning to work for young and middle-aged CRC survivors.AIM To examine the current RTW status among young and middle-aged CRC survivors and to analyze the impact of RTW self-efficacy(RTW-SE),fear of progression(FoP),eHealth literacy(eHL),family resilience(FR),and financial toxicity(FT)on their RTW outcomes.METHODS A cross-sectional investigation was adopted in this study.From September 2022 to February 2023,a total of 209 participants were recruited through a convenience sampling method from the gastrointestinal surgery department of a class A tertiary hospital in Chongqing.The investigation utilized a general information questionnaire alongside scales assessing RTW-SE,FoP,eHL,FR,and FT.To analyze the factors that influence RTW outcomes among young and middle-aged CRC survivors,Cox regression modeling and Kaplan-Meier survival analysis were used.RESULTS A total of 43.54%of the participants successfully returned to work,with an average RTW time of 100 days.Cox regression univariate analysis revealed that RTW-SE,FoP,eHL,FR,and FT were significantly different between the non-RTW and RTW groups(P<0.05).Furthermore,Cox regression multivariate analysis identified per capita family monthly income,job type,RTW-SE,and FR as independent influencing factors for RTW(P<0.05).CONCLUSION The RTW rate requires further improvement.Elevated levels of RTW-SE and FR were found to significantly increase RTW among young and middle-aged CRC survivors.Health professionals should focus on modifiable factors,such as RTW-SE and FR,to design targeted RTW support programs,thereby facilitating their timely reintegration into mainstream society.
文摘Developmental and reproductive toxicity(DART)endpoint entails a toxicological assessment of all developmental stages and reproductive cycles of an organism.In silico tools to predict DART will provide a method to assess this complex toxicity endpoint and will be valuable for screening emerging pollutants as well as for m anaging new chemicals in China.Currently,there are few published DART prediction models in China,but many related research and development projects are in progress.In 2013,WU et al.published an expert rule-based DART decision tree(DT).This DT relies on known chemical structures linked to DART to forecast DART potential of a given chemical.Within this procedure,an accurate DART data interpretation is the foundation of building and expanding the DT.This paper excerpted case studies demonstrating DART data curation and interpretation of four chemicals(including 8-hydroxyquinoline,3,5,6-trichloro-2-pyridinol,thiacloprid,and imidacloprid)to expand the existing DART DT.Chemicals were first selected from the database of Solid Waste and Chemicals Management Center,Ministry of Ecology and Environment(MEESCC)in China.The structures of these 4 chemicals were analyzed and preliminarily grouped by chemists based on core structural features,functional groups,receptor binding property,metabolism,and possible mode of actions.Then,the DART conclusion was derived by collecting chemical information,searching,integrating,and interpreting DART data by the toxicologists.Finally,these chemicals were classified into either an existing category or a new category via integrating their chemical features,DART conclusions,and biological properties.The results showed that 8-hydroxyquinoline impacted estrous cyclicity,s exual organ weights,and embryonal development,and 3,5,6-trichloro-2-pyridinol caused central nervous system(CNS)malformations,which were added to an existing subcategory 8e(aromatic compounds with multi-halogen and nitro groups)of the DT.Thiacloprid caused dystocia and fetal skeletal malformation,and imidacloprid disrupted the endocrine system and male fertility.They both contain 2-chloro-5-methylpyridine substituted imidazolidine c yclic ring,which were expected to create a new category of neonicotinoids.The current work delineates a t ransparent process of curating toxicological data for the purpose of DART data interpretation.In the presence of sufficient related structures and DART data,the DT can be expanded by iteratively adding chemicals within the a pplicable domain of each category or subcategory.This DT can potentially serve as a tool for screening emerging pollutants and assessing new chemicals in China.
文摘The herbal drink “Attoté” has been widely used in the Abidjan district to treat a number of illnesses, notably erectile dysfunction. Despite the popularity of its therapeutic effects, very few studies have been carried out on its effects on the health of users. The aim of this study was to identify the constituents contained in the phytomedicinal product and to assess their potential adverse effects in vivo. Phytochemical screening was conducted to identify the bioactive molecules in “Attoté” and to evaluate its hepatic effects in vivo. Forty (40) Wistar rats, randomly divided into 4 groups, with 10 animals per group (5 males and 5 females) were used to study potential hepatotoxic effects. Group 1 animals (control group) received distilled water. Batches I, II and III received by gavage a volume of Attoté extract corresponding to 1 ml/100 g body weight at 200 mg/kg, 400 mg/kg and 800 mg/kg, respectively. Attoté extract was administered daily at the same time for 28 days, and serum was collected every two weeks to assess hepatic biochemical markers by spectrophotometry using a Cobas C311® HITACHI biochemistry system. After one month of study, the rats were euthanized by ether overdose and the livers were harvested for morphological and histopathological analysis. Phytochemical screening revealed the presence of alkaloids, polyphenols, leucoanthocyanes, anthraquinones and quinones. Hepatic biochemical and hematological parameters such as red globular, hemoglobin, alanine aminotransferase (ALAT), aspartate aminotransferase (ASAT), alkaline phosphatase (ALPs) and gamma glutamyl transferase (GGT) showed no significant change (p > 0.05) in the treated rat group compared with controls. However, these variations were moderate and transient, with values remaining almost within their standard limits. Microscopic observations of liver tissue sections from treated rats showed no liver damage or dysfunction. This study merits further investigation, with a view to gaining a better understanding of the cytotoxic mechanisms of herbal medicinal beverages, with a view to their reformulation as improved traditional medicines (ITMs).
基金funded by the Directorate General of Higher Education(DRPM),Ministry of Education,Culture,Research,and Technology of Indonesia,under the auspices of the Research Grant Scheme 2024.
文摘This study investigated the eco-biocontrol potential of indigenous isolates obtained from agricultural soils in WarboVillage, Papua, Indonesia, targeting the highly destructive fall armyworm (Spodoptera frugiperda) in corn agroecosystems.A total of 58 bacterial colonies were isolated, of which 18 were morphologically confirmed as Bacillus thuringiensis basedon endospore and parasporal crystal protein characteristics. These isolates were cultured in Tryptose Phosphate Broth andtested for larvicidal activity against second-instar larvae under controlled conditions. Toxicity tests revealed that isolate 18exhibited the highest efficacy, causing 100% larval mortality, followed by isolates 12 and 13 with 93.3%, confirming astrong entomopathogenic potential. The most toxic isolates were further verified by the presence of cry1F and cry2Aagenes through PCR analysis, indicating the molecular basis of their virulence. The innovation of this research lies in thecombination of morphological, toxicological, and molecular characterizations of locally adapted Bacillus thuringiensisstrains, which offers a sustainable, environmentally friendly alternative to chemical pesticides. These findings provide ascientific foundation for developing region-specific bioinsecticides, reducing dependence on synthetic inputs, and supportingsustainable pest management strategies in tropical corn production systems.
基金This work was supported by the Focused Research Effort on Chemicals in the Working Environment(FFIKA)from the Danish Government.
文摘Background:Inhalation exposure is the gold standard when assessing pulmonary tox-icity.However,it typically requires substantial amounts of test material.Intratracheal instillation is an alternative administration technique,where the test substance is suspended in a liquid vehicle and deposited into the lung via the trachea.Instillation requires minimal test material,delivers an exact dose deep into the lung,and is less labor-intensive than inhalation exposures.However,one shortcoming is that the pro-cedure may induce short-term inflammation.To minimize this,we tested different modifications of the technique to identify the potential for refinement.Methods:First,we tested whether previous findings of increased inflammation could be confirmed.Next,we tested whether instillation with a disposable 1 mL syringe with ball-tipped steel-needle(Disposable-syringe/steel-needle)induced less inflammation than the use of our standard set-up,a 250μL reusable glass syringe with a disposable plastic catheter(Glass-syringe/plastic-catheter).Finally,we tested if access to pelleted and liquid feed prior to instillation affected inflammation.We evaluated inflammation by neutrophil numbers in bronchoalveolar fluid 24 h post-exposure.Results:Vehicle-instilled mice showed a small increase in neutrophil numbers com-pared to untreated mice.Neutrophil numbers were slightly elevated in the groups in-stilled with Disposable-syringe/steel-needle;an interaction with feed type indicated that the increase in neutrophils was more pronounced in combination with feed pel-lets compared to liquid feed.We found no difference between the feed types when using the Glass-syringe/plastic-catheter combination.Conclusion:The Glass-syringe/plastic-catheter combination induced the least exposure-related inflammation,confirming this as a preferred instillation procedure.
基金funded by Research Platforms and Projects for Higher Education Institutions of Department of Education of Guangdong Province in 2024(2024KTSCX256)2023 Guangdong Province Higher Vocational Education Teaching Quality and Teaching Reform Project(2023JG080).
文摘The potential toxicity of ionic liquids(ILs)affects their applications;how to control the toxicity is one of the key issues in their applications.To understand its toxicity structure relationship and promote its greener application,six different machine learning algorithms,including Bagging,Adaptive Boosting(AdaBoost),Gradient Boosting(GBoost),Stacking,Voting and Categorical Boosting(CatBoost),are established to model the toxicity of ILs on four distinct datasets including Leukemia rat cell line IPC-81(IPC-81),Acetylcholinesterase(AChE),Escherichia coli(E.coli)and Vibrio fischeri.Molecular descriptors obtained from the simplified molecular input line entry system(SMILES)are used to characterize ILs.All models are assessed by the mean square error(MSE),root mean square error(RMSE),mean absolute error(MAE)and correlation coefficient(R^(2)).Additionally,an interpretation model based on SHapley Additive exPlanations(SHAP)is built to determine the positive and negative effects of each molecular feature on toxicity.With additional parameters and complexity,the Catboost model outperforms the other models,making it a more reliable model for ILs'toxicity prediction.The results of the model's interpretation indicate that the most significant positive features,SMR_VSA5,PEOE_VSA8,Kappa2,PEOE_VSA6,SMR_VSA5,PEOE_VSA6 and EState_VSA1,can increase the toxicity of ILs as their levels rise,while the most significant negative features,VSA_EState7,EState_VSA8,PEOE_VSA9 and FpDensityMorgan1,can decrease the toxicity as their levels rise.Also,an IL's toxicity will grow as its average molecular weight and number of pyridine rings increase,whereas its toxicity will decrease as its hydrogen bond acceptors increase.This finding offers a theoretical foundation for rapid screening and synthesis of environmentally-benign ILs.
基金supported by the National Natural Science Foundation of China(No.42030706).
文摘Excessive concentrations of toxic metals are a global threat to aquatic systems.Taking a typical tributary(Zijiang River,ZR)of the midstream of the Yangtze River as the research area,the concentration distribution and chemical fractions occurrence characteristics of five toxic metals(Cd,Cr,Cu,Pb,and Zn)were analyzed,their potential sources were explored,and their contamination and ecological risk was assessed.In the surface waters and sediments,there were high concentrations of Zn,a low concentration of Cd,and small spatial differences in concentration among the upstream,midstream,and downstream.In terms of speciation,Cd mainly existed in the acid-soluble fraction,Pb mainly existed in the reducible fraction,and Cr,Cu,and Zn mainly existed in the residue fraction.The potential sources in surface waters and sediments were determined to be industrial emissions and agricultural non-point sources through the absolute principal component scores–multiple linear regression model(APCS–MLR).Based on the assessment results of total concentration and speciation,Cd was the typical contamination element in ZR sediments.In addition,the secondary phase enrichment factor(SPEF)based on speciation underestimates the degree of Pb contamination,and the ecological risk of Zn assessed by the ratio of secondary phase and primary phase(RSP)and the risk assessment code(RAC)was higher than that of Cr,which was inconsistent with the results based on total concentrations.SOM and Al/Fe/Mn cycles in sediments influenced the geochemical behavior of toxic metals.
基金supported by the BASF Open Innovative Platform(Project OI39).
文摘Phytophthora infestans control is a long-standing problem that has caused ongoing difficulties and brought limited success for over a century.Traditional methods,such as fungicides,have drawbacks including high cost,restrictions on organic farming,potential risks to the environment and human health,and the development of resistant strains.In this study,we employed cutting-edge computer-based techniques,including Quantitative Structure-Activity Relationship(QSAR)modeling and molecular docking simulations,to uncover new fungicidal compounds and gain insights into their specific mechanisms of action against P.infestans.QSAR modeling on the number of compounds tested as P.infestans inhibitors was performed using an interactive OCHEM web platform.The predictive ability of the developed classification models had a balanced accuracy(BA)of 77–85%for the training set and BA?89–93%for the validation external test set.During the in vitro testing against P.infestans,thirteen synthesized 2-oxoimidazolidine-4-sulfonamides demonstrated inhibition rates,ranging from 23.6%to 87.4%.The fungicidal potential of six of these fungicides ranged from 79.3%to 87.4%,which is comparable to the activity of known fungicides.Acute toxicity results using the well-known aquatic marker Daphnia magna showed that the most active sulfonamides 3d,3f,3h,3j,3k,and 3l,with LC_(50) values ranging from 13.7 to 52.9 mg/L,are low-toxicity compounds.The molecular docking results demonstrated a potential mechanism of the antifungal action of the studied 2-oxoimidazolidin-4-sulfonamide derivatives via the inhibition of fungal CYP51,a sterol biosynthesis enzyme.
文摘Annona squamosa Linn.fruit is famous for its nutritional value with a long history of medicinal benefits due to the presence of many phytochemicals,including alkaloids,diterpenes,essential oil,phytopeptides,etc.Several studies envisaged that Annona squamosa possesses cytotoxic,diuretic,antiurolithiatic,antitumor,anti-psoriatic,antioxidant,and hepatoprotective properties.This plant is traditionally used for the treatment of wound infection,dysentery,seizure,tumors,fever,vomiting,parasitic infections,hypertension,thyroid,toothache,acne,heart disease,inflammation,diabetes,hair loss,dandruff,hemorrhage,maggot-infected sores,abortifacient,and cough.However,some chemical constituents isolated from the plant have shown specific toxic effects in human and animal models,such as acute oral toxic effects,genotoxic,neurotoxic,and ocular toxic.The plant has diverse pharmacological actions,the seeds of this plant possess a genotoxic effect but on the contrary,the bark of the plant shows genoprotective activity.A large number of ethnobotanical studies reported the seed of this plant is used to induce abortion in humans,but a scientific study carried out in pregnant rats reported aqueous seed extract of the plant did not interfere with reproductive performance.The presented review summarized the traditional uses,pharmacological,and toxicological activities of the isolated compounds from this plant.Additionally,some patents and commercial products related to Annona squamosa are also brought up in this article to explore its application which would attract the scientific community to search out its hidden side.
基金supported by the National Natural Science Foundation of China(Nos.21976045 and 22076112)China Scholarship Council(CSC)Scholarship(Nos.202208610125 and 202308610123)+1 种基金Shaanxi Key Laboratory of Environmental Monitoring and Forewarning of Trace Pollutants(No.SHJKFJJ202318)the Key Research and Development Program of Shaanxi Province(No.2024SF-YBXM-567).
文摘Acid-base dissociable antibiotic-metal complexes are known to be emerging contaminants in the aquatic environments.However,little information is available on the photochemical properties and toxicity of these complex forms.This study investigated the spectral properties of three fluoroquinolones(FQs)with and without metal ions Fe(III),Cu(II),and Al(III)in solutions under different pH conditions,as well as evaluated the changes in toxicity due to the complex with thesemetal ions using luminescent bacteria(vibrio fischeri).FQs showed a higher tendency to coordinate metal ions under alkaline conditions compared to neutral and acidic conditions,and the formation of complexes weakened the ultravioletabsorbing ability of FQs.At pH=7.0,Cu(II)quenched the fluorescence intensity of FQs.Moreover,their Fourier-transform infrared spectroscopy and X-ray photoelectron spectroscopy were explored,revealing that the coordination sites of Cu(II)in three FQs were situated in a bidentate manner through the oxygen atom of the deprotonated carboxyl group and cyclic carbonyl oxygen atom.This conclusion was further verified by the theory of molecular surface electrostatic potential.In addition,except for complexes of ciprofloxacin-metals,enhanced toxicity of FQs upon coordination with Fe(III)was observed,while reduced toxicity was found for coordination with Cu(II)and Al(III).These results are important for accurately evaluating the photochemical behavior and risk of these antibiotics in aquatic environments contaminated with metal ions.
基金supported by the National Key Research and Development Program of China(No.2020YFC1808204)the National Natural Science Foundation of China(Nos.22206001 and U22A20406)the Scientific Research Foundation of Education Department of Anhui Province of China(No.KJ2021A0074).
文摘Nanoplastics are emerging contaminants that may co-exist with organochlorine pesticides and adversely affect invertebrates in the environment.However,the impact of environmental aging on the combined toxicity of nanoplastics and organochlorine pesticides remains unclear.This study investigated the effects of aging on the combined toxicity of polystyrene nanoplastics(PS NPs)and chlordane against Caenorhabditis elegans.The results showed that photo-aging altered the physicochemical properties of PS NPs and promoted the combined toxicity of PS NPs and chlordane to nematodes by reducing survival rate,body length and enhancing germline apoptosis.Additionally,combined exposure of nematodes to aged PS NPs and chlordane significantly increased reactive oxygen species production and intestinal permeability,suggesting that aging enhances combined toxicity through oxidative stress and intestinal damage.Moreover,aging increased chlordane contents in nematodes without promoting PS NPs accumulation,potentially leading to increased combined toxicity of PS NPs and chlordane.Notably,aging significantly increased the accumulation of PS NPs in the posterior intestine of the nematode during co-exposure,which may be responsible for the most sensitive and highest degree of change in germline apoptosis.These observations emphasize the significance of accounting for environmental aging as well as the accumulation and distribution of nanoplastics in organisms when assessing the combined effects of nanoplastics and coexisting pollutants.
基金supported by the National Natural Science Foundation of China(Nos.42207450,42067056,and 21866017)the Yunnan Fundamental Research Projects(No.202101BE070001-013)the Foundation for Distinguished Young Talents of Yunnan Province(No.202101AV070006).
文摘Dissolved black carbon(DBC)plays a crucial role in the migration and bioavailability of iron in water.However,the properties of DBC releasing under diverse pyrolysis conditions and dissolving processes have not been systematically studied.Here,the compositions of DBC released from biochar through redox processes dominated by bacteria and light were thoroughly studied.It was found that the DBC released from straw biochar possess more oxygen-containing functional groups and aromatic substances.The content of phenolic and carboxylic groups in DBC was increased under influence of microorganisms and light,respectively.The concentration of phenolic hydroxyl groups increased from 10.0~57.5 mmol/gC to 6.6~65.2 mmol/gC,and the concentration of carboxyl groups increased from49.7~97.5 mmol/gC to 62.1~113.3 mmol/gC.Then the impacts of DBC on pyrite dissolution andmicroalgae growth were also investigated.The complexing Fe^(3+)was proved to play a predominant role in the dissolution of ferrous mineral in DBC solution.Due to complexing between iron ion and DBC,the amount of dissolved Fe in aquatic water may rise as a result of elevated number of aromatic components with oxygen containing groups and low molecular weight generated under light conditions.Fe-DBC complexations in solution significantly promoted microalga growth,which might be attributed to the stimulating effect of dissolved Fe on the chlorophyll synthesis.The results of study will deepen our understanding of the behavior and ultimate destiny of DBC released into an iron-rich environment under redox conditions.
基金Innovative Team Project of Ordinary Universities in Guangdong Province(No.2022KCXTD016).
文摘Chemotherapy-induced toxicity(CIT)remains a major concern in cancer patients undergoing chemotherapy.New approaches to ameliorate the side effects of chemotherapy are urgently needed.Recently,the nutritional value of citrus fruits has attracted wide attention.Hesperidin and its aglycone hesperetin are the main active components in citrus fruits.Hesperidin and hesperetin have a wide range of pharmacological activities,including antioxidant and anti-inflammatory properties.This review aims to provide insights into the potential application of citrus flavonoids in CIT and summarize the underlying mechanisms of hesperidin and hesperetin in alleviating CIT.We have collected and collated relevant scientific articles on hesperidin and hesperetin and their treatment of CIT from different scientific databases.Hesperidin and its glycosides can reduce the toxicity of chemotherapeutic drugs,and their therapeutic effects are mainly through anti-inflammatory and antioxidant effects.At present,modern medical treatment is the main treatment method for CIT,but hesperidin,as an extract of food and medicinal materials,can greatly alleviate CIT.While killing tumor cells,chemotherapeutic drugs also damage normal cells leading to toxic effect on various organs.The pathological mechanism of CIT has not been fully elucidated,but current evidences indicate that cellular stress plays a key role.The citrus flavonoids hesperidin and hesperetin have the protective effect against CIT,highlighting its potential as an adjuvant in chemotherapy regimens.Hesperidin may also have synergistic anti-tumor activity with chemotherapeutic agents.We believe that more functional foods and anti-CIT drugs based on natural foods will be developed.
