Renal cell carcinoma represents the 16th cause of death by cancer. It is one of the most frequent kidney tumors. This tumor could behave as a good mimicker, and is frequently associated with paraneoplastic syndromes. ...Renal cell carcinoma represents the 16th cause of death by cancer. It is one of the most frequent kidney tumors. This tumor could behave as a good mimicker, and is frequently associated with paraneoplastic syndromes. Metastases to peritoneum, mesentery or omentum are very rare. Sarcomatoid renal cell carcinoma is a high-grade undifferentiated component that can be found in any subtypes of renal cell carcinoma, and is associated with an aggressive behavior and a poor prognosis. We present the case of a 59-year-old male, diabetic patient, with nephron preserved left nephrectomy through lumbotomy seven years ago, upper pole renal carcinoma, admitted to the emergency department with indeterminate shock. He underwent a diagnostic laparoscopy and then open surgery due to findings where a greater omentum subtotal infarction. Omentum microscopic examination resulted in vaguely differentiated neoplasia, with sarcomatoid like cells, highly positive to CD10 inmunolabeling. Even though renal cell carcinomas have unusual clinical presentations, this case is unique because of the convergence of extremely rare manifestations such as the combination of malignant ascites, peritoneal carcinomatosis, and contralateral suprarenal gland metachronous metastases at the major omentum with paraneoplastic syndrome type leukemoid reaction;which have not been reported previously in literature.展开更多
At the start of the new year,Cao Xiucheng,Chairman of Henan No.2 Textile Machinery Co.,Ltd.,was on his way to visit clients when he kept receiving urgent calls from the Xinyang production base regarding order scheduli...At the start of the new year,Cao Xiucheng,Chairman of Henan No.2 Textile Machinery Co.,Ltd.,was on his way to visit clients when he kept receiving urgent calls from the Xinyang production base regarding order scheduling.It turned out that since the end of 2025,the company had successively secured bulk spindle orders from overseas clients in Bangladesh and other countries,coupled with continuous urgent requests for orders from domestic manufacturers.Faced with such a production peak right at the beginning of the year,Mr.Cao Xiucheng admitted,“It was truly unexpected.”展开更多
BACKGROUND Ulcerative colitis(UC)is a chronic and treatment-resistant disorder requiring potent therapeutics that are effective and safe.Cedrol(CE)is a bioactive natural product present in many traditional Chinese med...BACKGROUND Ulcerative colitis(UC)is a chronic and treatment-resistant disorder requiring potent therapeutics that are effective and safe.Cedrol(CE)is a bioactive natural product present in many traditional Chinese medicines.It is known for its suppression of inflammation and mitigation of oxidative stress.Its therapeutic efficacy and mechanistic underpinnings in UC remain uncharacterized.AIM To investigate the therapeutic potential and mechanisms of CE in UC.METHODS The anti-inflammatory activity and intestinal barrier-repairing effects of CE were assessed in a dextran sulfate sodium-induced murine colitis model.Network pharmacology was employed to predict potential targets and pathways.Then molecular docking and dynamics simulations were utilized to confirm a stable interaction between CE and the toll-like receptor 4(TLR4)/myeloid differentiation factor 2(MD2)complex.The anti-inflammatory mechanisms were further verified using in vitro assays.Additionally,the gut microbiota composition was analyzed via 16S rRNA gene sequencing.RESULTS CE significantly alleviated colitis symptoms,mitigated histopathological damage,and suppressed inflammation.Moreover,CE restored intestinal barrier integrity by enhancing mucus secretion and upregulating tight junction proteins(zonula occludens 1,occludin,claudin-1).Mechanistically,CE stably bound to MD2,inhibiting lipopolysaccharide-induced TLR4 signaling in RAW264.7 cells.This led to suppression of the downstream mitogen-activated protein kinase and nuclear factor kappa B signaling pathways,downregulating the expression of tumor necrosis factor-alpha,interleukin-1β,and interleukin-6.Gut microbiota analysis revealed that CE reversed dextran sulfate sodium-induced dysbiosis with significant enrichment of butyrogenic Christensenella minuta.CONCLUSION CE acted on MD2 to suppress proinflammatory cascades,promoting mucosal barrier reconstitution and microbiota remodeling and supporting its therapeutic use in UC.展开更多
Objectives Therapeutic strategies for enhancing bone regeneration and combating osteoporosis remain a significant unmet medical need.This study aims to elucidate Lithospermic acid(LA)’s regulatory effects on osteobla...Objectives Therapeutic strategies for enhancing bone regeneration and combating osteoporosis remain a significant unmet medical need.This study aims to elucidate Lithospermic acid(LA)’s regulatory effects on osteoblast proliferation and differentiation,investigating its viability as a bone-healing agent.Methods This study employed various cellular and molecular biology experiments to assess the effects of LA on the viability,proliferation,cell cycle,apoptosis,differentiation,mineralization,and migration of MC3T3-E1 osteoblasts.Immunofluorescence and Western blot analyses were conducted to detect the expression of proteins related to the Wnt/β-catenin signaling pathway,investigating the regulatory mechanisms by which LA promotes osteoblast proliferation and differentiation.Additionally,Wnt inhibitor dickkopf-1(DKK-1)andβ-catenin-silenced cell models were used to further validate the role of LA in modulating this signaling pathway.Results LA significantly promoted osteoblast proliferation without apparent cytotoxicity.Flow cytometry showed that LA regulated the cell cycle by reducing G0/G1 phase arrest and promoting G2/M phase progression.Western blot results indicated that LA upregulated the expression of proteins associated with cell proliferation and enhanced osteoblast differentiation and mineralization.Immunofluorescence and Western blot analyses further confirmed that LA markedly increased the expression of Wnt andβ-catenin,facilitatingβ-catenin nuclear translocation.Treatment with the DKK-1 inhibitor significantly diminished the proliferative and differentiation-promoting effects of LA,confirming the critical role of this pathway.β-catenin knockdown experiments further substantiated its central role in LA-mediated regulation.Conclusion This study confirms that LA promotes osteoblast proliferation,differentiation,mineralization,and migration by activating the Wnt/β-catenin signaling pathway.展开更多
Objectives Dysregulated osteoclast function contributes to skeletal diseases.However,the specific ubiquitination regulators of the osteoclastogenesis repressor MafB,particularly at the post-translational level,remain ...Objectives Dysregulated osteoclast function contributes to skeletal diseases.However,the specific ubiquitination regulators of the osteoclastogenesis repressor MafB,particularly at the post-translational level,remain undefined.This study aims to identify ubiquitin-specific proteases(USPs)that deubiquitinate MafB and enhance its stability.Methods We constructed a MafB-conjugated luciferase and overexpressed 40 individual USPs,measuring changes in luciferase activity.The identified USP was overexpressed in human CD14^(+) peripheral blood mononuclear cells(PBMCs)to evaluate its effect.Osteoclast differentiation was assessed through osteoclast marker Integrin alpha-V(CD51)staining and Western blot analysis.Co-immunoprecipitation(co-IP)was performed to assess the interplay.The influence on MafB ubiquitination and degradation was evaluated via immunoprecipitation and Western blot.Finally,MafB was knocked down in the USP-overexpressing PBMCs to analyze its effect on osteoclast differentiation.Results Overexpression of ubiquitin-specific protease 29(USP29)significantly increased MafB expression by approximately 75%(p<0.0001).Elevated USP29 levels strongly inhibited osteoclastic differentiation in CD14^(+) PBMCs(p<0.0001).USP29 was found to interact with MafB,markedly reducing its ubiquitination and subsequent degradation in PBMCs(p<0.001).Knocking down MafB in USP29-overexpressing PBMCs alleviated the inhibitory effect of USP29 on osteoclastogenesis.Conclusion USP29 acts as a potent stabilizer of MafB,inhibiting osteoclastogenesis in human CD14^(+) PBMCs,at least in part,by enhancing MafB stability.These findings expand our understanding of USP29’s role and the post-translational regulation of MafB.Furthermore,USP29 serves as a vital factor that controls osteoclast differentiation,and its regulatory function is at least partially mediated by deubiquitinating and stabilizing MafB.展开更多
Objectives The discovery of novel molecular targets to enhance the osteogenesis of human bone marrow-derived mesenchymal stem cells(H-BMSCs)represents a promising strategy for preventing and treating osteoporosis.Thus...Objectives The discovery of novel molecular targets to enhance the osteogenesis of human bone marrow-derived mesenchymal stem cells(H-BMSCs)represents a promising strategy for preventing and treating osteoporosis.Thus,the primary objective of this study is to elucidate the mechanisms by which long non-coding RNA FOXD2-AS1(lncRNA FOXD2-AS1)regulates early osteogenic differentiation in H-BMSCs,thereby identifying potential therapeutic targets.Methods Lentivirus-mediated vectors were constructed to either overexpress or silence FOXD2-AS1 in H-BMSCs.The effects of FOXD2-AS1 on osteogenesis were subsequently assessed by analyzing osteogenic marker expression and alkaline phosphatase(ALP)staining.To clarify the role of the Janus kinase 2/signal transducer and activator of transcription 3(JAK2/STAT3)pathway in this process,AG490 inhibitor(a JAK2/STAT3 pathway inhibitor)and knockdown of STAT3 were used to investigate the mechanisms of FOXD2-AS1.Results FOXD2-AS1 overexpression increased ALP activity and osteogenic marker expression,while its knockdown had the opposite effects.From a mechanistic perspective,FOXD2-AS1 overexpression promoted JAK2 and STAT3 phosphorylation,whereas its suppression attenuated their activation.Also,the osteogenic increase induced by FOXD2-AS1 overexpression was reversed by AG490 treatment or STAT3 silencing,indicating that the pathway plays a role in this process.Conclusion FOXD2-AS1 was identified as a novel genetic switch driving osteogenic commitment via JAK2/STAT3 activation,revealing a new regulatory mechanism and a potential therapeutic target for osteoporosis.展开更多
The delicate balance between bone formation by osteoblasts and bone resorption by osteoclasts maintains bone homeostasis.Nuclear receptors(NRs)are now understood to be crucial in bone physiology and pathology.However,...The delicate balance between bone formation by osteoblasts and bone resorption by osteoclasts maintains bone homeostasis.Nuclear receptors(NRs)are now understood to be crucial in bone physiology and pathology.However,the function of the Farnesoid X receptor(FXR),a member of the NR family,in regulating bone homeostasis remains incompletely understood.In this study,in vitro and in vivo models revealed delayed bone development and an osteoporosis phenotype in mice lacking FXR in bone marrow mesenchymal stem cells(BMSCs)and osteoblasts due to impaired osteoblast differentiation.Mechanistically,FXR could stabilize RUNX2 by inhibiting Thoc6-mediated ubiquitination,thereby promoting osteogenic activity in BMSCs.Moreover,activated FXR could directly bind to the Thoc6 promoter,suppressing its expression.The interaction between RUNX2 and Thoc6 was mediated by the Runt domain of RUNX2 and the WD repeat of Thoc6.Additionally,Obeticholic acid(OCA),an orally available FXR agonist,could ameliorate bone loss in an ovariectomy(OVX)-induced osteoporotic mouse model.Taken together,our findings suggest that FXR plays pivotal roles in osteoblast differentiation by regulating RUNX2 stability and that targeting FXR may be a promising therapeutic approach for osteoporosis.展开更多
The rare earth elements(REEs)extraction by chemical leaching from ion-adsorption type rare earth ores(IAREO)has led to serious ecological and environmental risks.Conversely,demand for bioleaching is on the rise with t...The rare earth elements(REEs)extraction by chemical leaching from ion-adsorption type rare earth ores(IAREO)has led to serious ecological and environmental risks.Conversely,demand for bioleaching is on the rise with the advantage of being environmental-friendly.As one of the organic acids produced by biological metabolism,citric acid was used to leach REEs and explore the performance and process.The results demonstrate that citric acid exhibits higher leaching efficiency(96.00%)for REEs at a relatively low concentration of 0.01 mol/L compared with(NH_(4))_(2)SO_(4)(84.29%,0.1 mol/L)and MgSO_(4)(83.99%,0.1 mol/L).Citric acid shows a preference for leaching heavy rare earth elements,with 99%leaching efficiency in IAREO,which shows higher capacity than(NH_(4))_(2)SO_(4)and MgSO_(4)(as inorganic leaching agents).Kinetic analysis indicates that the leaching process of REEs with citric acid is controlled by both the internal diffusion kinetics and chemical reaction kinetics,which is different from inorganic leaching agents.Visual Minteq calculations confirm that RE-Citrate is the main constituent of the extract solution in the leaching process of the IAREO,thereby enhancing the leaching efficiency of REEs from the IAREO.It suggests that citric acid may be used as a promising organic leaching agent for the environmentalfriendly extraction of REEs from IAREO.展开更多
Neural EGFL-like 2(NELL2)is a secreted protein known for its regulatory functions in the nervous and reproductive systems,yet its role in bone biology remains unexplored.In this study,we observed that NELL2 was dimini...Neural EGFL-like 2(NELL2)is a secreted protein known for its regulatory functions in the nervous and reproductive systems,yet its role in bone biology remains unexplored.In this study,we observed that NELL2 was diminished in the bone of aged and ovariectomized(OVX)mice,as well as in the serum of osteopenia and osteoporosis patients.In vitro loss-of-function and gain-offunction studies revealed that NELL2 facilitated osteoblast differentiation and impeded adipocyte differentiation from stromal progenitor cells.In vivo studies further demonstrated that the deletion of NELL2 in preosteoblasts resulted in decreased cancellous bone mass in mice.Mechanistically,NELL2 interacted with the FNI-type domain located at the C-terminus of Fibronectin 1(Fn1).Moreover,we found that NELL2 activated the focal adhesion kinase(FAK)/AKT signaling pathway through Fn1/integrinβ1(ITGB1),leading to the promotion of osteogenesis and the inhibition of adipogenesis.Notably,administration of NELL2-AAV was found to ameliorate bone loss in OVX mice.These findings underscore the significant role of NELL2 in osteoblast differentiation and bone homeostasis,suggesting its potential as a therapeutic target for managing osteoporosis.展开更多
Magnolol,a compound extracted from Magnolia officinalis,demonstrates potential efficacy in addressing metabolic dysfunction and cardiovascular diseases.Its biological activities encompass anti-inflammatory,antioxidant...Magnolol,a compound extracted from Magnolia officinalis,demonstrates potential efficacy in addressing metabolic dysfunction and cardiovascular diseases.Its biological activities encompass anti-inflammatory,antioxidant,anticoagulant,and anti-diabetic effects.Growth/differentiation factor-15(GDF-15),a member of the transforming growth factorβsuperfamily,is considered a potential therapeutic target for metabolic disorders.This study investigated the impact of magnolol on GDF-15 production and its underlying mechanism.The research examined the pharmacological effect of magnolol on GDF-15 expression in vitro and in vivo,and determined the involvement of endoplasmic reticulum(ER)stress signaling in this process.Luciferase reporter assays,chromatin immunoprecipitation,and in vitro DNA binding assays were employed to examine the regulation of GDF-15 by activating transcription factor 4(ATF4),CCAAT enhancer binding proteinγ(CEBPG),and CCCTC-binding factor(CTCF).The study also investigated the effect of magnolol and ATF4 on the activity of a putative enhancer located in the intron of the GDF-15 gene,as well as the influence of single nucleotide polymorphisms(SNPs)on magnolol and ATF4-induced transcription activity.Results demonstrated that magnolol triggers GDF-15 production in endothelial cells(ECs),hepatoma cell line G2(HepG2)and hepatoma cell line 3B(Hep3B)cell lines,and primary mouse hepatocytes.The cooperative binding of ATF4 and CEBPG upstream of the GDF-15 gene or the E1944285 enhancer located in the intron led to full-power transcription of the GDF-15 gene.SNP alleles were found to impact the magnolol and ATF4-induced transcription activity of GDF-15.In high-fat diet ApoE^(-/-)mice,administration of magnolol induced GDF-15 production and partially suppressed appetite through GDF-15.These findings suggest that magnolol regulates GDF-15 expression through priming of promoter and enhancer activity,indicating its potential as a drug for the treatment of metabolic disorders.展开更多
Andrographolide sulfonate(AS)is a sulfonated derivative of andrographolide extracted from Andrographis paniculata(Burm.f.)Nees,and has been approved for several decades in China.The present study aimed to investigate ...Andrographolide sulfonate(AS)is a sulfonated derivative of andrographolide extracted from Andrographis paniculata(Burm.f.)Nees,and has been approved for several decades in China.The present study aimed to investigate the novel therapeutic application and possible mechanisms of AS in the treatment of rheumatoid arthritis.Results indicated that administration of AS by injection or gavage significantly reduced the paw swelling,improved body weights,and attenuated pathological changes in joints of rats with adjuvant-induced arthritis.Additionally,the levels of tumor necrosis factor-alpha(TNF-α),interleukin-6(IL-6),and IL-1β in the serum and ankle joints were reduced.Bioinformatics analysis,along with the spleen index and measurements of IL-17 and IL-10 levels,suggested a potential relationship between AS and Th17 cells under arthritic conditions.In vitro,AS was shown to block Th17 cell differentiation,as evidenced by the reduced percentages of CD4^(+)IL-17A^(+)T cells and decreased expression levels of RORγt,IL-17A,IL-17F,IL-21,and IL-22,without affecting the cell viability and apoptosis.This effect was attributed to the limited glycolysis,as indicated by metabolomics analysis,reduced glucose uptake,and p H measurements.Further investigation revealed that AS might bind to hexokinase2(HK2)to down-regulate the protein levels of HK2 but not glyceraldehyde-3-phosphate dehydrogenase(GAPDH)or pyruvate kinase M2(PKM2),and overexpression of HK2 reversed the inhibition of AS on Th17 cell differentiation.Furthermore,AS impaired the activation of phosphatidylinositol 3-kinase(PI3K)/protein kinase B(AKT)signals in vivo and in vitro,which was abolished by the addition of lactate.In conclusion,AS significantly improved adjuvant-induced arthritis(AIA)in rats by inhibiting glycolysis-mediated activation of PI3K/AKT to restrain Th17 cell differentiation.展开更多
Photobiomodulation,originally used red and near-infrared lasers,can alter cellular metabolism.It has been demonstrated that the visible spectrum at 451-540 nm does not necessarily increase cell proliferation,near-infr...Photobiomodulation,originally used red and near-infrared lasers,can alter cellular metabolism.It has been demonstrated that the visible spectrum at 451-540 nm does not necessarily increase cell proliferation,near-infrared light promotes adipose stem cell proliferation and affects adipose stem cell migration,which is necessary for the cells homing to the site of injury.In this in vitro study,we explored the potential of adipose-derived stem cells to differentiate into neurons for future translational regenerative treatments in neurodegenerative disorders and brain injuries.We investigated the effects of various biological and chemical inducers on trans-differentiation and evaluated the impact of photobiomodulation using 825 nm near-infrared and 525 nm green laser light at 5 J/cm2.As adipose-derived stem cells can be used in autologous grafting and photobiomodulation has been shown to have biostimulatory effects.Our findings reveal that adipose-derived stem cells can indeed trans-differentiate into neuronal cells when exposed to inducers,with pre-induced cells exhibiting higher rates of proliferation and trans-differentiation compared with the control group.Interestingly,green laser light stimulation led to notable morphological changes indicative of enhanced trans-differentiation,while near-infrared photobiomodulation notably increased the expression of neuronal markers.Through biochemical analysis and enzyme-linked immunosorbent assays,we observed marked improvements in viability,proliferation,membrane permeability,and mitochondrial membrane potential,as well as increased protein levels of neuron-specific enolase and ciliary neurotrophic factor.Overall,our results demonstrate the efficacy of photobiomodulation in enhancing the trans-differentiation ability of adipose-derived stem cells,offering promising prospects for their use in regenerative medicine for neurodegenerative disorders and brain injuries.展开更多
It has been shown clinically that continuous removal of ischemia/reperfusion-induced reactive oxygen species is not conducive to the recovery of late stroke.Indeed,previous studies have shown that excessive increases ...It has been shown clinically that continuous removal of ischemia/reperfusion-induced reactive oxygen species is not conducive to the recovery of late stroke.Indeed,previous studies have shown that excessive increases in hypochlorous acid after stroke can cause severe damage to brain tissue.Our previous studies have found that a small amount of hypochlorous acid still exists in the later stage of stroke,but its specific role and mechanism are currently unclear.To simulate stroke in vivo,a middle cerebral artery occlusion rat model was established,with an oxygen-glucose deprivation/reoxygenation model established in vitro to mimic stroke.We found that in the early stage(within 24 hours)of ischemic stroke,neutrophils produced a large amount of hypochlorous acid,while in the recovery phase(10 days after stroke),microglia were activated and produced a small amount of hypochlorous acid.Further,in acute stroke in rats,hypochlorous acid production was prevented using a hypochlorous acid scavenger,taurine,or myeloperoxidase inhibitor,4-aminobenzoic acid hydrazide.Our results showed that high levels of hypochlorous acid(200μM)induced neuronal apoptosis after oxygen/glucose deprivation/reoxygenation.However,in the recovery phase of the middle cerebral artery occlusion model,a moderate level of hypochlorous acid promoted the proliferation and differentiation of neural stem cells into neurons and astrocytes.This suggests that hypochlorous acid plays different roles at different phases of cerebral ischemia/reperfusion injury.Lower levels of hypochlorous acid(5 and 100μM)promoted nuclear translocation ofβ-catenin.By transfection of single-site mutation plasmids,we found that hypochlorous acid induced chlorination of theβ-catenin tyrosine 30 residue,which promoted nuclear translocation.Altogether,our study indicates that maintaining low levels of hypochlorous acid plays a key role in the recovery of neurological function.展开更多
Objective Cerebral palsy(CP)is a prevalent neurodevelopmental disorder acquired during the perinatal period,with periventricular white matter injury(PWMI)serving as its primary pathological hallmark.PWMI is characteri...Objective Cerebral palsy(CP)is a prevalent neurodevelopmental disorder acquired during the perinatal period,with periventricular white matter injury(PWMI)serving as its primary pathological hallmark.PWMI is characterized by the loss of oligodendrocytes(OLs)and the disintegration of myelin sheaths,leading to impaired neural connectivity and motor dysfunction.Neural stem cells(NSCs)represent a promising regenerative source for replenishing lost OLs;however,conventional twodimensional(2D)in vitro culture systems lack the three-dimensional(3D)physiological microenvironment.Microfluidic chip technology has emerged as a powerful tool to overcome this limitation by enabling precise spatial and temporal control over 3D microenvironmental conditions,including the establishment of stable concentration gradients of bioactive molecules.Catalpol,an iridoid glycoside derived from traditional medicinal plants,exhibits dual antioxidant and anti-apoptotic properties.Despite its therapeutic potential,the capacity of catalpol to drive NSC differentiation toward OLs under biomimetic 3D conditions,as well as the underlying molecular mechanisms,remains poorly understood.This study aims to develop a microfluidic-based 3D biomimetic platform to systematically investigate the concentration-dependent effects of catalpol on promoting NSCs-to-OLs differentiation and to elucidate the role of the caveolin-1(Cav-1)signaling pathway in this process.Methods We developed a novel multiplexed microfluidic device featuring parallel microchannels with integrated gradient generators capable of establishing and maintaining precise linear concentration gradients(0-3 g/L catalpol)across 3D NSCs cultures.This platform facilitated the continuous perfusion culture of NSC-derived 3D spheroids,mimicking the dynamic in vivo microenvironment.Real-time cell viability was assessed using Calcein-AM/propidium iodide(PI)dual staining,with fluorescence imaging quantifying live/dead cell ratios.Oligodendrocyte differentiation was evaluated through quantitative reverse transcription polymerase chain reaction(qRT-PCR)for MBP and SOX10 gene expression,complemented by immunofluorescence staining to visualize corresponding protein changes.To dissect the molecular mechanism,the Cav-1-specific pharmacological inhibitor methyl‑β‑cyclodextrin(MCD)was employed to perturb the pathway,and its effects on differentiation markers were analyzed.Results Catalpol demonstrated excellent biocompatibility,with cell viability exceeding 96%across the entire tested concentration range(0-3 g/L),confirming its non-cytotoxic nature.At the optimal concentration of 0-3 g/L,catalpol significantly upregulated both MBP and SOX10 expression(P<0.05,P<0.01),indicating robust promotion of oligodendroglial differentiation.Intriguingly,Cav-1 mRNA expression was progressively downregulated during NSC differentiation into OLs.Further inhibition of Cav-1 with MCD further enhanced this effect,leading to a statistically significant increase in OL-specific gene expression(P<0.05,P<0.01),suggesting Cav-1 acts as a negative regulator of OLs differentiation.Conclusion This study established an integrated microfluidic gradient chip-3D NSC spheroid culture system,which combines the advantages of precise chemical gradient control with physiologically relevant 3D cell culture.The findings demonstrate that 3 g/L catalpol effectively suppresses Cav-1 signaling to drive NSC differentiation into functional OLs.This work not only provides novel insights into the Cav-1-dependent mechanisms of myelination but also delivers a scalable technological platform for future research on remyelination therapies,with potential applications in cerebral palsy and other white matter disorders.The platform’s modular design permits adaptation for screening other neurogenic compounds or investigating additional signaling pathways involved in OLs maturation.展开更多
The boundness and compactness of products of multiplication,composition and differentiation on weighted Bergman spaces in the unit ball are studied.We define the differentiation operator on the space of holomorphic fu...The boundness and compactness of products of multiplication,composition and differentiation on weighted Bergman spaces in the unit ball are studied.We define the differentiation operator on the space of holomorphic functions in the unit ball by radial derivative.Then we extend the Sharma's results.展开更多
It is well known that Traditional Chinese Medicine(TCM)has two outstanding academic characteristics:the holistic concept comes from Huang Di Nei Jing,and the syndrome differentiation and treatment comes from Shang Han...It is well known that Traditional Chinese Medicine(TCM)has two outstanding academic characteristics:the holistic concept comes from Huang Di Nei Jing,and the syndrome differentiation and treatment comes from Shang Han Lun.These two characteristics denote the two major academic systems of TCM:one is the medical system of Huang Di Nei Jing,also named syndrome differentiation and treatment system of Zang-Fu organs and meridians,focuses on theoretical exploration,which highlights functional connection and emphasizes philosophical thinking.The treatment in this system is based on physiological functions by taking Zang-Fu organs as the main body,Qi,blood,essence,and body fluid as the auxiliary body,and the meridians and collaterals as the connection channels.The other is the syndrome differentiation and treatment system of the six meridians,which emphasizes clinical practice.It encompasses the idea that the six meridians govern various diseases,emphasizes the disease sites and divisional treatment,and pays attention to the precision and appropriateness of prescription-syndrome differentiation.These two academic systems,with mutual influences and relations,are both the essence and pearl of TCM,nevertheless,there are obvious differences between the two in clinical application,so they should be distinguished.This paper will elaborate on the connection and difference between them,and how to organically combine the two systems for better application in clinical practice of TCM.展开更多
The authors regret to report the following error made in“Spatiotemporal dynamics of neuron differentiation and migration in the developing human spinal cord;52(2025)-101283-1295;Doi:https://doi.org/10.1016/j.jgg.2025...The authors regret to report the following error made in“Spatiotemporal dynamics of neuron differentiation and migration in the developing human spinal cord;52(2025)-101283-1295;Doi:https://doi.org/10.1016/j.jgg.2025.08.004”.In Tables S1 and S2 in the supplementary materials of this paper,some items were written in Chinese.The corresponding pictures and tables were not uploaded in time.展开更多
BACKGROUND Gastric adenocarcinoma with enteroblastic differentiation(GAED)is one of the common subtypes of alpha-foetoprotein(AFP)-producing gastric cancer.GAED frequently results in venous invasion and liver metastas...BACKGROUND Gastric adenocarcinoma with enteroblastic differentiation(GAED)is one of the common subtypes of alpha-foetoprotein(AFP)-producing gastric cancer.GAED frequently results in venous invasion and liver metastasis,the latter being particularly linked to a poor prognosis.So far,the evidence for liver metastases from AFP-producing gastric cancer is only focused on those from gastric hepatoid adenocarcinoma,owing to their imaging similarities with hepatocellular carcinoma.This case report describes the characteristic diagnostic imaging findings of liver metastasis from GAED.CASE SUMMARY A 65-year-old man who had undergone a pyloric gastrectomy for GAED two years ago was found to have a liver tumor in the hepatic segment 7,accompanied by elevated serum AFP levels.Dynamic contrast-enhanced computed tomography revealed the tumor showing peripheral-dominant enhancement in the arterial phase with persistent central enhancement in the delayed phase.Gadoliniumethoxybenzyl-diethylenetriamine penta-acetic acid-enhanced magnetic resonance imaging demonstrated a signal drop in the tumor periphery in chemical shift imaging,along with arterial enhancement.Additionally,rim-like hypointensity surrounding the tumor was observed in the hepatobiliary phase.Postresection examination confirmed the tumor to be a metastasis from GAED.Histopathological examination revealed severe invasion of the tumor into the portal vein and hepatic vein surrounding the tumor,which explained the imaging features.CONCLUSION The imaging features of blood flow alternations resulting from vascular invasion may be crucial to diagnosing liver metastases from GAED.展开更多
BACKGROUND Colon cancer is a major health problem with increasing mortality rates worldwide.AIM To evaluate the ability of Ferula assafoetida(F.assafoetida)to induce differentiation of colon cancer cells to function a...BACKGROUND Colon cancer is a major health problem with increasing mortality rates worldwide.AIM To evaluate the ability of Ferula assafoetida(F.assafoetida)to induce differentiation of colon cancer cells to function as normal cells.METHODS The cytotoxic effect of F.assafoetida was assessed against Caco cells using the(3-(4,5-dimethylthiazol-2-yl)-2,5-diphe nyltetrazoliumbromide thiazolyl assay.Cell cycle analysis and apoptosis were assessed using CytellTM cell system.The total antioxidant(TA),glutathione(GSH),malondialdehyde(MDA)concentrations,and alkaline phosphatase(ALP)activity were also assessed.The c-Jun N-terminal kinases(JNKs)and mitogen-activated protein kinase(MAPK)expressions were evaluated using quantitative real-time polymerase chain reaction.RESULTS There was a significant increase in the cell number treated with F.assafoetida(53.85%±0.03%),and those treated with sodium butyrate(NaBT)(54.6%±0.10%)in sub-G1 phase,compared to the untreated cells(0.78%±0.03%,P<0.001).Apoptosis was significantly increased in the Caco cells treated with F.assafoetida(49.1%±0.14%)compared to those treated with NaBT(27.3%±0.10%,P<0.001),and untreated cells(11.1%±0.02%,P<0.001).DNA degradation was observed in Caco cells treated with F.assafoetida in a dose-dependent manner,where complete degradation occurred at the dose of IC50(342.9μg/mL).F.assafoetida induced a significant increase in the TA concentration and GSH,while a significant decrease in the MDA levels(P<0.001,for all).Also,there was a significant increase in ALP activity in Caco cells(0.53±0.26 U/mL)compared to the control cells(0.05±0.02 U/mL,P=0.045).There was a significant upregulation of JNK and MAPK expression in Caco cells treated with F.assafoetida compared to the controls[2.59±0.01(P<0.001),and 3.62±0.01(P<0.001);respectively].CONCLUSION F.assafoetida is a potentially successful therapeutic and differentiating agent for colon cancer.展开更多
Chorionic gonadotropinα(Cgα)functions as the shared subunit for thyroid-stimulating hormone subunitβ(Tshβ),luteinizing hormone subunitβ(Lhβ),and follicle-stimulating hormone subunitβ(Fshβ).While theseβ-subuni...Chorionic gonadotropinα(Cgα)functions as the shared subunit for thyroid-stimulating hormone subunitβ(Tshβ),luteinizing hormone subunitβ(Lhβ),and follicle-stimulating hormone subunitβ(Fshβ).While theseβ-subunits have been extensively studied using effective gene knockout models in zebrafish,the biological role of Cgαremains elusive.In this study,cgα-deficient zebrafish generated via transcription activator-like effector nucleases(TALENs)exhibited viability but displayed pronounced developmental abnormalities,including growth retardation,hyperpigmentation,reduced thyroxine(T4)levels,and defective anterior swim bladder inflation during juvenile stages.In adults,cgαdeficiency led to disrupted gonadal development,impaired secondary sex characteristics(SSCs),and severely impacted reproductive behavior in both female and male fish.Notably,both testicular and ovarian differentiation were observed in cgα-deficient fish and lhβ^(−/−);fshβ^(−/−)mutants.Gonadal sex differentiation in cgα-deficient zebrafish exhibited a pronounced shift toward testicular fate upon additional disruption of fshβ(cgα^(−/−);fshβ^(−/−)),marked by elevated anti-Müllerian hormone(amh)expression,or following loss of follicle-stimulating hormone receptor(fshr)(cgα^(−/−);fshr^(−/−)).In vitro assays in Chinese hamster ovary(CHO)cells revealed increased cAMP response element(CRE)promoter activity following transfection with constructs encoding Fshr,Fshβ/Fshr,or Cgα/Fshβ/Fshr.Collectively,the phenotypes observed in cgα-deficient fish recapitulate those of thyrotropin-and gonadotropin-disrupted models,highlighting the essential role of Cgαin thyroid and gonadal function.Importantly,these findings uncover the role of Fsh signaling in maintaining proper ovarian differentiation in zebrafish,including Cgα-independent Fshβactivity and the constitutive functionality of Fshr.展开更多
文摘Renal cell carcinoma represents the 16th cause of death by cancer. It is one of the most frequent kidney tumors. This tumor could behave as a good mimicker, and is frequently associated with paraneoplastic syndromes. Metastases to peritoneum, mesentery or omentum are very rare. Sarcomatoid renal cell carcinoma is a high-grade undifferentiated component that can be found in any subtypes of renal cell carcinoma, and is associated with an aggressive behavior and a poor prognosis. We present the case of a 59-year-old male, diabetic patient, with nephron preserved left nephrectomy through lumbotomy seven years ago, upper pole renal carcinoma, admitted to the emergency department with indeterminate shock. He underwent a diagnostic laparoscopy and then open surgery due to findings where a greater omentum subtotal infarction. Omentum microscopic examination resulted in vaguely differentiated neoplasia, with sarcomatoid like cells, highly positive to CD10 inmunolabeling. Even though renal cell carcinomas have unusual clinical presentations, this case is unique because of the convergence of extremely rare manifestations such as the combination of malignant ascites, peritoneal carcinomatosis, and contralateral suprarenal gland metachronous metastases at the major omentum with paraneoplastic syndrome type leukemoid reaction;which have not been reported previously in literature.
文摘At the start of the new year,Cao Xiucheng,Chairman of Henan No.2 Textile Machinery Co.,Ltd.,was on his way to visit clients when he kept receiving urgent calls from the Xinyang production base regarding order scheduling.It turned out that since the end of 2025,the company had successively secured bulk spindle orders from overseas clients in Bangladesh and other countries,coupled with continuous urgent requests for orders from domestic manufacturers.Faced with such a production peak right at the beginning of the year,Mr.Cao Xiucheng admitted,“It was truly unexpected.”
基金Supported by the Provincial Key Cultivation Laboratory for Digestive Disease Research,No.2021SYS13Shanxi Province’s“Si Ge Yi Pi”Science and Technology Driven Medical Innovation Project,No.2021MX03Shanxi Provincial Basic Research Program,No.202403021222423.
文摘BACKGROUND Ulcerative colitis(UC)is a chronic and treatment-resistant disorder requiring potent therapeutics that are effective and safe.Cedrol(CE)is a bioactive natural product present in many traditional Chinese medicines.It is known for its suppression of inflammation and mitigation of oxidative stress.Its therapeutic efficacy and mechanistic underpinnings in UC remain uncharacterized.AIM To investigate the therapeutic potential and mechanisms of CE in UC.METHODS The anti-inflammatory activity and intestinal barrier-repairing effects of CE were assessed in a dextran sulfate sodium-induced murine colitis model.Network pharmacology was employed to predict potential targets and pathways.Then molecular docking and dynamics simulations were utilized to confirm a stable interaction between CE and the toll-like receptor 4(TLR4)/myeloid differentiation factor 2(MD2)complex.The anti-inflammatory mechanisms were further verified using in vitro assays.Additionally,the gut microbiota composition was analyzed via 16S rRNA gene sequencing.RESULTS CE significantly alleviated colitis symptoms,mitigated histopathological damage,and suppressed inflammation.Moreover,CE restored intestinal barrier integrity by enhancing mucus secretion and upregulating tight junction proteins(zonula occludens 1,occludin,claudin-1).Mechanistically,CE stably bound to MD2,inhibiting lipopolysaccharide-induced TLR4 signaling in RAW264.7 cells.This led to suppression of the downstream mitogen-activated protein kinase and nuclear factor kappa B signaling pathways,downregulating the expression of tumor necrosis factor-alpha,interleukin-1β,and interleukin-6.Gut microbiota analysis revealed that CE reversed dextran sulfate sodium-induced dysbiosis with significant enrichment of butyrogenic Christensenella minuta.CONCLUSION CE acted on MD2 to suppress proinflammatory cascades,promoting mucosal barrier reconstitution and microbiota remodeling and supporting its therapeutic use in UC.
基金funded by Zhejiang Province Traditional Chinese Medicine Science and Technology Plan Project(2023ZL128)Zhejiang Province Medical and Health Science and Technology Project(2022504276)Hangzhou Municipal Health and Family Planning Science and Technology Program General Project(A20210086).
文摘Objectives Therapeutic strategies for enhancing bone regeneration and combating osteoporosis remain a significant unmet medical need.This study aims to elucidate Lithospermic acid(LA)’s regulatory effects on osteoblast proliferation and differentiation,investigating its viability as a bone-healing agent.Methods This study employed various cellular and molecular biology experiments to assess the effects of LA on the viability,proliferation,cell cycle,apoptosis,differentiation,mineralization,and migration of MC3T3-E1 osteoblasts.Immunofluorescence and Western blot analyses were conducted to detect the expression of proteins related to the Wnt/β-catenin signaling pathway,investigating the regulatory mechanisms by which LA promotes osteoblast proliferation and differentiation.Additionally,Wnt inhibitor dickkopf-1(DKK-1)andβ-catenin-silenced cell models were used to further validate the role of LA in modulating this signaling pathway.Results LA significantly promoted osteoblast proliferation without apparent cytotoxicity.Flow cytometry showed that LA regulated the cell cycle by reducing G0/G1 phase arrest and promoting G2/M phase progression.Western blot results indicated that LA upregulated the expression of proteins associated with cell proliferation and enhanced osteoblast differentiation and mineralization.Immunofluorescence and Western blot analyses further confirmed that LA markedly increased the expression of Wnt andβ-catenin,facilitatingβ-catenin nuclear translocation.Treatment with the DKK-1 inhibitor significantly diminished the proliferative and differentiation-promoting effects of LA,confirming the critical role of this pathway.β-catenin knockdown experiments further substantiated its central role in LA-mediated regulation.Conclusion This study confirms that LA promotes osteoblast proliferation,differentiation,mineralization,and migration by activating the Wnt/β-catenin signaling pathway.
文摘Objectives Dysregulated osteoclast function contributes to skeletal diseases.However,the specific ubiquitination regulators of the osteoclastogenesis repressor MafB,particularly at the post-translational level,remain undefined.This study aims to identify ubiquitin-specific proteases(USPs)that deubiquitinate MafB and enhance its stability.Methods We constructed a MafB-conjugated luciferase and overexpressed 40 individual USPs,measuring changes in luciferase activity.The identified USP was overexpressed in human CD14^(+) peripheral blood mononuclear cells(PBMCs)to evaluate its effect.Osteoclast differentiation was assessed through osteoclast marker Integrin alpha-V(CD51)staining and Western blot analysis.Co-immunoprecipitation(co-IP)was performed to assess the interplay.The influence on MafB ubiquitination and degradation was evaluated via immunoprecipitation and Western blot.Finally,MafB was knocked down in the USP-overexpressing PBMCs to analyze its effect on osteoclast differentiation.Results Overexpression of ubiquitin-specific protease 29(USP29)significantly increased MafB expression by approximately 75%(p<0.0001).Elevated USP29 levels strongly inhibited osteoclastic differentiation in CD14^(+) PBMCs(p<0.0001).USP29 was found to interact with MafB,markedly reducing its ubiquitination and subsequent degradation in PBMCs(p<0.001).Knocking down MafB in USP29-overexpressing PBMCs alleviated the inhibitory effect of USP29 on osteoclastogenesis.Conclusion USP29 acts as a potent stabilizer of MafB,inhibiting osteoclastogenesis in human CD14^(+) PBMCs,at least in part,by enhancing MafB stability.These findings expand our understanding of USP29’s role and the post-translational regulation of MafB.Furthermore,USP29 serves as a vital factor that controls osteoclast differentiation,and its regulatory function is at least partially mediated by deubiquitinating and stabilizing MafB.
基金supported by the Natural Science Foundation of Hubei Province of China(Grant No.2023AFB671)the National Natural Science Foundation of China(Grant Nos.82360177 and 82560182)+1 种基金the Key Project of Jiangxi Provincial Natural Science Foundation(Grant No.20224ACB206011)“Xuncheng Talents”Project in Jiujiang City,Jiangxi Province(Grant No.JJXC2023071).
文摘Objectives The discovery of novel molecular targets to enhance the osteogenesis of human bone marrow-derived mesenchymal stem cells(H-BMSCs)represents a promising strategy for preventing and treating osteoporosis.Thus,the primary objective of this study is to elucidate the mechanisms by which long non-coding RNA FOXD2-AS1(lncRNA FOXD2-AS1)regulates early osteogenic differentiation in H-BMSCs,thereby identifying potential therapeutic targets.Methods Lentivirus-mediated vectors were constructed to either overexpress or silence FOXD2-AS1 in H-BMSCs.The effects of FOXD2-AS1 on osteogenesis were subsequently assessed by analyzing osteogenic marker expression and alkaline phosphatase(ALP)staining.To clarify the role of the Janus kinase 2/signal transducer and activator of transcription 3(JAK2/STAT3)pathway in this process,AG490 inhibitor(a JAK2/STAT3 pathway inhibitor)and knockdown of STAT3 were used to investigate the mechanisms of FOXD2-AS1.Results FOXD2-AS1 overexpression increased ALP activity and osteogenic marker expression,while its knockdown had the opposite effects.From a mechanistic perspective,FOXD2-AS1 overexpression promoted JAK2 and STAT3 phosphorylation,whereas its suppression attenuated their activation.Also,the osteogenic increase induced by FOXD2-AS1 overexpression was reversed by AG490 treatment or STAT3 silencing,indicating that the pathway plays a role in this process.Conclusion FOXD2-AS1 was identified as a novel genetic switch driving osteogenic commitment via JAK2/STAT3 activation,revealing a new regulatory mechanism and a potential therapeutic target for osteoporosis.
基金supported by National Natural Science Foundation of China(grant numbers 82072523 to Zhiyong Hou)Postdoctoral program of Clinical medicine of Hebei Medical University(grant numbers PD2023012 to Sujuan Xu)+2 种基金Excellent postdoctoral research funding project of Hebei Province(grant numbers B2023005011 to Sujuan Xu)The 16th special grant of China Postdoctoral Science Foundation(grant numbers 2023T160182 to Sujuan Xu)Natural Science Foundation of Hebei Province,China(grant numbers H2023206230 to Yingchao Yin,H2024206186 to Sujuan Xu).
文摘The delicate balance between bone formation by osteoblasts and bone resorption by osteoclasts maintains bone homeostasis.Nuclear receptors(NRs)are now understood to be crucial in bone physiology and pathology.However,the function of the Farnesoid X receptor(FXR),a member of the NR family,in regulating bone homeostasis remains incompletely understood.In this study,in vitro and in vivo models revealed delayed bone development and an osteoporosis phenotype in mice lacking FXR in bone marrow mesenchymal stem cells(BMSCs)and osteoblasts due to impaired osteoblast differentiation.Mechanistically,FXR could stabilize RUNX2 by inhibiting Thoc6-mediated ubiquitination,thereby promoting osteogenic activity in BMSCs.Moreover,activated FXR could directly bind to the Thoc6 promoter,suppressing its expression.The interaction between RUNX2 and Thoc6 was mediated by the Runt domain of RUNX2 and the WD repeat of Thoc6.Additionally,Obeticholic acid(OCA),an orally available FXR agonist,could ameliorate bone loss in an ovariectomy(OVX)-induced osteoporotic mouse model.Taken together,our findings suggest that FXR plays pivotal roles in osteoblast differentiation by regulating RUNX2 stability and that targeting FXR may be a promising therapeutic approach for osteoporosis.
基金Project supported by the Thousand Talents Program of Jiangxi Province,China(JXSQ2023201003)National Natural Science Foundation of China(42107254)+4 种基金Science and Technology Major Program of Ordos City(2022EEDSKJZDZX014-2)Technological Innovation Guidance Program of Jiangxi Province(20212BDH81029)Rare Earth Industry Fund(IAGM2020DB06)Selfdeployed Projects of Ganjiang Innovation Academy,Chinese Academy of Sciences(E055A01)the Key Research Program of the Chinese Academy of Sciences(ZDRW-CN-2021-3-3)。
文摘The rare earth elements(REEs)extraction by chemical leaching from ion-adsorption type rare earth ores(IAREO)has led to serious ecological and environmental risks.Conversely,demand for bioleaching is on the rise with the advantage of being environmental-friendly.As one of the organic acids produced by biological metabolism,citric acid was used to leach REEs and explore the performance and process.The results demonstrate that citric acid exhibits higher leaching efficiency(96.00%)for REEs at a relatively low concentration of 0.01 mol/L compared with(NH_(4))_(2)SO_(4)(84.29%,0.1 mol/L)and MgSO_(4)(83.99%,0.1 mol/L).Citric acid shows a preference for leaching heavy rare earth elements,with 99%leaching efficiency in IAREO,which shows higher capacity than(NH_(4))_(2)SO_(4)and MgSO_(4)(as inorganic leaching agents).Kinetic analysis indicates that the leaching process of REEs with citric acid is controlled by both the internal diffusion kinetics and chemical reaction kinetics,which is different from inorganic leaching agents.Visual Minteq calculations confirm that RE-Citrate is the main constituent of the extract solution in the leaching process of the IAREO,thereby enhancing the leaching efficiency of REEs from the IAREO.It suggests that citric acid may be used as a promising organic leaching agent for the environmentalfriendly extraction of REEs from IAREO.
基金supported by grants from National Natural Science Foundation of China(82272444,81972031,81972033)China Postdoctoral Science Foundation(2022M722382)Tianjin Key Medical Discipline(Specialty)Construction Project(TJYXZDXK-032A)。
文摘Neural EGFL-like 2(NELL2)is a secreted protein known for its regulatory functions in the nervous and reproductive systems,yet its role in bone biology remains unexplored.In this study,we observed that NELL2 was diminished in the bone of aged and ovariectomized(OVX)mice,as well as in the serum of osteopenia and osteoporosis patients.In vitro loss-of-function and gain-offunction studies revealed that NELL2 facilitated osteoblast differentiation and impeded adipocyte differentiation from stromal progenitor cells.In vivo studies further demonstrated that the deletion of NELL2 in preosteoblasts resulted in decreased cancellous bone mass in mice.Mechanistically,NELL2 interacted with the FNI-type domain located at the C-terminus of Fibronectin 1(Fn1).Moreover,we found that NELL2 activated the focal adhesion kinase(FAK)/AKT signaling pathway through Fn1/integrinβ1(ITGB1),leading to the promotion of osteogenesis and the inhibition of adipogenesis.Notably,administration of NELL2-AAV was found to ameliorate bone loss in OVX mice.These findings underscore the significant role of NELL2 in osteoblast differentiation and bone homeostasis,suggesting its potential as a therapeutic target for managing osteoporosis.
基金supported by the National Natural Science Foundation of China(Nos.82171552 and 82170479)the Natural Science Foundation of Shanghai Ctiy(No.21ZR1457500)the Science and Technology Bureau of Shanghai Putuo District(No.ptkwws202102).
文摘Magnolol,a compound extracted from Magnolia officinalis,demonstrates potential efficacy in addressing metabolic dysfunction and cardiovascular diseases.Its biological activities encompass anti-inflammatory,antioxidant,anticoagulant,and anti-diabetic effects.Growth/differentiation factor-15(GDF-15),a member of the transforming growth factorβsuperfamily,is considered a potential therapeutic target for metabolic disorders.This study investigated the impact of magnolol on GDF-15 production and its underlying mechanism.The research examined the pharmacological effect of magnolol on GDF-15 expression in vitro and in vivo,and determined the involvement of endoplasmic reticulum(ER)stress signaling in this process.Luciferase reporter assays,chromatin immunoprecipitation,and in vitro DNA binding assays were employed to examine the regulation of GDF-15 by activating transcription factor 4(ATF4),CCAAT enhancer binding proteinγ(CEBPG),and CCCTC-binding factor(CTCF).The study also investigated the effect of magnolol and ATF4 on the activity of a putative enhancer located in the intron of the GDF-15 gene,as well as the influence of single nucleotide polymorphisms(SNPs)on magnolol and ATF4-induced transcription activity.Results demonstrated that magnolol triggers GDF-15 production in endothelial cells(ECs),hepatoma cell line G2(HepG2)and hepatoma cell line 3B(Hep3B)cell lines,and primary mouse hepatocytes.The cooperative binding of ATF4 and CEBPG upstream of the GDF-15 gene or the E1944285 enhancer located in the intron led to full-power transcription of the GDF-15 gene.SNP alleles were found to impact the magnolol and ATF4-induced transcription activity of GDF-15.In high-fat diet ApoE^(-/-)mice,administration of magnolol induced GDF-15 production and partially suppressed appetite through GDF-15.These findings suggest that magnolol regulates GDF-15 expression through priming of promoter and enhancer activity,indicating its potential as a drug for the treatment of metabolic disorders.
基金supported by the project of Central Funds Guiding the Local Science and Technology Development(No.20212ZDD02010)。
文摘Andrographolide sulfonate(AS)is a sulfonated derivative of andrographolide extracted from Andrographis paniculata(Burm.f.)Nees,and has been approved for several decades in China.The present study aimed to investigate the novel therapeutic application and possible mechanisms of AS in the treatment of rheumatoid arthritis.Results indicated that administration of AS by injection or gavage significantly reduced the paw swelling,improved body weights,and attenuated pathological changes in joints of rats with adjuvant-induced arthritis.Additionally,the levels of tumor necrosis factor-alpha(TNF-α),interleukin-6(IL-6),and IL-1β in the serum and ankle joints were reduced.Bioinformatics analysis,along with the spleen index and measurements of IL-17 and IL-10 levels,suggested a potential relationship between AS and Th17 cells under arthritic conditions.In vitro,AS was shown to block Th17 cell differentiation,as evidenced by the reduced percentages of CD4^(+)IL-17A^(+)T cells and decreased expression levels of RORγt,IL-17A,IL-17F,IL-21,and IL-22,without affecting the cell viability and apoptosis.This effect was attributed to the limited glycolysis,as indicated by metabolomics analysis,reduced glucose uptake,and p H measurements.Further investigation revealed that AS might bind to hexokinase2(HK2)to down-regulate the protein levels of HK2 but not glyceraldehyde-3-phosphate dehydrogenase(GAPDH)or pyruvate kinase M2(PKM2),and overexpression of HK2 reversed the inhibition of AS on Th17 cell differentiation.Furthermore,AS impaired the activation of phosphatidylinositol 3-kinase(PI3K)/protein kinase B(AKT)signals in vivo and in vitro,which was abolished by the addition of lactate.In conclusion,AS significantly improved adjuvant-induced arthritis(AIA)in rats by inhibiting glycolysis-mediated activation of PI3K/AKT to restrain Th17 cell differentiation.
基金supported by the National Research Foundation(NRF)S&F-Scarce Skills Postdoctoral Fellowship,No.120752(to AC)the Global Excellence and Stature,Fourth Industrial Revolution(GES 4.0)Postgraduate Scholarship(to MJR)the South African Research Chairs Initiative of the Department of Science and Technology and National Research Foundation of South Africa(SARChI/NRF-DST),No.146290(to DDS and HA).
文摘Photobiomodulation,originally used red and near-infrared lasers,can alter cellular metabolism.It has been demonstrated that the visible spectrum at 451-540 nm does not necessarily increase cell proliferation,near-infrared light promotes adipose stem cell proliferation and affects adipose stem cell migration,which is necessary for the cells homing to the site of injury.In this in vitro study,we explored the potential of adipose-derived stem cells to differentiate into neurons for future translational regenerative treatments in neurodegenerative disorders and brain injuries.We investigated the effects of various biological and chemical inducers on trans-differentiation and evaluated the impact of photobiomodulation using 825 nm near-infrared and 525 nm green laser light at 5 J/cm2.As adipose-derived stem cells can be used in autologous grafting and photobiomodulation has been shown to have biostimulatory effects.Our findings reveal that adipose-derived stem cells can indeed trans-differentiate into neuronal cells when exposed to inducers,with pre-induced cells exhibiting higher rates of proliferation and trans-differentiation compared with the control group.Interestingly,green laser light stimulation led to notable morphological changes indicative of enhanced trans-differentiation,while near-infrared photobiomodulation notably increased the expression of neuronal markers.Through biochemical analysis and enzyme-linked immunosorbent assays,we observed marked improvements in viability,proliferation,membrane permeability,and mitochondrial membrane potential,as well as increased protein levels of neuron-specific enolase and ciliary neurotrophic factor.Overall,our results demonstrate the efficacy of photobiomodulation in enhancing the trans-differentiation ability of adipose-derived stem cells,offering promising prospects for their use in regenerative medicine for neurodegenerative disorders and brain injuries.
基金supported by the Natural Science Foundation of Jiangsu Province of China,No.BK20211348(to SHQ)Xuzhou Basic Research Program,No.KC21030(to LYH)+1 种基金Leadership Program of Xuzhou Medical University,No.JBGS202203(to SHQ)Research Grant Council GRF of Hong Kong Special Administrative Region of China,No.17105220(to JGS)。
文摘It has been shown clinically that continuous removal of ischemia/reperfusion-induced reactive oxygen species is not conducive to the recovery of late stroke.Indeed,previous studies have shown that excessive increases in hypochlorous acid after stroke can cause severe damage to brain tissue.Our previous studies have found that a small amount of hypochlorous acid still exists in the later stage of stroke,but its specific role and mechanism are currently unclear.To simulate stroke in vivo,a middle cerebral artery occlusion rat model was established,with an oxygen-glucose deprivation/reoxygenation model established in vitro to mimic stroke.We found that in the early stage(within 24 hours)of ischemic stroke,neutrophils produced a large amount of hypochlorous acid,while in the recovery phase(10 days after stroke),microglia were activated and produced a small amount of hypochlorous acid.Further,in acute stroke in rats,hypochlorous acid production was prevented using a hypochlorous acid scavenger,taurine,or myeloperoxidase inhibitor,4-aminobenzoic acid hydrazide.Our results showed that high levels of hypochlorous acid(200μM)induced neuronal apoptosis after oxygen/glucose deprivation/reoxygenation.However,in the recovery phase of the middle cerebral artery occlusion model,a moderate level of hypochlorous acid promoted the proliferation and differentiation of neural stem cells into neurons and astrocytes.This suggests that hypochlorous acid plays different roles at different phases of cerebral ischemia/reperfusion injury.Lower levels of hypochlorous acid(5 and 100μM)promoted nuclear translocation ofβ-catenin.By transfection of single-site mutation plasmids,we found that hypochlorous acid induced chlorination of theβ-catenin tyrosine 30 residue,which promoted nuclear translocation.Altogether,our study indicates that maintaining low levels of hypochlorous acid plays a key role in the recovery of neurological function.
基金supported by grants from the Liaoning Province Excellent Talent Program Project(XLYC1902031)Dalian Science and Technology Talent Innovation Plan Grant(2022RG18)Basic Research Project of the Department of Education of Liaoning Province(LJKQZ20222395)。
文摘Objective Cerebral palsy(CP)is a prevalent neurodevelopmental disorder acquired during the perinatal period,with periventricular white matter injury(PWMI)serving as its primary pathological hallmark.PWMI is characterized by the loss of oligodendrocytes(OLs)and the disintegration of myelin sheaths,leading to impaired neural connectivity and motor dysfunction.Neural stem cells(NSCs)represent a promising regenerative source for replenishing lost OLs;however,conventional twodimensional(2D)in vitro culture systems lack the three-dimensional(3D)physiological microenvironment.Microfluidic chip technology has emerged as a powerful tool to overcome this limitation by enabling precise spatial and temporal control over 3D microenvironmental conditions,including the establishment of stable concentration gradients of bioactive molecules.Catalpol,an iridoid glycoside derived from traditional medicinal plants,exhibits dual antioxidant and anti-apoptotic properties.Despite its therapeutic potential,the capacity of catalpol to drive NSC differentiation toward OLs under biomimetic 3D conditions,as well as the underlying molecular mechanisms,remains poorly understood.This study aims to develop a microfluidic-based 3D biomimetic platform to systematically investigate the concentration-dependent effects of catalpol on promoting NSCs-to-OLs differentiation and to elucidate the role of the caveolin-1(Cav-1)signaling pathway in this process.Methods We developed a novel multiplexed microfluidic device featuring parallel microchannels with integrated gradient generators capable of establishing and maintaining precise linear concentration gradients(0-3 g/L catalpol)across 3D NSCs cultures.This platform facilitated the continuous perfusion culture of NSC-derived 3D spheroids,mimicking the dynamic in vivo microenvironment.Real-time cell viability was assessed using Calcein-AM/propidium iodide(PI)dual staining,with fluorescence imaging quantifying live/dead cell ratios.Oligodendrocyte differentiation was evaluated through quantitative reverse transcription polymerase chain reaction(qRT-PCR)for MBP and SOX10 gene expression,complemented by immunofluorescence staining to visualize corresponding protein changes.To dissect the molecular mechanism,the Cav-1-specific pharmacological inhibitor methyl‑β‑cyclodextrin(MCD)was employed to perturb the pathway,and its effects on differentiation markers were analyzed.Results Catalpol demonstrated excellent biocompatibility,with cell viability exceeding 96%across the entire tested concentration range(0-3 g/L),confirming its non-cytotoxic nature.At the optimal concentration of 0-3 g/L,catalpol significantly upregulated both MBP and SOX10 expression(P<0.05,P<0.01),indicating robust promotion of oligodendroglial differentiation.Intriguingly,Cav-1 mRNA expression was progressively downregulated during NSC differentiation into OLs.Further inhibition of Cav-1 with MCD further enhanced this effect,leading to a statistically significant increase in OL-specific gene expression(P<0.05,P<0.01),suggesting Cav-1 acts as a negative regulator of OLs differentiation.Conclusion This study established an integrated microfluidic gradient chip-3D NSC spheroid culture system,which combines the advantages of precise chemical gradient control with physiologically relevant 3D cell culture.The findings demonstrate that 3 g/L catalpol effectively suppresses Cav-1 signaling to drive NSC differentiation into functional OLs.This work not only provides novel insights into the Cav-1-dependent mechanisms of myelination but also delivers a scalable technological platform for future research on remyelination therapies,with potential applications in cerebral palsy and other white matter disorders.The platform’s modular design permits adaptation for screening other neurogenic compounds or investigating additional signaling pathways involved in OLs maturation.
基金Supported by Natural Science Foundation of Guangdong Province in China(2018KTSCX161)。
文摘The boundness and compactness of products of multiplication,composition and differentiation on weighted Bergman spaces in the unit ball are studied.We define the differentiation operator on the space of holomorphic functions in the unit ball by radial derivative.Then we extend the Sharma's results.
基金Supported by Central Government Major Budget Adjustment Program(the Research on the Medicinal Properties of Brazilian Ginseng,Tonico,and Guarana,No.2060302)。
文摘It is well known that Traditional Chinese Medicine(TCM)has two outstanding academic characteristics:the holistic concept comes from Huang Di Nei Jing,and the syndrome differentiation and treatment comes from Shang Han Lun.These two characteristics denote the two major academic systems of TCM:one is the medical system of Huang Di Nei Jing,also named syndrome differentiation and treatment system of Zang-Fu organs and meridians,focuses on theoretical exploration,which highlights functional connection and emphasizes philosophical thinking.The treatment in this system is based on physiological functions by taking Zang-Fu organs as the main body,Qi,blood,essence,and body fluid as the auxiliary body,and the meridians and collaterals as the connection channels.The other is the syndrome differentiation and treatment system of the six meridians,which emphasizes clinical practice.It encompasses the idea that the six meridians govern various diseases,emphasizes the disease sites and divisional treatment,and pays attention to the precision and appropriateness of prescription-syndrome differentiation.These two academic systems,with mutual influences and relations,are both the essence and pearl of TCM,nevertheless,there are obvious differences between the two in clinical application,so they should be distinguished.This paper will elaborate on the connection and difference between them,and how to organically combine the two systems for better application in clinical practice of TCM.
文摘The authors regret to report the following error made in“Spatiotemporal dynamics of neuron differentiation and migration in the developing human spinal cord;52(2025)-101283-1295;Doi:https://doi.org/10.1016/j.jgg.2025.08.004”.In Tables S1 and S2 in the supplementary materials of this paper,some items were written in Chinese.The corresponding pictures and tables were not uploaded in time.
文摘BACKGROUND Gastric adenocarcinoma with enteroblastic differentiation(GAED)is one of the common subtypes of alpha-foetoprotein(AFP)-producing gastric cancer.GAED frequently results in venous invasion and liver metastasis,the latter being particularly linked to a poor prognosis.So far,the evidence for liver metastases from AFP-producing gastric cancer is only focused on those from gastric hepatoid adenocarcinoma,owing to their imaging similarities with hepatocellular carcinoma.This case report describes the characteristic diagnostic imaging findings of liver metastasis from GAED.CASE SUMMARY A 65-year-old man who had undergone a pyloric gastrectomy for GAED two years ago was found to have a liver tumor in the hepatic segment 7,accompanied by elevated serum AFP levels.Dynamic contrast-enhanced computed tomography revealed the tumor showing peripheral-dominant enhancement in the arterial phase with persistent central enhancement in the delayed phase.Gadoliniumethoxybenzyl-diethylenetriamine penta-acetic acid-enhanced magnetic resonance imaging demonstrated a signal drop in the tumor periphery in chemical shift imaging,along with arterial enhancement.Additionally,rim-like hypointensity surrounding the tumor was observed in the hepatobiliary phase.Postresection examination confirmed the tumor to be a metastasis from GAED.Histopathological examination revealed severe invasion of the tumor into the portal vein and hepatic vein surrounding the tumor,which explained the imaging features.CONCLUSION The imaging features of blood flow alternations resulting from vascular invasion may be crucial to diagnosing liver metastases from GAED.
文摘BACKGROUND Colon cancer is a major health problem with increasing mortality rates worldwide.AIM To evaluate the ability of Ferula assafoetida(F.assafoetida)to induce differentiation of colon cancer cells to function as normal cells.METHODS The cytotoxic effect of F.assafoetida was assessed against Caco cells using the(3-(4,5-dimethylthiazol-2-yl)-2,5-diphe nyltetrazoliumbromide thiazolyl assay.Cell cycle analysis and apoptosis were assessed using CytellTM cell system.The total antioxidant(TA),glutathione(GSH),malondialdehyde(MDA)concentrations,and alkaline phosphatase(ALP)activity were also assessed.The c-Jun N-terminal kinases(JNKs)and mitogen-activated protein kinase(MAPK)expressions were evaluated using quantitative real-time polymerase chain reaction.RESULTS There was a significant increase in the cell number treated with F.assafoetida(53.85%±0.03%),and those treated with sodium butyrate(NaBT)(54.6%±0.10%)in sub-G1 phase,compared to the untreated cells(0.78%±0.03%,P<0.001).Apoptosis was significantly increased in the Caco cells treated with F.assafoetida(49.1%±0.14%)compared to those treated with NaBT(27.3%±0.10%,P<0.001),and untreated cells(11.1%±0.02%,P<0.001).DNA degradation was observed in Caco cells treated with F.assafoetida in a dose-dependent manner,where complete degradation occurred at the dose of IC50(342.9μg/mL).F.assafoetida induced a significant increase in the TA concentration and GSH,while a significant decrease in the MDA levels(P<0.001,for all).Also,there was a significant increase in ALP activity in Caco cells(0.53±0.26 U/mL)compared to the control cells(0.05±0.02 U/mL,P=0.045).There was a significant upregulation of JNK and MAPK expression in Caco cells treated with F.assafoetida compared to the controls[2.59±0.01(P<0.001),and 3.62±0.01(P<0.001);respectively].CONCLUSION F.assafoetida is a potentially successful therapeutic and differentiating agent for colon cancer.
基金supported by the National Natural Science Foundation,China(32230108 to Z.Y.)National Key Research and Development Program,China(2022YFF1000300 to Z.Y.and 2022YFD2401800 to G.Z.)Foundation of Hubei Hongshan Laboratory(2021hszd021 to Z.Y.and 2021hskf013 to G.Z.)。
文摘Chorionic gonadotropinα(Cgα)functions as the shared subunit for thyroid-stimulating hormone subunitβ(Tshβ),luteinizing hormone subunitβ(Lhβ),and follicle-stimulating hormone subunitβ(Fshβ).While theseβ-subunits have been extensively studied using effective gene knockout models in zebrafish,the biological role of Cgαremains elusive.In this study,cgα-deficient zebrafish generated via transcription activator-like effector nucleases(TALENs)exhibited viability but displayed pronounced developmental abnormalities,including growth retardation,hyperpigmentation,reduced thyroxine(T4)levels,and defective anterior swim bladder inflation during juvenile stages.In adults,cgαdeficiency led to disrupted gonadal development,impaired secondary sex characteristics(SSCs),and severely impacted reproductive behavior in both female and male fish.Notably,both testicular and ovarian differentiation were observed in cgα-deficient fish and lhβ^(−/−);fshβ^(−/−)mutants.Gonadal sex differentiation in cgα-deficient zebrafish exhibited a pronounced shift toward testicular fate upon additional disruption of fshβ(cgα^(−/−);fshβ^(−/−)),marked by elevated anti-Müllerian hormone(amh)expression,or following loss of follicle-stimulating hormone receptor(fshr)(cgα^(−/−);fshr^(−/−)).In vitro assays in Chinese hamster ovary(CHO)cells revealed increased cAMP response element(CRE)promoter activity following transfection with constructs encoding Fshr,Fshβ/Fshr,or Cgα/Fshβ/Fshr.Collectively,the phenotypes observed in cgα-deficient fish recapitulate those of thyrotropin-and gonadotropin-disrupted models,highlighting the essential role of Cgαin thyroid and gonadal function.Importantly,these findings uncover the role of Fsh signaling in maintaining proper ovarian differentiation in zebrafish,including Cgα-independent Fshβactivity and the constitutive functionality of Fshr.
