Objectives:Tamoxifen is a key drug that provides endocrine therapy for estrogen receptor(ER)α-positive breast cancer;however,resistance remains a significant clinical challenge.This study aims to investigate the mole...Objectives:Tamoxifen is a key drug that provides endocrine therapy for estrogen receptor(ER)α-positive breast cancer;however,resistance remains a significant clinical challenge.This study aims to investigate the molecular mechanisms of tamoxifen resistance in ERα-positive breast cancer,with particular focus on the role of SET Domain Containing 1A(SETD1A)-driven forkhead box A2(FOXA2)as a key regulator of this resistance.Methods:FOXA2 expression and its regulation by SETD1A were assessed via(quantitative polymerase chain reaction),western blotting,transcriptome profiling,and chromatin immunoprecipitation analyses.The effects of FOXA2 on cell proliferation,migration,invasion,and cancer stem cell traits were evaluated using small interfering RNA(siRNA)-mediated silencing.Clinical relevance was examined by analyzing patient datasets and tumor tissue microarrays.Results:FOXA2 expression was significantly elevated in tamoxifen-resistant(TamR)and ERα-negative breast cancer cells compared to that in ERα-positive MCF-7 cells,regardless of tamoxifen treatment or ERαdepletion.Transcriptome and chromatin immunoprecipitation analyses revealed that SETD1A,a histone methyltransferase,directly regulated FOXA2 expression.Functionally,FOXA2 knockdown inhibited the proliferation,migration,invasion,and cancer stem cell properties of TamR cells while restoring tamoxifen sensitivity.High FOXA2 expression was correlated with poor survival and reduced responsiveness to tamoxifen in patients with ER-positive breast cancer.Conclusion:Our findings identified FOXA2 as a key mediator of tamoxifen resistance regulated by SETD1A and suggested that targeting the SETD1A-FOXA2 axis may offer a novel strategy for overcoming endocrine resistance in breast cancer.展开更多
BACKGROUND Hepatocellular carcinoma(HCC)is at the forefront of the global spectrum of cancer incidence and mortality,with conventional therapies like tyrosine kinase inhibitors limited by resistance.Recent studies hav...BACKGROUND Hepatocellular carcinoma(HCC)is at the forefront of the global spectrum of cancer incidence and mortality,with conventional therapies like tyrosine kinase inhibitors limited by resistance.Recent studies have highlighted the promising anticancer effects of nitidine chloride(NC)against HCC.SAC3 domain containing 1(SAC3D1)is critical for centrosome replication and spindle formation.However,research on SAC3D1 in HCC and NC remains limited.AIM To investigate the mechanisms underlying SAC3D1’s role in HCC progression and evaluated its potential as a therapeutic target of NC.METHODS RNA sequencing(RNA-seq)identified SAC3D1 expression changes in HCC cells after NC treatment.Molecular docking was further employed to validate the direct binding between NC and SAC3D1.Additionally,HCC multicenter data(The Cancer Genome Atlas_GTEx,ArrayExpress),pathway analysis,Pearson correlation analysis and SAC3D1 in vitro knockdown experiments were integrated to explore the molecular mechanisms underlying SAC3D1's involvement in HCC progression.RESULTS RNA-seq showed that NC treatment significantly downregulated SAC3D1 expression[log2(fold change)=-0.95,P<0.05],with molecular docking revealing that NC directly bound to SAC3D1 proteins(binding energy:-9.7 kcal/mol).Enrichment analysis showed that most pathways were closely related to the cell cycle.Pearson correlation analysis indicated that SAC3D1 and cell cycle genes were significantly positively correlated(correlation coefficient≥0.3,P<0.05).SAC3D1 knockdown inhibited HCC cell invasion,migration,and proliferation by arresting cells in the S and G2/M phases.Flow cytometry confirmed that after SAC3D1 knockdown,the early and total apoptosis percentage of HCC cells decreased,while the late apoptosis percentage increased.CONCLUSION As a potential target of NC,SAC3D1 may inhibit HCC progression through cell cycle regulation following its downregulation by NC.展开更多
BACKGROUND Metabolic dysregulation is considered a significant hallmark of hepatocellular carcinoma(HCC).SAC3 domain containing 1(SAC3D1)functions in the cell cycle,and its expression is upregulated in various cancers...BACKGROUND Metabolic dysregulation is considered a significant hallmark of hepatocellular carcinoma(HCC).SAC3 domain containing 1(SAC3D1)functions in the cell cycle,and its expression is upregulated in various cancers.It is known that metabolic changes occur at different stages of the cell cycle to maintain the biosynthesis and replication of both normal and cancer cells.Based on the role of SAC3D1 in mitosis,we hypothesize that abnormal expression of SAC3D1 may affect cellular metabolism.However,it remains unclear whether SAC3D1 mediates the progression of HCC by regulating metabolic reprogramming.AIM To comprehensively elucidate the impact and molecular mechanism of SAC3D1 on the progression of HCC by regulating the metabolic reprogramming.METHODS The constructed SAC3D1 overexpression and knockdown HCC cell lines were used for detecting cell proliferation,migration capabilities,as well as glycolysis and adenosine triphosphate(ATP)production rate assays.They were also employed for examining molecular markers associated with cell migration and glycolysis.The transcriptome sequencing data of cells have revealed the pathways potentially influenced by SAC3D1.The tail vein metastasis model and xenograft tumor experiments were utilized to demonstrate SAC3D1’s tumor-promoting effects in vivo.RESULTS SAC3D1 expression was upregulated and associated with poor prognosis in HCC patients.SAC3D1 enhanced the proliferation and migration abilities and reduced the population dependence of HCC cells in vitro and in vivo.The upregulation of SAC3D1 enhanced cellular glycolysis and ATP production.The cell transcriptome sequencing data revealed that SAC3D1 activated Wnt signaling pathway.SAC3D1 did not modulate the transcription ofβ-Catenin,while might inhibit its degradation.Further investigations indicated that the increase of SAC3D1 leads to moreβ-Catenin accumulating in the nucleus,facilitating the expression of c-Myc,one of the upstream regulatory factors of glycolysis.The iCRT3,an antagonist ofβ-Catenin,could counteract the increase of c-Myc induced by SAC3D1,while also downregulating the expression of glycolysis-related proteins.CONCLUSION This study found that SAC3D1 enhances HCC cell glycolysis and ATP production via theβ-Catenin/c-Myc signaling axis,thereby promoting the progression of HCC.展开更多
Objective This study aimed to investigate possible serum 25-hydroxyvitamin D[25(OH)D]cutoffs for the associations between 25(OH)D and Bone turnover markers(BTMs),and how GC gene variation influences such cutoffs in Ch...Objective This study aimed to investigate possible serum 25-hydroxyvitamin D[25(OH)D]cutoffs for the associations between 25(OH)D and Bone turnover markers(BTMs),and how GC gene variation influences such cutoffs in Chinese women of childbearing age.Methods In total,1,505 non-pregnant or non-lactating women(18–45 years)were recruited from the 2015 Chinese Adult Chronic Disease and Nutrition Surveillance.Serum 25(OH)D,osteocalcin(OC),procollagen type 1 N-terminal propeptide(P1NP),β-CrossLaps of type 1 collagen containing cross-linked C-telopeptide(β-CTX),and single nucleotide polymorphisms were determined.Locally weighted regression and smoothing scatterplot and segmented regression were performed to estimate the 25(OH)D thresholds.Results The median serum 25(OH)D was 16.63(11.96–22.55)ng/mL and the prevalence of low serum 25(OH)D(<12 ng/mL)was 25.2%.Women with the lowest 25(OH)D had the highestβ-CTX.After adjustment for the confounders,25(OH)D cutoffs for OC[14.04(12.84–15.23)ng/mL],β-CTX[13.94(12.49–15.39)ng/mL],and P1NP[13.87(12.37–15.37)ng/mL]in the whole population,cutoffs for OC[12.30(10.68–13.91)ng/mL],β-CTX[12.23(10.22–14.23)ng/mL],and P1NP[11.85(10.40–13.31)ng/mL]in women with the GC rs2282679 G allele,and cutoffs for OC[12.75(11.81–13.68)ng/mL],β-CTX[13.05(11.78–14.32)ng/mL],and P1NP[12.81(11.57–14.06)ng/mL]in women with the GC rs2282679 T allele,were observed.Below these cutoffs,BTMs were negatively associated with 25(OH)D,while above these cutoffs,BTMs plateaued.Conclusion In Chinese women of childbearing age,there were thresholds effect of serum 25(OH)D concentrations on BTMs.The results indicated that serum 25(OH)D concentrations<13.87 ng/mL in this population had adverse influences on maintaining bone remodeling.BTMs were suppressed at a relatively lower serum 25(OH)D in women with the GC rs2282679 G allele compared with those with the T allele.展开更多
BACKGROUND The interleukin-17(IL-17)mediated aberrant immune-inflammatory response plays a paramount role in ulcerative colitis(UC).γδT17 cells are one of the critical sources of IL-17,but the role they play in UC r...BACKGROUND The interleukin-17(IL-17)mediated aberrant immune-inflammatory response plays a paramount role in ulcerative colitis(UC).γδT17 cells are one of the critical sources of IL-17,but the role they play in UC remains under debate.AIM To clarify the role ofγδT17 cells in patients with mild-to-moderate UC.METHODS A single-centre observational pragmatic study was conducted on patients with UC who attended the outpatient and inpatient departments of Xiyuan Hospital of the China Academy of Traditional Chinese Medicine from September 2020 to December 2022.The research population consisted of two groups of adult patients.The first group consisted of healthy volunteers with no significant abnormalities on colonoscopy,and the other group consisted of patients with mild-to-moderate ulcerative colitis.Serum samples from healthy volunteers and patients with UC were collected for the detection of relevant inflammatory factors.Moreover,five colon mucosa samples were randomly selected from each group for testing and analyses.RESULTS An increased number ofγδT17 cells and hyperactivation of the NLR family pyrin domain containing 3/IL-1βsignaling pathway were observed in colonic mucosal tissues from patients with UC.CONCLUSION Hyperactivation of the NLR family pyrin domain containing 3/IL-1βsignaling pathway promotes the activation ofγδT17 cells in colonic mucosal tissues of patients with UC.展开更多
Transforming growth factor-β1(TGF-β1)acts as a tumor promoter in advanced prostate cancer(PCa).We speculated that microRNAs(miRNAs)that are inhibited by TGF-β1 might exert anti-tumor effects.To assess this,we ident...Transforming growth factor-β1(TGF-β1)acts as a tumor promoter in advanced prostate cancer(PCa).We speculated that microRNAs(miRNAs)that are inhibited by TGF-β1 might exert anti-tumor effects.To assess this,we identified several miRNAs downregulated by TGF-β1 in PCa cell lines and selected miR-3691-3p for detailed analysis as a candidate anti-oncogene miRNA.miR-3691-3p was expressed at significantly lower levels in human PCa tissue compared with paired benign prostatic hyperplasia tissue,and its expression level correlated inversely with aggressive clinical pathological features.Overexpression of miR-3691-3p in PCa cell lines inhibited proliferation,migration,and invasion,and promoted apoptosis.The miR-3691-3p target genes E2F transcription factor 3(E2F3)and PR domain containing 1,with ZNF domain(PRDM1)were upregulated in miR-3691-3p-overexpressing PCa cells,and silencing of E2F3 or PRDM1 suppressed PCa cell proliferation,migration,and invasion.Treatment of mice bearing PCa xenografts with a miR-3691-3p agomir inhibited tumor growth and promoted tumor cell apoptosis.Consistent with the negative regulation of E2F3 and PRDM1 by miR-3691-3p,both proteins were overexpressed in clinical PCa specimens compared with noncancerous prostate tissue.Our results indicate that TGF-β1-regulated miR-3691-3p acts as an anti-oncogene in PCa by downregulating E2F3 and PRDM1.These results provide novel insights into the mechanisms by which TGF-β1 contributes to the progression of PCa.展开更多
Axonal growth inhibitors are released during traumatic injuries to the adult mammalian central nervous system, including after spinal cord injury. These molecules accumulate at the injury site and form a highly inhibi...Axonal growth inhibitors are released during traumatic injuries to the adult mammalian central nervous system, including after spinal cord injury. These molecules accumulate at the injury site and form a highly inhibitory environment for axonal regeneration. Among these inhibitory molecules, myelinassociated inhibitors, including neurite outgrowth inhibitor A, oligodendrocyte myelin glycoprotein, myelin-associated glycoprotein, chondroitin sulfate proteoglycans and repulsive guidance molecule A are of particular importance. Due to their inhibitory nature, they represent exciting molecular targets to study axonal inhibition and regeneration after central injuries. These molecules are mainly produced by neurons, oligodendrocytes, and astrocytes within the scar and in its immediate vicinity. They exert their effects by binding to specific receptors, localized in the membranes of neurons. Receptors for these inhibitory cues include Nogo receptor 1, leucine-rich repeat, and Ig domain containing 1 and p75 neurotrophin receptor/tumor necrosis factor receptor superfamily member 19(that form a receptor complex that binds all myelin-associated inhibitors), and also paired immunoglobulin-like receptor B. Chondroitin sulfate proteoglycans and repulsive guidance molecule A bind to Nogo receptor 1, Nogo receptor 3, receptor protein tyrosine phosphatase σ and leucocyte common antigen related phosphatase, and neogenin, respectively. Once activated, these receptors initiate downstream signaling pathways, the most common amongst them being the Rho A/ROCK signaling pathway. These signaling cascades result in actin depolymerization, neurite outgrowth inhibition, and failure to regenerate after spinal cord injury. Currently, there are no approved pharmacological treatments to overcome spinal cord injuries other than physical rehabilitation and management of the array of symptoms brought on by spinal cord injuries. However, several novel therapies aiming to modulate these inhibitory proteins and/or their receptors are under investigation in ongoing clinical trials. Investigation has also been demonstrating that combinatorial therapies of growth inhibitors with other therapies, such as growth factors or stem-cell therapies, produce stronger results and their potential application in the clinics opens new venues in spinal cord injury treatment.展开更多
BACKGROUND NLRP3-mediated pyroptosis is recognized as an essential modulator of renal disease pathology.Long noncoding RNAs(lncRNAs)are active participators of diabetic nephropathy(DN).X inactive specific transcript(X...BACKGROUND NLRP3-mediated pyroptosis is recognized as an essential modulator of renal disease pathology.Long noncoding RNAs(lncRNAs)are active participators of diabetic nephropathy(DN).X inactive specific transcript(XIST)expression has been reported to be elevated in the serum of DN patients.AIM To evaluate the mechanism of lncRNA XIST in renal tubular epithelial cell(RTEC)pyroptosis in DN.METHODS A DN rat model was established through streptozotocin injection,and XIST was knocked down by tail vein injection of the lentivirus LV sh-XIST.Renal metabolic and biochemical indices were detected,and pathological changes in the renal tissue were assessed.The expression of indicators related to inflammation and pyroptosis was also detected.High glucose(HG)was used to treat HK2 cells,and cell viability and lactate dehydrogenase(LDH)activity were detected after silencing XIST.The subcellular localization and downstream mechanism of XIST were investigated.Finally,a rescue experiment was carried out to verify that XIST regulates NLR family pyrin domain containing 3(NLRP3)/caspase-1-mediated RTEC pyroptosis through the microRNA-15-5p(miR-15b-5p)/Toll-like receptor 4(TLR4)axis.RESULTS XIST was highly expressed in the DN models.XIST silencing improved renal metabolism and biochemical indices and mitigated renal injury.The expression of inflammation and pyroptosis indicators was significantly increased in DN rats and HG-treated HK2 cells;cell viability was decreased and LDH activity was increased after HGtreatment. Silencing XIST inhibited RTEC pyroptosis by inhibiting NLRP3/caspase-1. Mechanistically,XIST sponged miR-15b-5p to regulate TLR4. Silencing XIST inhibited TLR4 by promotingmiR-15b-5p. miR-15b-5p inhibition or TLR4 overexpression averted the inhibitory effect ofsilencing XIST on HG-induced RTEC pyroptosis.CONCLUSIONSilencing XIST inhibits TLR4 by upregulating miR-15b-5p and ultimately inhibits renal injury inDN by inhibiting NLRP3/caspase-1-mediated RTEC pyroptosis.展开更多
Chikungunya virus(CHIKV)is a re-emerging mosquito-transmitted RNA virus causing joint and muscle pain.To better understand how CHIKV rewires the host cell and usurps host cell functions,we generated a systematic CHIKV...Chikungunya virus(CHIKV)is a re-emerging mosquito-transmitted RNA virus causing joint and muscle pain.To better understand how CHIKV rewires the host cell and usurps host cell functions,we generated a systematic CHIKV-human protein-protein interaction map and revealed several novel connections that will inform further mechanistic studies.One of these novel interactions,between the viral protein E1 and STIP1 homology and U-box containing protein 1(STUB1),was found to mediate ubiquitination of E1 and degrade E1 through the proteasome.Capsid associated with G3BP1,G3BP2 and AAAþATPase valosin-containing protein(VCP).Furthermore,VCP inhibitors blocked CHIKV infection,suggesting VCP could serve as a therapeutic target.Further work is required to fully understand the functional consequences of these interactions.Given that CHIKV proteins are conserved across alphaviruses,many virus-host protein-protein interactions identified in this study might also exist in other alphaviruses.Construction of interactome of CHIKV provides the basis for further studying the function of alphavirus biology.展开更多
Spermatozoa are not mature until they transit the epididymis where they acquire motility and the ability to fertilize an egg through sequential modifications. The epididymis has three functional regions, caput, corpus...Spermatozoa are not mature until they transit the epididymis where they acquire motility and the ability to fertilize an egg through sequential modifications. The epididymis has three functional regions, caput, corpus, and cauda, and the luminal proteins of the epididymis play important roles in the above modifications. However, the proteins with differential enrichment between the caput and cauda are still largely unknown. To reveal the functions of the caput and cauda during sperm maturation, luminal proteins from caput and cauda of mice were analyzed by isobaric tag for relative and absolute quantitation (iTRAQ). Overall, 128 differentially enriched proteins were found, of which 46 were caput enriched and 82 were cauda enriched. Bioinformatic analysis showed that lipid metabolism was active in the caput; while anion- and cation-binding activity and phosphorus and organophosphate metabolism were active in the cauda. A new epididymal luminal protein, the caput-enriched PDZ domain containing 1 (Pdzkl), also named Na^+/H^+ exchange regulatory cofactor 3 (NHERF3), which plays a critical role in cholesterol metabolism and carnitine transport, was found in the lipid metabolism. Western blotting and immunofluorescence analyses showed that Pdzkl was expressed in the epididymis but not in the testis, and localized at the middle piece of the sperm tail. Pdzkl protein level was also reduced in the spermatozoa in case of asthenozoospermic patients compared with that in normozoospermic men, suggesting that Pdzkl may participate in sperm maturation regulation and may be associated with male infertility. These results may provide new insights into the mechanisms of sperm maturation and male infertility.展开更多
Dear Editor,Influenza A viruses cause pandemics at an interval of approximately 10-40 years,and pigs are regarded as a"mixing vessel"because they are easily infected with avian and human influenza viruses(Ito et al...Dear Editor,Influenza A viruses cause pandemics at an interval of approximately 10-40 years,and pigs are regarded as a"mixing vessel"because they are easily infected with avian and human influenza viruses(Ito et al.,1998).According to previous studies,H3N2,H1N2,and H1N1 subtypes o(swine influenza viruses have been detected in Korean pigs (Pascua et al., 2013; Kim et al., 2014; Song et al., 2007). Moreover, a novel H3N2 influenza virus containing the matrix (34) gene from a 2009 pandemic influenza virus was detected in Korean pigs in 2013 (Pascua et al., 2013), an H1N2 influenza virus con- taining the internal genes from a 2009 pandemic influ- enza virus was found in Korean pigs in 2014 (Kim et al., 2014), and an H1N1 influenza virus containing all genes from the classical swine influenza viruses was isolated from Korean pigs in 2007 (Song et al., 2007).展开更多
Objective:Leucine-rich alpha-2 glycoprotein 1(Lrg1)could regulate diverse cells in cerebral ischemiareperfusion.Our study seeks to uncover Lrg1’s impact on endothelial cell heterogeneity via differentiation pathways ...Objective:Leucine-rich alpha-2 glycoprotein 1(Lrg1)could regulate diverse cells in cerebral ischemiareperfusion.Our study seeks to uncover Lrg1’s impact on endothelial cell heterogeneity via differentiation pathways and transcription factors.Method:The CSOmap model measured cell-to-brain-center distances using single-cell RNA sequencing(scRNA-seq)data in middle cerebral artery occlusion reperfusion(MCAO/R).Monocle2 mapped endothelial differentiation paths.Gene set enrichment analysis(GSEA)analyzed endothelial subcluster variations.Database searches revealed a zinc finger MIZ-type containing 1 protein-frizzled 3(Zmiz1-Fzd3)promoter interaction.Endothelial cells were transfected with a Fzd3 promoter-luciferase plasmid.Polymerase chain reaction(PCR)and western blotting assessed MCAO/R or Zmiz1 overexpression effects on Fzd3-related mRNA and proteins.A retroviral vector carrying Zmiz1 was injected into the brains of mice to study its effect on Fzd3.Result:Lrg1−/−mice exhibited elevated cell adhesion proteins and decreased microvascular leakage after MCAO/R.CSOmap showed widened astrocyte spacing in thesemice.RSS revealed Zmiz1 overexpression inMCAO/R+Lrg1−/−mice.MCAO/R and pcDNA3-Zmiz1 transfection both enhanced luciferase activity with Fzd3,indicating Zmiz1 binding to Fzd3.Retroviral Zmiz1 injection or knockdown disrupted ischemic brain tight junctions,highlighting Zmiz1’s key role in blood-brain barrier protection,likely through Fzd3 pathway modulation.Conclusion:The findings indicate Lrg1 knockout induces endothelial differentiation by activating Zmiz1,which is crucial for maintaining blood-brain barrier function,possibly via modulating the Fzd3 pathway.展开更多
Mitophagy is one of the important targets for the prevention and treatment of myocardial ischemia/reperfusion injury(MIRI).Moderate mitophagy can remove damaged mitochondria,inhibit excessive reactive oxygen species a...Mitophagy is one of the important targets for the prevention and treatment of myocardial ischemia/reperfusion injury(MIRI).Moderate mitophagy can remove damaged mitochondria,inhibit excessive reactive oxygen species accumulation,and protect mitochondria from damage.However,excessive enhancement of mitophagy greatly reduces adenosine triphosphate production and energy supply for cell survival,and aggravates cell death.How dysfunctional mitochondria are selectively recognized and engulfed is related to the interaction of adaptors on the mitochondrial membrane,which mainly include phosphatase and tensin homolog deleted on chromosome ten(PTEN)-induced kinase 1/Parkin,hypoxia-inducible factor-1α/Bcl-2 and adenovirus e1b19k Da interacting protein 3,FUN-14 domain containing protein 1 receptor-mediated mitophagy pathway and so on.In this review,the authors briefly summarize the main pathways currently studied on mitophagy and the relationship between mitophagy and MIRI,and incorporate and analyze research data on prevention and treatment of MIRI with Chinese medicine,thereby provide relevant theoretical basis and treatment ideas for clinical prevention of MIRI.展开更多
HepatitisBvirus(HBV)infection causes acuteand chronic liver diseases,but is not directly cytopathic.Liver injury results fromrepeated attempts of the cellular immune response system to control the viral infection.Here...HepatitisBvirus(HBV)infection causes acuteand chronic liver diseases,but is not directly cytopathic.Liver injury results fromrepeated attempts of the cellular immune response system to control the viral infection.Here,we investigate the roles of cellular factors and signaling pathways involved in the regulation of HBV replication to reveal the mechanism underlying HBV infection and pathogenesis.Weshowthat collagen triple helix repeat containing 1(CTHRC1)expression is elevated in HBV-infected patients andin HBV-transfected cells through epigenetic modification and transcriptional regulation.CTHRC1 facilitates HBV replication in cultured cells and BALB/c mice by activating the PKCa/ERK/JNK/c-Jun cascade to repress the IFN/JAK/STAT pathway.HBV-activated CTHRC1 downregulates the activityof typeI interferon(IFN),theproductionof IFN-stimulatedgenes(ISGs),andthephosphorylationofsignal transducerandactivator of transcription 1/2(STAT1/2),whereas it upregulates the phosphorylation and ubiquitination of type I IFN receptors(IFNARa/b).Thus,our results showthat HBV uses a novelmechanismto hijack cellular factors and signal cascades in order to evade host antiviral immunity and maintain persistent infection.We also demonstrate that CTHRC1 has a novel role in viral infection.展开更多
Objective:The zinc finger,MIZ-type containing 1(ZMIZ1)gene has been identified as a possible susceptibility gene associated with vitiligo,therefore we conducted this study to investigate the role ofZMIZ1 in pigmentati...Objective:The zinc finger,MIZ-type containing 1(ZMIZ1)gene has been identified as a possible susceptibility gene associated with vitiligo,therefore we conducted this study to investigate the role ofZMIZ1 in pigmentation.Methods:We generate a zebrafish loss-of-function model using morpholino oligonucleotides(MOs),and two orthologs of humanZMIZ1 have been annotated(ZMIZ1a andZMIZ1b).The expression profiles of ZMIZ1a and ZMIZ1b and their effects on the pigmentation in zebrafish were evaluated by using whole-mount in situ hybridization and melanin quantification.Statistical analysis was performed using the unpaired Studentt-test or one-way analysis.Results:Investigation of the temporal and spatial expressions of these two transcripts suggested that the expressions ofZMIZ1a andZMIZ1b in the brain start to emerge in a ubiquitous fashion from 2 days post-fertilization onwards.After the successful design and validation of MOs,we observed thatZMIZ1a andZMIZ1b MOs caused embryonic developmental delays and malformations in zebrafish.Further analysis of the melanin content in the morphants revealed thatZMIZ1a significantly(49.1%for 0.667 mmol/L inZMIZI1a group,P=0.03)reduced the melanin content in a dose-dependent manner,but only the highest concentration of injectedZMIZ1b MOs significantly(50%for 0.667 mmol/L inZMIZ1b group,P=0.02)reduced the melanin content.A tyrosinase inhibition assay indicated no significant difference between the morphants and wild-type zebrafish.Conclusion:This study successfully modeled a susceptibility gene identified by genome-wide association studies in a zebrafish loss-of-function model and provides insights into the biological mechanism of pigmentation.展开更多
基金supported by the Basic Science Research Program through the National Research Foundation of Korea(NRF),funded by the Ministry of Education(RS-2023-00248378 and NRF-2020R1A6A1A03043708).
文摘Objectives:Tamoxifen is a key drug that provides endocrine therapy for estrogen receptor(ER)α-positive breast cancer;however,resistance remains a significant clinical challenge.This study aims to investigate the molecular mechanisms of tamoxifen resistance in ERα-positive breast cancer,with particular focus on the role of SET Domain Containing 1A(SETD1A)-driven forkhead box A2(FOXA2)as a key regulator of this resistance.Methods:FOXA2 expression and its regulation by SETD1A were assessed via(quantitative polymerase chain reaction),western blotting,transcriptome profiling,and chromatin immunoprecipitation analyses.The effects of FOXA2 on cell proliferation,migration,invasion,and cancer stem cell traits were evaluated using small interfering RNA(siRNA)-mediated silencing.Clinical relevance was examined by analyzing patient datasets and tumor tissue microarrays.Results:FOXA2 expression was significantly elevated in tamoxifen-resistant(TamR)and ERα-negative breast cancer cells compared to that in ERα-positive MCF-7 cells,regardless of tamoxifen treatment or ERαdepletion.Transcriptome and chromatin immunoprecipitation analyses revealed that SETD1A,a histone methyltransferase,directly regulated FOXA2 expression.Functionally,FOXA2 knockdown inhibited the proliferation,migration,invasion,and cancer stem cell properties of TamR cells while restoring tamoxifen sensitivity.High FOXA2 expression was correlated with poor survival and reduced responsiveness to tamoxifen in patients with ER-positive breast cancer.Conclusion:Our findings identified FOXA2 as a key mediator of tamoxifen resistance regulated by SETD1A and suggested that targeting the SETD1A-FOXA2 axis may offer a novel strategy for overcoming endocrine resistance in breast cancer.
基金Supported by National Natural Science Foundation of China,No.82160762 and No.82460783Guangxi Medical University“Four New”Project,No.SX202403+2 种基金Innovation Project of Guangxi Graduate Education,No.JGY2023068Guangxi Higher Education Undergraduate Teaching Reform Project,No.2022JGA146China Undergraduate Innovation and Entrepreneurship Training Program,No.202310598045.
文摘BACKGROUND Hepatocellular carcinoma(HCC)is at the forefront of the global spectrum of cancer incidence and mortality,with conventional therapies like tyrosine kinase inhibitors limited by resistance.Recent studies have highlighted the promising anticancer effects of nitidine chloride(NC)against HCC.SAC3 domain containing 1(SAC3D1)is critical for centrosome replication and spindle formation.However,research on SAC3D1 in HCC and NC remains limited.AIM To investigate the mechanisms underlying SAC3D1’s role in HCC progression and evaluated its potential as a therapeutic target of NC.METHODS RNA sequencing(RNA-seq)identified SAC3D1 expression changes in HCC cells after NC treatment.Molecular docking was further employed to validate the direct binding between NC and SAC3D1.Additionally,HCC multicenter data(The Cancer Genome Atlas_GTEx,ArrayExpress),pathway analysis,Pearson correlation analysis and SAC3D1 in vitro knockdown experiments were integrated to explore the molecular mechanisms underlying SAC3D1's involvement in HCC progression.RESULTS RNA-seq showed that NC treatment significantly downregulated SAC3D1 expression[log2(fold change)=-0.95,P<0.05],with molecular docking revealing that NC directly bound to SAC3D1 proteins(binding energy:-9.7 kcal/mol).Enrichment analysis showed that most pathways were closely related to the cell cycle.Pearson correlation analysis indicated that SAC3D1 and cell cycle genes were significantly positively correlated(correlation coefficient≥0.3,P<0.05).SAC3D1 knockdown inhibited HCC cell invasion,migration,and proliferation by arresting cells in the S and G2/M phases.Flow cytometry confirmed that after SAC3D1 knockdown,the early and total apoptosis percentage of HCC cells decreased,while the late apoptosis percentage increased.CONCLUSION As a potential target of NC,SAC3D1 may inhibit HCC progression through cell cycle regulation following its downregulation by NC.
基金Supported by the Shanghai Yangpu District Science and Technology Commission,No.YPQ202303Shanghai Municipal Health Commission Clinical Research Special Project,No.202240122Shanghai Medical Innovation Research Special Project,No.22Y11908600.
文摘BACKGROUND Metabolic dysregulation is considered a significant hallmark of hepatocellular carcinoma(HCC).SAC3 domain containing 1(SAC3D1)functions in the cell cycle,and its expression is upregulated in various cancers.It is known that metabolic changes occur at different stages of the cell cycle to maintain the biosynthesis and replication of both normal and cancer cells.Based on the role of SAC3D1 in mitosis,we hypothesize that abnormal expression of SAC3D1 may affect cellular metabolism.However,it remains unclear whether SAC3D1 mediates the progression of HCC by regulating metabolic reprogramming.AIM To comprehensively elucidate the impact and molecular mechanism of SAC3D1 on the progression of HCC by regulating the metabolic reprogramming.METHODS The constructed SAC3D1 overexpression and knockdown HCC cell lines were used for detecting cell proliferation,migration capabilities,as well as glycolysis and adenosine triphosphate(ATP)production rate assays.They were also employed for examining molecular markers associated with cell migration and glycolysis.The transcriptome sequencing data of cells have revealed the pathways potentially influenced by SAC3D1.The tail vein metastasis model and xenograft tumor experiments were utilized to demonstrate SAC3D1’s tumor-promoting effects in vivo.RESULTS SAC3D1 expression was upregulated and associated with poor prognosis in HCC patients.SAC3D1 enhanced the proliferation and migration abilities and reduced the population dependence of HCC cells in vitro and in vivo.The upregulation of SAC3D1 enhanced cellular glycolysis and ATP production.The cell transcriptome sequencing data revealed that SAC3D1 activated Wnt signaling pathway.SAC3D1 did not modulate the transcription ofβ-Catenin,while might inhibit its degradation.Further investigations indicated that the increase of SAC3D1 leads to moreβ-Catenin accumulating in the nucleus,facilitating the expression of c-Myc,one of the upstream regulatory factors of glycolysis.The iCRT3,an antagonist ofβ-Catenin,could counteract the increase of c-Myc induced by SAC3D1,while also downregulating the expression of glycolysis-related proteins.CONCLUSION This study found that SAC3D1 enhances HCC cell glycolysis and ATP production via theβ-Catenin/c-Myc signaling axis,thereby promoting the progression of HCC.
基金funded by the National Natural Science Foundation of China(No.81872627and No.82473611)the National Financial Projects ‘Assessment and Application of Nutrients Requirement and Food Environment for Chinese Residents’(No.102393220020070000013)。
文摘Objective This study aimed to investigate possible serum 25-hydroxyvitamin D[25(OH)D]cutoffs for the associations between 25(OH)D and Bone turnover markers(BTMs),and how GC gene variation influences such cutoffs in Chinese women of childbearing age.Methods In total,1,505 non-pregnant or non-lactating women(18–45 years)were recruited from the 2015 Chinese Adult Chronic Disease and Nutrition Surveillance.Serum 25(OH)D,osteocalcin(OC),procollagen type 1 N-terminal propeptide(P1NP),β-CrossLaps of type 1 collagen containing cross-linked C-telopeptide(β-CTX),and single nucleotide polymorphisms were determined.Locally weighted regression and smoothing scatterplot and segmented regression were performed to estimate the 25(OH)D thresholds.Results The median serum 25(OH)D was 16.63(11.96–22.55)ng/mL and the prevalence of low serum 25(OH)D(<12 ng/mL)was 25.2%.Women with the lowest 25(OH)D had the highestβ-CTX.After adjustment for the confounders,25(OH)D cutoffs for OC[14.04(12.84–15.23)ng/mL],β-CTX[13.94(12.49–15.39)ng/mL],and P1NP[13.87(12.37–15.37)ng/mL]in the whole population,cutoffs for OC[12.30(10.68–13.91)ng/mL],β-CTX[12.23(10.22–14.23)ng/mL],and P1NP[11.85(10.40–13.31)ng/mL]in women with the GC rs2282679 G allele,and cutoffs for OC[12.75(11.81–13.68)ng/mL],β-CTX[13.05(11.78–14.32)ng/mL],and P1NP[12.81(11.57–14.06)ng/mL]in women with the GC rs2282679 T allele,were observed.Below these cutoffs,BTMs were negatively associated with 25(OH)D,while above these cutoffs,BTMs plateaued.Conclusion In Chinese women of childbearing age,there were thresholds effect of serum 25(OH)D concentrations on BTMs.The results indicated that serum 25(OH)D concentrations<13.87 ng/mL in this population had adverse influences on maintaining bone remodeling.BTMs were suppressed at a relatively lower serum 25(OH)D in women with the GC rs2282679 G allele compared with those with the T allele.
基金Supported by China Academy of Chinese Medical Sciences Outstanding Young Talents(Innovative)Cultivation Project,No.ZZ17-YQ-007Special Project of the National Natural Science Foundation of China,No.82341233.
文摘BACKGROUND The interleukin-17(IL-17)mediated aberrant immune-inflammatory response plays a paramount role in ulcerative colitis(UC).γδT17 cells are one of the critical sources of IL-17,but the role they play in UC remains under debate.AIM To clarify the role ofγδT17 cells in patients with mild-to-moderate UC.METHODS A single-centre observational pragmatic study was conducted on patients with UC who attended the outpatient and inpatient departments of Xiyuan Hospital of the China Academy of Traditional Chinese Medicine from September 2020 to December 2022.The research population consisted of two groups of adult patients.The first group consisted of healthy volunteers with no significant abnormalities on colonoscopy,and the other group consisted of patients with mild-to-moderate ulcerative colitis.Serum samples from healthy volunteers and patients with UC were collected for the detection of relevant inflammatory factors.Moreover,five colon mucosa samples were randomly selected from each group for testing and analyses.RESULTS An increased number ofγδT17 cells and hyperactivation of the NLR family pyrin domain containing 3/IL-1βsignaling pathway were observed in colonic mucosal tissues from patients with UC.CONCLUSION Hyperactivation of the NLR family pyrin domain containing 3/IL-1βsignaling pathway promotes the activation ofγδT17 cells in colonic mucosal tissues of patients with UC.
基金This study was supported by Shanghai Changning District Committee of Science and Technology(CNKW2016Y01)Shanghai Tongren Hospital Project(TRYJ201501)+3 种基金Suzhou Science and Technology Development Program(SYS201717)the Second Affiliated Hospital of Soochow University Advance Research Program of the Natural Science Foundation of China Grants(SDFEYGJ1705)Open project of Jiangsu State Key Laboratory of Radiation Medicine and Projection(GJS1963)the Priority Academic Program Development of Jiangsu Higher Education Institutions.
文摘Transforming growth factor-β1(TGF-β1)acts as a tumor promoter in advanced prostate cancer(PCa).We speculated that microRNAs(miRNAs)that are inhibited by TGF-β1 might exert anti-tumor effects.To assess this,we identified several miRNAs downregulated by TGF-β1 in PCa cell lines and selected miR-3691-3p for detailed analysis as a candidate anti-oncogene miRNA.miR-3691-3p was expressed at significantly lower levels in human PCa tissue compared with paired benign prostatic hyperplasia tissue,and its expression level correlated inversely with aggressive clinical pathological features.Overexpression of miR-3691-3p in PCa cell lines inhibited proliferation,migration,and invasion,and promoted apoptosis.The miR-3691-3p target genes E2F transcription factor 3(E2F3)and PR domain containing 1,with ZNF domain(PRDM1)were upregulated in miR-3691-3p-overexpressing PCa cells,and silencing of E2F3 or PRDM1 suppressed PCa cell proliferation,migration,and invasion.Treatment of mice bearing PCa xenografts with a miR-3691-3p agomir inhibited tumor growth and promoted tumor cell apoptosis.Consistent with the negative regulation of E2F3 and PRDM1 by miR-3691-3p,both proteins were overexpressed in clinical PCa specimens compared with noncancerous prostate tissue.Our results indicate that TGF-β1-regulated miR-3691-3p acts as an anti-oncogene in PCa by downregulating E2F3 and PRDM1.These results provide novel insights into the mechanisms by which TGF-β1 contributes to the progression of PCa.
基金a Ph D fellowship by FCT-Fundacao para a Ciência Tecnologia (SFRH/BD/135868/2018)(to SSC)。
文摘Axonal growth inhibitors are released during traumatic injuries to the adult mammalian central nervous system, including after spinal cord injury. These molecules accumulate at the injury site and form a highly inhibitory environment for axonal regeneration. Among these inhibitory molecules, myelinassociated inhibitors, including neurite outgrowth inhibitor A, oligodendrocyte myelin glycoprotein, myelin-associated glycoprotein, chondroitin sulfate proteoglycans and repulsive guidance molecule A are of particular importance. Due to their inhibitory nature, they represent exciting molecular targets to study axonal inhibition and regeneration after central injuries. These molecules are mainly produced by neurons, oligodendrocytes, and astrocytes within the scar and in its immediate vicinity. They exert their effects by binding to specific receptors, localized in the membranes of neurons. Receptors for these inhibitory cues include Nogo receptor 1, leucine-rich repeat, and Ig domain containing 1 and p75 neurotrophin receptor/tumor necrosis factor receptor superfamily member 19(that form a receptor complex that binds all myelin-associated inhibitors), and also paired immunoglobulin-like receptor B. Chondroitin sulfate proteoglycans and repulsive guidance molecule A bind to Nogo receptor 1, Nogo receptor 3, receptor protein tyrosine phosphatase σ and leucocyte common antigen related phosphatase, and neogenin, respectively. Once activated, these receptors initiate downstream signaling pathways, the most common amongst them being the Rho A/ROCK signaling pathway. These signaling cascades result in actin depolymerization, neurite outgrowth inhibition, and failure to regenerate after spinal cord injury. Currently, there are no approved pharmacological treatments to overcome spinal cord injuries other than physical rehabilitation and management of the array of symptoms brought on by spinal cord injuries. However, several novel therapies aiming to modulate these inhibitory proteins and/or their receptors are under investigation in ongoing clinical trials. Investigation has also been demonstrating that combinatorial therapies of growth inhibitors with other therapies, such as growth factors or stem-cell therapies, produce stronger results and their potential application in the clinics opens new venues in spinal cord injury treatment.
基金Supported by Natural Science Foundation of Shenzhen University General Hospital (SUGH2020QD011)
文摘BACKGROUND NLRP3-mediated pyroptosis is recognized as an essential modulator of renal disease pathology.Long noncoding RNAs(lncRNAs)are active participators of diabetic nephropathy(DN).X inactive specific transcript(XIST)expression has been reported to be elevated in the serum of DN patients.AIM To evaluate the mechanism of lncRNA XIST in renal tubular epithelial cell(RTEC)pyroptosis in DN.METHODS A DN rat model was established through streptozotocin injection,and XIST was knocked down by tail vein injection of the lentivirus LV sh-XIST.Renal metabolic and biochemical indices were detected,and pathological changes in the renal tissue were assessed.The expression of indicators related to inflammation and pyroptosis was also detected.High glucose(HG)was used to treat HK2 cells,and cell viability and lactate dehydrogenase(LDH)activity were detected after silencing XIST.The subcellular localization and downstream mechanism of XIST were investigated.Finally,a rescue experiment was carried out to verify that XIST regulates NLR family pyrin domain containing 3(NLRP3)/caspase-1-mediated RTEC pyroptosis through the microRNA-15-5p(miR-15b-5p)/Toll-like receptor 4(TLR4)axis.RESULTS XIST was highly expressed in the DN models.XIST silencing improved renal metabolism and biochemical indices and mitigated renal injury.The expression of inflammation and pyroptosis indicators was significantly increased in DN rats and HG-treated HK2 cells;cell viability was decreased and LDH activity was increased after HGtreatment. Silencing XIST inhibited RTEC pyroptosis by inhibiting NLRP3/caspase-1. Mechanistically,XIST sponged miR-15b-5p to regulate TLR4. Silencing XIST inhibited TLR4 by promotingmiR-15b-5p. miR-15b-5p inhibition or TLR4 overexpression averted the inhibitory effect ofsilencing XIST on HG-induced RTEC pyroptosis.CONCLUSIONSilencing XIST inhibits TLR4 by upregulating miR-15b-5p and ultimately inhibits renal injury inDN by inhibiting NLRP3/caspase-1-mediated RTEC pyroptosis.
基金supported by National Natural Science Foundation of China (82072270 and 82272306)Taishan Scholars Program (tstp20221142)+1 种基金Shandong Provincial Natural Science Foundation (ZR2021QC095)Academic Promotion Programme of Shandong First Medical University (2019LJ001).
文摘Chikungunya virus(CHIKV)is a re-emerging mosquito-transmitted RNA virus causing joint and muscle pain.To better understand how CHIKV rewires the host cell and usurps host cell functions,we generated a systematic CHIKV-human protein-protein interaction map and revealed several novel connections that will inform further mechanistic studies.One of these novel interactions,between the viral protein E1 and STIP1 homology and U-box containing protein 1(STUB1),was found to mediate ubiquitination of E1 and degrade E1 through the proteasome.Capsid associated with G3BP1,G3BP2 and AAAþATPase valosin-containing protein(VCP).Furthermore,VCP inhibitors blocked CHIKV infection,suggesting VCP could serve as a therapeutic target.Further work is required to fully understand the functional consequences of these interactions.Given that CHIKV proteins are conserved across alphaviruses,many virus-host protein-protein interactions identified in this study might also exist in other alphaviruses.Construction of interactome of CHIKV provides the basis for further studying the function of alphavirus biology.
基金This work was supported by the National Natural Science Foundation of China Grants (81430027 and 81671510 to FS 81501309 to GSW) and the National Basic Research Program of China (2014CB943100 to FS).
文摘Spermatozoa are not mature until they transit the epididymis where they acquire motility and the ability to fertilize an egg through sequential modifications. The epididymis has three functional regions, caput, corpus, and cauda, and the luminal proteins of the epididymis play important roles in the above modifications. However, the proteins with differential enrichment between the caput and cauda are still largely unknown. To reveal the functions of the caput and cauda during sperm maturation, luminal proteins from caput and cauda of mice were analyzed by isobaric tag for relative and absolute quantitation (iTRAQ). Overall, 128 differentially enriched proteins were found, of which 46 were caput enriched and 82 were cauda enriched. Bioinformatic analysis showed that lipid metabolism was active in the caput; while anion- and cation-binding activity and phosphorus and organophosphate metabolism were active in the cauda. A new epididymal luminal protein, the caput-enriched PDZ domain containing 1 (Pdzkl), also named Na^+/H^+ exchange regulatory cofactor 3 (NHERF3), which plays a critical role in cholesterol metabolism and carnitine transport, was found in the lipid metabolism. Western blotting and immunofluorescence analyses showed that Pdzkl was expressed in the epididymis but not in the testis, and localized at the middle piece of the sperm tail. Pdzkl protein level was also reduced in the spermatozoa in case of asthenozoospermic patients compared with that in normozoospermic men, suggesting that Pdzkl may participate in sperm maturation regulation and may be associated with male infertility. These results may provide new insights into the mechanisms of sperm maturation and male infertility.
基金in part funded by a 2015 research fund from Chungnam National University
文摘Dear Editor,Influenza A viruses cause pandemics at an interval of approximately 10-40 years,and pigs are regarded as a"mixing vessel"because they are easily infected with avian and human influenza viruses(Ito et al.,1998).According to previous studies,H3N2,H1N2,and H1N1 subtypes o(swine influenza viruses have been detected in Korean pigs (Pascua et al., 2013; Kim et al., 2014; Song et al., 2007). Moreover, a novel H3N2 influenza virus containing the matrix (34) gene from a 2009 pandemic influenza virus was detected in Korean pigs in 2013 (Pascua et al., 2013), an H1N2 influenza virus con- taining the internal genes from a 2009 pandemic influ- enza virus was found in Korean pigs in 2014 (Kim et al., 2014), and an H1N1 influenza virus containing all genes from the classical swine influenza viruses was isolated from Korean pigs in 2007 (Song et al., 2007).
基金supported by the Foundation Project:National Natural Science.Foundation of China(Nos.:82460249,82100417,81760094)The Foundation of Jiangxi Provincial Department of Science and Technology Outstanding Youth Fund Project(20212BAB206022,20242BAB23080).
文摘Objective:Leucine-rich alpha-2 glycoprotein 1(Lrg1)could regulate diverse cells in cerebral ischemiareperfusion.Our study seeks to uncover Lrg1’s impact on endothelial cell heterogeneity via differentiation pathways and transcription factors.Method:The CSOmap model measured cell-to-brain-center distances using single-cell RNA sequencing(scRNA-seq)data in middle cerebral artery occlusion reperfusion(MCAO/R).Monocle2 mapped endothelial differentiation paths.Gene set enrichment analysis(GSEA)analyzed endothelial subcluster variations.Database searches revealed a zinc finger MIZ-type containing 1 protein-frizzled 3(Zmiz1-Fzd3)promoter interaction.Endothelial cells were transfected with a Fzd3 promoter-luciferase plasmid.Polymerase chain reaction(PCR)and western blotting assessed MCAO/R or Zmiz1 overexpression effects on Fzd3-related mRNA and proteins.A retroviral vector carrying Zmiz1 was injected into the brains of mice to study its effect on Fzd3.Result:Lrg1−/−mice exhibited elevated cell adhesion proteins and decreased microvascular leakage after MCAO/R.CSOmap showed widened astrocyte spacing in thesemice.RSS revealed Zmiz1 overexpression inMCAO/R+Lrg1−/−mice.MCAO/R and pcDNA3-Zmiz1 transfection both enhanced luciferase activity with Fzd3,indicating Zmiz1 binding to Fzd3.Retroviral Zmiz1 injection or knockdown disrupted ischemic brain tight junctions,highlighting Zmiz1’s key role in blood-brain barrier protection,likely through Fzd3 pathway modulation.Conclusion:The findings indicate Lrg1 knockout induces endothelial differentiation by activating Zmiz1,which is crucial for maintaining blood-brain barrier function,possibly via modulating the Fzd3 pathway.
基金Supported by the Beijing University of Chinese Medicine Research and Innovation Team Project(No.2019-JYB-TD-08)Youth Science Fund Project of National Natural Science Foundation of China(No.81803906)。
文摘Mitophagy is one of the important targets for the prevention and treatment of myocardial ischemia/reperfusion injury(MIRI).Moderate mitophagy can remove damaged mitochondria,inhibit excessive reactive oxygen species accumulation,and protect mitochondria from damage.However,excessive enhancement of mitophagy greatly reduces adenosine triphosphate production and energy supply for cell survival,and aggravates cell death.How dysfunctional mitochondria are selectively recognized and engulfed is related to the interaction of adaptors on the mitochondrial membrane,which mainly include phosphatase and tensin homolog deleted on chromosome ten(PTEN)-induced kinase 1/Parkin,hypoxia-inducible factor-1α/Bcl-2 and adenovirus e1b19k Da interacting protein 3,FUN-14 domain containing protein 1 receptor-mediated mitophagy pathway and so on.In this review,the authors briefly summarize the main pathways currently studied on mitophagy and the relationship between mitophagy and MIRI,and incorporate and analyze research data on prevention and treatment of MIRI with Chinese medicine,thereby provide relevant theoretical basis and treatment ideas for clinical prevention of MIRI.
基金supported by research grants from theMajor State Basic ResearchDevelopment Program(973 Program)(grant number 2012CB518900)the National Natural Science Foundation of China(grant numbers 31230005,31270206,31200134,and 81171525)+1 种基金the National Mega Project on Major Infectious Disease Prevention(grant numbers 2012ZX10002006-003 and 2012ZX10004-207)the Chinese Foundation for Hepatitis Prevention and Control(grant number CFHPC20132153).
文摘HepatitisBvirus(HBV)infection causes acuteand chronic liver diseases,but is not directly cytopathic.Liver injury results fromrepeated attempts of the cellular immune response system to control the viral infection.Here,we investigate the roles of cellular factors and signaling pathways involved in the regulation of HBV replication to reveal the mechanism underlying HBV infection and pathogenesis.Weshowthat collagen triple helix repeat containing 1(CTHRC1)expression is elevated in HBV-infected patients andin HBV-transfected cells through epigenetic modification and transcriptional regulation.CTHRC1 facilitates HBV replication in cultured cells and BALB/c mice by activating the PKCa/ERK/JNK/c-Jun cascade to repress the IFN/JAK/STAT pathway.HBV-activated CTHRC1 downregulates the activityof typeI interferon(IFN),theproductionof IFN-stimulatedgenes(ISGs),andthephosphorylationofsignal transducerandactivator of transcription 1/2(STAT1/2),whereas it upregulates the phosphorylation and ubiquitination of type I IFN receptors(IFNARa/b).Thus,our results showthat HBV uses a novelmechanismto hijack cellular factors and signal cascades in order to evade host antiviral immunity and maintain persistent infection.We also demonstrate that CTHRC1 has a novel role in viral infection.
基金supported by the Taishan Scholars Program of Shandong Province(No.tsqn201909141)the National Natural Science Foundation of China(Nos.81502736 and 81874244)+1 种基金the Clinical Innovation Project of Jinan,Shandong Provincial Key Research and Development Program(No.2019RKC03002)Shandong Provincial Youth Science and Technology Talents Support Plan,and the Academic promotion program of Shandong First Medical University.
文摘Objective:The zinc finger,MIZ-type containing 1(ZMIZ1)gene has been identified as a possible susceptibility gene associated with vitiligo,therefore we conducted this study to investigate the role ofZMIZ1 in pigmentation.Methods:We generate a zebrafish loss-of-function model using morpholino oligonucleotides(MOs),and two orthologs of humanZMIZ1 have been annotated(ZMIZ1a andZMIZ1b).The expression profiles of ZMIZ1a and ZMIZ1b and their effects on the pigmentation in zebrafish were evaluated by using whole-mount in situ hybridization and melanin quantification.Statistical analysis was performed using the unpaired Studentt-test or one-way analysis.Results:Investigation of the temporal and spatial expressions of these two transcripts suggested that the expressions ofZMIZ1a andZMIZ1b in the brain start to emerge in a ubiquitous fashion from 2 days post-fertilization onwards.After the successful design and validation of MOs,we observed thatZMIZ1a andZMIZ1b MOs caused embryonic developmental delays and malformations in zebrafish.Further analysis of the melanin content in the morphants revealed thatZMIZ1a significantly(49.1%for 0.667 mmol/L inZMIZI1a group,P=0.03)reduced the melanin content in a dose-dependent manner,but only the highest concentration of injectedZMIZ1b MOs significantly(50%for 0.667 mmol/L inZMIZ1b group,P=0.02)reduced the melanin content.A tyrosinase inhibition assay indicated no significant difference between the morphants and wild-type zebrafish.Conclusion:This study successfully modeled a susceptibility gene identified by genome-wide association studies in a zebrafish loss-of-function model and provides insights into the biological mechanism of pigmentation.
