Background:Platinum chemotherapy(CT)remains the backbone of systemic therapy for patients with smallcell lung cancer(SCLC).The nucleotide excision repair(NER)pathway plays a central role in the repair of the DNA damag...Background:Platinum chemotherapy(CT)remains the backbone of systemic therapy for patients with smallcell lung cancer(SCLC).The nucleotide excision repair(NER)pathway plays a central role in the repair of the DNA damage exerted by platinum agents.Alteration in this repair mechanism may affect patients’survival.Materials and Methods:We conducted a retrospective analysis of data from 38 patients with extensive disease(ED)-SCLC who underwent platinum-CT at the Clinical Oncology Unit,Careggi University Hospital,Florence(Italy),from 2015 to 2020.mRNA expression analysis and single nucleotide polymorphism(SNP)characterization of three NER pathway genes—namely ERCC1,ERCC2,and ERCC5—were performed on patient tumor samples.Results:Overall,elevated expression of ERCC genes was observed in SCLC patients compared to healthy controls.Patients with low ERCC1 and ERCC5 expression levels exhibited a better median progression-free survival(mPFS=7.1 vs.4.9 months,p=0.39 for ERCC1 and mPFS=6.9 vs.4.8 months,p=0.093 for ERCC5)and overall survival(mOS=8.7 vs.6.0 months,p=0.4 for ERCC1 and mOS=7.2 vs.6.2 months,p=0.13 for ERCC5).Genotyping analysis of five SNPs of ERCC genes showed a longer survival in patients harboring the wild-type genotype or the heterozygous variant of the ERCC1 rs11615 SNP(p=0.24 for PFS and p=0.14 for OS)and of the rs13181 and rs1799793 ERCC2 SNPs(p=0.43 and p=0.26 for PFS and p=0.21 and p=0.16 for OS,respectively)compared to patients with homozygous mutant genotypes.Conclusions:The comprehensive analysis of ERCC gene expression and SNP variants appears to identify patients who derive greater survival benefits from platinum-CT.展开更多
BACKGROUND Transforming growth factor-β(TGF-β)superfamily plays an important role in tumor progression and metastasis.Activin A receptor type 1C(ACVR1C)is a TGF-βtype I receptor that is involved in tumorigenesis th...BACKGROUND Transforming growth factor-β(TGF-β)superfamily plays an important role in tumor progression and metastasis.Activin A receptor type 1C(ACVR1C)is a TGF-βtype I receptor that is involved in tumorigenesis through binding to dif-ferent ligands.AIM To evaluate the correlation between single nucleotide polymorphisms(SNPs)of ACVR1C and susceptibility to esophageal squamous cell carcinoma(ESCC)in Chinese Han population.METHODS In this hospital-based cohort study,1043 ESCC patients and 1143 healthy controls were enrolled.Five SNPs(rs4664229,rs4556933,rs77886248,rs77263459,rs6734630)of ACVR1C were assessed by the ligation detection reaction method.Hardy-Weinberg equilibrium test,genetic model analysis,stratified analysis,linkage disequi-librium test,and haplotype analysis were conducted.RESULTS Participants carrying ACVR1C rs4556933 GA mutant had significantly decreased risk of ESCC,and those with rs77886248 TA mutant were related with higher risk,especially in older male smokers.In the haplotype analysis,ACVR1C Trs4664229Ars4556933Trs77886248Crs77263459Ars6734630 increased risk of ESCC,while Trs4664229Grs4556933Trs77886248Crs77263459Ars6734630 was associated with lower susceptibility to ESCC.CONCLUSION ACVR1C rs4556933 and rs77886248 SNPs were associated with the susceptibility to ESCC,which could provide a potential target for early diagnosis and treatment of ESCC in Chinese Han population.展开更多
Subtropical evergreen broad-leaved trees are usually vulnerable to freezing stress,while hexaploid wild Camellia oleifera shows strong freezing tolerance.As a valuable genetic resource of woody oil crop C.oleifera,wil...Subtropical evergreen broad-leaved trees are usually vulnerable to freezing stress,while hexaploid wild Camellia oleifera shows strong freezing tolerance.As a valuable genetic resource of woody oil crop C.oleifera,wild C.oleifera can serve as a case for studying the molecular bases of adaptive evolution to freezing stress.Here,47 wild C.oleifera from 11 natural distribution sites in China and 4 relative species of C.oleifera were selected for genome sequencing.“Min Temperature of Coldest Month”(BIO6)had the highest comprehensive contribution to wild C.oleifera distribution.The population genetic structure of wild C.oleifera could be divided into two groups:in cold winter(BIO6≤0℃)and warm winter(BIO6>0℃)areas.Wild C.oleifera in cold winter areas might have experienced stronger selection pressures and population bottlenecks with lower N_(e) than those in warm winter areas.155 singlenucleotide polymorphisms(SNPs)were significantly correlated with the key bioclimatic variables(106 SNPs significantly correlated with BIO6).Twenty key SNPs and 15 key copy number variation regions(CNVRs)were found with genotype differentiation>50%between the two groups of wild C.oleifera.Key SNPs in cis-regulatory elements might affect the expression of key genes associated with freezing tolerance,and they were also found within a CNVR suggesting interactions between them.Some key CNVRs in the exon regions were closely related to the differentially expressed genes under freezing stress.The findings suggest that rich SNPs and CNVRs in polyploid trees may contribute to the adaptive evolution to freezing stress.展开更多
BACKGROUND Fluoropyrimidines are metabolized in the liver by the enzyme dihydropyrimidine dehydrogenase(DPD),encoded by the DPYD gene.About 7%of the European population is a carrier of DPYD gene polymorphisms associat...BACKGROUND Fluoropyrimidines are metabolized in the liver by the enzyme dihydropyrimidine dehydrogenase(DPD),encoded by the DPYD gene.About 7%of the European population is a carrier of DPYD gene polymorphisms associated with reduced DPD enzyme activity.AIM To assess the prevalence of DPYD polymorphisms and their impact on fluoropyrimidine tolerability in Italian patients with gastrointestinal malignancies.METHODS A total of 300 consecutive patients with a diagnosis of gastrointestinal malignancy and treated with a fluoropyrimidine-based regimen were included in the analysis and divided into two cohorts:(1)149 patients who started fluoropyrimidines after DPYD testing;and(2)151 patients treated without DPYD testing.Among the patients in cohort A,15%tested only the DPYD2A polymorphism,19%tested four polymorphisms(DPYD2A,HapB3,c.2846A>T,and DPYD13),and 66%tested five polymorphisms including DPYD6.RESULTS Overall,14.8%of patients were found to be carriers of a DPYD variant,the most common being DPYD6(12.1%).Patients in cohort A reported≥G3 toxicities(P=0.00098),particularly fewer nonhematological toxicities(P=0.0028)compared with cohort B,whereas there was no statistically significant difference between the two cohorts in hematological toxicities(P=0.6944).Significantly fewer chemotherapy dose reductions(P=0.00002)were observed in cohort A compared to cohort B,whereas there was no statistically significant differences in chemotherapy delay.CONCLUSION Although this study had a limited sample size,it provides additional information on the prevalence of DPYD polymorphisms in the Italian population and highlights the role of pharmacogenetic testing to prevent severe toxicity.展开更多
Methylenetetrahydrofolate reductase(MTHFR)is a key enzyme in folate metabolism.Its genetic polymorphisms affect the metabolism of methyl donors,including folate and betaine,and are consequently associated with the dev...Methylenetetrahydrofolate reductase(MTHFR)is a key enzyme in folate metabolism.Its genetic polymorphisms affect the metabolism of methyl donors,including folate and betaine,and are consequently associated with the development of various chronic diseases such as stroke and neoplasms.Methods This umbrella review,covering the period from 2006 to 2025,searched PubMed,Embase,Web of Science,Medline,CNKI,WanFang,and Cochrane Library databases for published systematic reviews and meta-analyses of polymorphisms relating to the MTHFR C677T and A1298C gene polymorphisms and various chronic diseases.Subsequently,this study assessed methodological quality with AMSTAR-2,while the strength of evidence for each outcome was graded according to the GRADE and the credibility evaluation.This umbrella review included 39 studies related to 8 diseases classified according to the ICD-10 classification.Results Overall,C677T exhibited a positive correlation with depression(allele:OR=1.18,95%CI:1.13-1.24;dominant:OR=1.16,95%CI:1.09-1.23;recessive:OR=1.42,95%CI:1.30-1.56;homozygote:OR=1.48,95%CI:1.34-1.63),and polycystic ovary syndrome(allele:OR=1.35,95%CI:1.24-1.46;dominant:OR=1.46,95%CI:1.30-1.64;recessive:OR=1.39,95%CI:1.19-1.62;homozygote:OR=1.63,95%CI:1.38-1.93),and exhibited a negative correlation with oral cancer(allele:OR=0.24,95%CI:0.22-0.26;dominant:OR=0.14,95%CI:0.12-0.16;recessive:OR=0.31,95%CI:0.28-0.35;homozygote:OR=0.14,95%CI:0.12-0.16).A1298C was positively associated with polycystic ovary syndrome in four models(allele:OR=1.93,95%CI:1.67-2.21;dominant:OR=1.93,95%CI:1.64-2.27;recessive:OR=3.72,95%CI:2.47-5.61;homozygote:OR=4.38,95%CI:2.90-6.62).Conclusion The MTHFR C677T and A1298C gene polymorphisms demonstrated significant associations with non-communicable diseases,thereby contributing to the advancement of precision medicine.展开更多
BACKGROUND There are conflicting results on the potential correlation between folic acid and gestational diabetes mellitus(GDM),and the correlation between genetic factors related to folic acid metabolism pathways and...BACKGROUND There are conflicting results on the potential correlation between folic acid and gestational diabetes mellitus(GDM),and the correlation between genetic factors related to folic acid metabolism pathways and GDM remains to be revealed.AIM To examine the association between single-nucleotide polymorphisms(SNPs)of enzyme genes in the folate metabolite pathway as well as that between GDM-related genes and risk for GDM.METHODS A nested case-control study was conducted with GDM cases(n=412)and healthy controls(n=412).DNA was extracted blood samples and SNPs were genotyped using Agena Bioscience’s MassARRAY gene mass spectrometry system.The associations between different SNPs of genes and the risk for GDM were estimated using logistic regression models.The generalized multi-factor dimensionality reduction(GMDR)method was used to analyze gene-gene and gene-environment interactions using the GMDR 0.9 software.RESULTS The variation allele frequency of melatonin receptor 1B(MTNR1B)rs10830963 was higher in the GDM group than in controls(P<0.05).MTNR1B rs10830963 mutant G was associated with risk for GDM[adjusted odds ratio(aOR):1.43;95%confidence interval(95%CI):1.13-1.80]in the additive model.MTNR1B rs10830963 GG+GC was significantly associated with the risk for GDM(aOR:1.65;95%CI:1.23-2.22)in the dominant model.The two-locus model of MTNR1B rs10830963 and CHEMERIN rs4721 was the best model(P<0.05)for gene-gene interactions in the GMDR results.The high-risk rs10830963×rs4721 type of interaction was a risk factor for GDM(aOR:2.09;95%CI:1.49-2.93).CONCLUSION This study does not find an association between SNPs of folate metabolic enzymes and risk for GDM.The G mutant allele of MTNR1B rs10830963 is identified as a risk factor for GDM in the additive model,and there may be gene-gene interactions between MTNR1B rs10830963 and CHEMERIN rs4721.It is conducive to studying the causes of GDM and provides a new perspective for the precise prevention of this disease.展开更多
Kawasaki disease(KD)is a systemic vasculitis primarily affecting children,and represents a major cause of acquired heart disease in this population.Although the etiology of KD remains incompletely understood,existing ...Kawasaki disease(KD)is a systemic vasculitis primarily affecting children,and represents a major cause of acquired heart disease in this population.Although the etiology of KD remains incompletely understood,existing genome-wide association studies and genome-wide linkage studies have uncovered various susceptibility genes and their associated chromosomal regions as closely related to the onset and progression of KD.With the rapid advancement of high-throughput DNA sequencing technology,an increasing amount of genomic information pertinent to KD has been discovered,offering new perspectives to investigate the pathogenesis of KD.In particular,genetic polymorphisms play a pivotal role in the immune response,coronary artery lesions,and treatment responsiveness in KD,providing fresh insights into optimizing diagnostic and therapeutic strategies.This article aimed to review and summarize the crucial role of genetic polymorphisms in the pathogenesis of KD,analyze the latest advancements in current research,and discuss the potential applications of gene polymorphism studies in the future diagnosis and treatment of KD.展开更多
BACKGROUND Depression is a disease with a significant global social burden.Single nucleotide polymorphisms(SNPs)are correlated with the development of depression.This study investigates the relationship between polymo...BACKGROUND Depression is a disease with a significant global social burden.Single nucleotide polymorphisms(SNPs)are correlated with the development of depression.This study investigates the relationship between polymorphisms in the GPHN and ATP6V1D gene promoter regions and susceptibility to depression in the Chinese population.AIM To provide new insights into identifying SNPs for predicting depression in the Chinese population.METHODS We conducted a case-control study involving 555 individuals with depression and 509 healthy controls.GPHN rs8020095 and ATP6V1D rs3759755,rs10144417,rs2031564,and rs8016024 in the promoter region were genotyped using nextgeneration sequencing.Dual luciferase reporter genes were employed to assess the transcriptional activity of promoter regions for each SNP genotype,with transcription factors binding to each site predicted using the JASPAR database.RESULTS Compared to healthy controls,the ATP6V1D promoter rs10144417 AG genotype (P = 0.015), rs3759755 AC/CC genotype (P = 0.036), and GPHN gene rs8020095 GA and AA genotypes (GA: P =0.028, GG: P = 0.025) were significantly associated with a lower prevalence of depression. Linked disequilibria werepresent in five SNPs, with the AGATA haplotype frequency in patients significantly lower than in healthy subjects(P = 0.023). Luciferase activity of the rs3759755-A recombinant plasmid was significantly higher than that of thers3759755-C recombinant plasmid (P = 0.026), and the rs8020095-A recombinant plasmid activity was significantlyhigher than that of the rs8020095-G recombinant plasmid (P = 0.001). Transcription factors orthodenticle homeobox2, orthodenticle homeobox 1, forkhead box L1, NK homeobox 3-1, and nuclear factor, interleukin 3 regulateddemonstrated binding affinity with rs3759755A > C and rs8020095A > G.CONCLUSIONThis study demonstrates that SNPs (rs3759755 and rs10144417) in the promoter region of the ATP6V1D and SNP(rs8020095) of GPHN are indeed associated with susceptibility to depression.展开更多
Hepatitis B virus remains a major cause of cirrhosis and hepatocellular carcinoma,with genetic polymorphisms and mutations influencing immune responses and disease progression.Nguyen et al present novel findings on sp...Hepatitis B virus remains a major cause of cirrhosis and hepatocellular carcinoma,with genetic polymorphisms and mutations influencing immune responses and disease progression.Nguyen et al present novel findings on specific human leukocyte antigen(HLA)alleles,including rs2856718 of HLA-DQ and rs3077 and rs9277535 of HLA-DP,which may predispose individuals to cirrhosis and liver cancer,based on multi-clustering analysis.Here,we discuss the feasibility of this approach and identify key areas for further investigation,aiming to offer insights for advancing clinical practice and research in liver disease and related cancers.展开更多
With completion of the Populus genome sequencing project and the availability of many expressed sequence tags (ESTs) databases in forest trees, attention is now rapidly shifting towards the study of individual genet...With completion of the Populus genome sequencing project and the availability of many expressed sequence tags (ESTs) databases in forest trees, attention is now rapidly shifting towards the study of individual genetic variation in natural populations. The most abundant form of genetic variation in many eukaryotic species is represented by single nucleotide polymorphisms (SNPs), which can account for heritable inter-individual differences in complex phenotypes. Unlike humans, the linkage disequilibrium (LD) rapidly decays within candidate genes in forest trees. Thus, SNPs-based candidate gene association studies are considered to be a most effective approach to dissect the complex quantitative traits in forest trees. The present study demonstrates that LD mapping can be used to identify alleles associated with quantitative traits and suggests that this new approach could be particularly useful for performing breeding programs in forest trees. In this review, we will describe the fundamentals, patterns of SNPs distribution and frequency, summarize recent advances in SNPs discovery and LD and comment on the application of LD in the dissection of complex quantitative traits in forest tress. We also put forward the outlook for future SNPs-based association analysis of quantitative traits in forest trees.展开更多
文摘Background:Platinum chemotherapy(CT)remains the backbone of systemic therapy for patients with smallcell lung cancer(SCLC).The nucleotide excision repair(NER)pathway plays a central role in the repair of the DNA damage exerted by platinum agents.Alteration in this repair mechanism may affect patients’survival.Materials and Methods:We conducted a retrospective analysis of data from 38 patients with extensive disease(ED)-SCLC who underwent platinum-CT at the Clinical Oncology Unit,Careggi University Hospital,Florence(Italy),from 2015 to 2020.mRNA expression analysis and single nucleotide polymorphism(SNP)characterization of three NER pathway genes—namely ERCC1,ERCC2,and ERCC5—were performed on patient tumor samples.Results:Overall,elevated expression of ERCC genes was observed in SCLC patients compared to healthy controls.Patients with low ERCC1 and ERCC5 expression levels exhibited a better median progression-free survival(mPFS=7.1 vs.4.9 months,p=0.39 for ERCC1 and mPFS=6.9 vs.4.8 months,p=0.093 for ERCC5)and overall survival(mOS=8.7 vs.6.0 months,p=0.4 for ERCC1 and mOS=7.2 vs.6.2 months,p=0.13 for ERCC5).Genotyping analysis of five SNPs of ERCC genes showed a longer survival in patients harboring the wild-type genotype or the heterozygous variant of the ERCC1 rs11615 SNP(p=0.24 for PFS and p=0.14 for OS)and of the rs13181 and rs1799793 ERCC2 SNPs(p=0.43 and p=0.26 for PFS and p=0.21 and p=0.16 for OS,respectively)compared to patients with homozygous mutant genotypes.Conclusions:The comprehensive analysis of ERCC gene expression and SNP variants appears to identify patients who derive greater survival benefits from platinum-CT.
基金Supported by The National Natural Science Foundation of China,No.82350127 and No.82241013the Shanghai Natural Science Foundation,No.20ZR1411600+2 种基金the Shanghai Shenkang Hospital Development Center,No.SHDC2020CR4039the Bethune Ethicon Excellent Surgery Foundation,No.CESS2021TC04Xuhui District Medical Research Project of Shanghai,No.SHXH201805.
文摘BACKGROUND Transforming growth factor-β(TGF-β)superfamily plays an important role in tumor progression and metastasis.Activin A receptor type 1C(ACVR1C)is a TGF-βtype I receptor that is involved in tumorigenesis through binding to dif-ferent ligands.AIM To evaluate the correlation between single nucleotide polymorphisms(SNPs)of ACVR1C and susceptibility to esophageal squamous cell carcinoma(ESCC)in Chinese Han population.METHODS In this hospital-based cohort study,1043 ESCC patients and 1143 healthy controls were enrolled.Five SNPs(rs4664229,rs4556933,rs77886248,rs77263459,rs6734630)of ACVR1C were assessed by the ligation detection reaction method.Hardy-Weinberg equilibrium test,genetic model analysis,stratified analysis,linkage disequi-librium test,and haplotype analysis were conducted.RESULTS Participants carrying ACVR1C rs4556933 GA mutant had significantly decreased risk of ESCC,and those with rs77886248 TA mutant were related with higher risk,especially in older male smokers.In the haplotype analysis,ACVR1C Trs4664229Ars4556933Trs77886248Crs77263459Ars6734630 increased risk of ESCC,while Trs4664229Grs4556933Trs77886248Crs77263459Ars6734630 was associated with lower susceptibility to ESCC.CONCLUSION ACVR1C rs4556933 and rs77886248 SNPs were associated with the susceptibility to ESCC,which could provide a potential target for early diagnosis and treatment of ESCC in Chinese Han population.
基金funded by the National Natural Science Foundation of China(grant no.32270238 and 31870311).
文摘Subtropical evergreen broad-leaved trees are usually vulnerable to freezing stress,while hexaploid wild Camellia oleifera shows strong freezing tolerance.As a valuable genetic resource of woody oil crop C.oleifera,wild C.oleifera can serve as a case for studying the molecular bases of adaptive evolution to freezing stress.Here,47 wild C.oleifera from 11 natural distribution sites in China and 4 relative species of C.oleifera were selected for genome sequencing.“Min Temperature of Coldest Month”(BIO6)had the highest comprehensive contribution to wild C.oleifera distribution.The population genetic structure of wild C.oleifera could be divided into two groups:in cold winter(BIO6≤0℃)and warm winter(BIO6>0℃)areas.Wild C.oleifera in cold winter areas might have experienced stronger selection pressures and population bottlenecks with lower N_(e) than those in warm winter areas.155 singlenucleotide polymorphisms(SNPs)were significantly correlated with the key bioclimatic variables(106 SNPs significantly correlated with BIO6).Twenty key SNPs and 15 key copy number variation regions(CNVRs)were found with genotype differentiation>50%between the two groups of wild C.oleifera.Key SNPs in cis-regulatory elements might affect the expression of key genes associated with freezing tolerance,and they were also found within a CNVR suggesting interactions between them.Some key CNVRs in the exon regions were closely related to the differentially expressed genes under freezing stress.The findings suggest that rich SNPs and CNVRs in polyploid trees may contribute to the adaptive evolution to freezing stress.
文摘BACKGROUND Fluoropyrimidines are metabolized in the liver by the enzyme dihydropyrimidine dehydrogenase(DPD),encoded by the DPYD gene.About 7%of the European population is a carrier of DPYD gene polymorphisms associated with reduced DPD enzyme activity.AIM To assess the prevalence of DPYD polymorphisms and their impact on fluoropyrimidine tolerability in Italian patients with gastrointestinal malignancies.METHODS A total of 300 consecutive patients with a diagnosis of gastrointestinal malignancy and treated with a fluoropyrimidine-based regimen were included in the analysis and divided into two cohorts:(1)149 patients who started fluoropyrimidines after DPYD testing;and(2)151 patients treated without DPYD testing.Among the patients in cohort A,15%tested only the DPYD2A polymorphism,19%tested four polymorphisms(DPYD2A,HapB3,c.2846A>T,and DPYD13),and 66%tested five polymorphisms including DPYD6.RESULTS Overall,14.8%of patients were found to be carriers of a DPYD variant,the most common being DPYD6(12.1%).Patients in cohort A reported≥G3 toxicities(P=0.00098),particularly fewer nonhematological toxicities(P=0.0028)compared with cohort B,whereas there was no statistically significant difference between the two cohorts in hematological toxicities(P=0.6944).Significantly fewer chemotherapy dose reductions(P=0.00002)were observed in cohort A compared to cohort B,whereas there was no statistically significant differences in chemotherapy delay.CONCLUSION Although this study had a limited sample size,it provides additional information on the prevalence of DPYD polymorphisms in the Italian population and highlights the role of pharmacogenetic testing to prevent severe toxicity.
文摘Methylenetetrahydrofolate reductase(MTHFR)is a key enzyme in folate metabolism.Its genetic polymorphisms affect the metabolism of methyl donors,including folate and betaine,and are consequently associated with the development of various chronic diseases such as stroke and neoplasms.Methods This umbrella review,covering the period from 2006 to 2025,searched PubMed,Embase,Web of Science,Medline,CNKI,WanFang,and Cochrane Library databases for published systematic reviews and meta-analyses of polymorphisms relating to the MTHFR C677T and A1298C gene polymorphisms and various chronic diseases.Subsequently,this study assessed methodological quality with AMSTAR-2,while the strength of evidence for each outcome was graded according to the GRADE and the credibility evaluation.This umbrella review included 39 studies related to 8 diseases classified according to the ICD-10 classification.Results Overall,C677T exhibited a positive correlation with depression(allele:OR=1.18,95%CI:1.13-1.24;dominant:OR=1.16,95%CI:1.09-1.23;recessive:OR=1.42,95%CI:1.30-1.56;homozygote:OR=1.48,95%CI:1.34-1.63),and polycystic ovary syndrome(allele:OR=1.35,95%CI:1.24-1.46;dominant:OR=1.46,95%CI:1.30-1.64;recessive:OR=1.39,95%CI:1.19-1.62;homozygote:OR=1.63,95%CI:1.38-1.93),and exhibited a negative correlation with oral cancer(allele:OR=0.24,95%CI:0.22-0.26;dominant:OR=0.14,95%CI:0.12-0.16;recessive:OR=0.31,95%CI:0.28-0.35;homozygote:OR=0.14,95%CI:0.12-0.16).A1298C was positively associated with polycystic ovary syndrome in four models(allele:OR=1.93,95%CI:1.67-2.21;dominant:OR=1.93,95%CI:1.64-2.27;recessive:OR=3.72,95%CI:2.47-5.61;homozygote:OR=4.38,95%CI:2.90-6.62).Conclusion The MTHFR C677T and A1298C gene polymorphisms demonstrated significant associations with non-communicable diseases,thereby contributing to the advancement of precision medicine.
基金Supported by the National Key Research and Development Program of China,No.2021YFC2700700 and No.2021YFC2700704Capital’s Funds for Health Improvement and Research(CFH)in People’s Republic of China,No.2020-1-5112.
文摘BACKGROUND There are conflicting results on the potential correlation between folic acid and gestational diabetes mellitus(GDM),and the correlation between genetic factors related to folic acid metabolism pathways and GDM remains to be revealed.AIM To examine the association between single-nucleotide polymorphisms(SNPs)of enzyme genes in the folate metabolite pathway as well as that between GDM-related genes and risk for GDM.METHODS A nested case-control study was conducted with GDM cases(n=412)and healthy controls(n=412).DNA was extracted blood samples and SNPs were genotyped using Agena Bioscience’s MassARRAY gene mass spectrometry system.The associations between different SNPs of genes and the risk for GDM were estimated using logistic regression models.The generalized multi-factor dimensionality reduction(GMDR)method was used to analyze gene-gene and gene-environment interactions using the GMDR 0.9 software.RESULTS The variation allele frequency of melatonin receptor 1B(MTNR1B)rs10830963 was higher in the GDM group than in controls(P<0.05).MTNR1B rs10830963 mutant G was associated with risk for GDM[adjusted odds ratio(aOR):1.43;95%confidence interval(95%CI):1.13-1.80]in the additive model.MTNR1B rs10830963 GG+GC was significantly associated with the risk for GDM(aOR:1.65;95%CI:1.23-2.22)in the dominant model.The two-locus model of MTNR1B rs10830963 and CHEMERIN rs4721 was the best model(P<0.05)for gene-gene interactions in the GMDR results.The high-risk rs10830963×rs4721 type of interaction was a risk factor for GDM(aOR:2.09;95%CI:1.49-2.93).CONCLUSION This study does not find an association between SNPs of folate metabolic enzymes and risk for GDM.The G mutant allele of MTNR1B rs10830963 is identified as a risk factor for GDM in the additive model,and there may be gene-gene interactions between MTNR1B rs10830963 and CHEMERIN rs4721.It is conducive to studying the causes of GDM and provides a new perspective for the precise prevention of this disease.
文摘Kawasaki disease(KD)is a systemic vasculitis primarily affecting children,and represents a major cause of acquired heart disease in this population.Although the etiology of KD remains incompletely understood,existing genome-wide association studies and genome-wide linkage studies have uncovered various susceptibility genes and their associated chromosomal regions as closely related to the onset and progression of KD.With the rapid advancement of high-throughput DNA sequencing technology,an increasing amount of genomic information pertinent to KD has been discovered,offering new perspectives to investigate the pathogenesis of KD.In particular,genetic polymorphisms play a pivotal role in the immune response,coronary artery lesions,and treatment responsiveness in KD,providing fresh insights into optimizing diagnostic and therapeutic strategies.This article aimed to review and summarize the crucial role of genetic polymorphisms in the pathogenesis of KD,analyze the latest advancements in current research,and discuss the potential applications of gene polymorphism studies in the future diagnosis and treatment of KD.
基金Supported by the Natural Science Foundation of Sichuan,China,No.2022NSFSC0778Research Project Foundation of Sichuan Applied Psychology Research Center,No.CSXL-24202+1 种基金Foundation of Sichuan Clinical Research Center for Geriatrics,No.24LHLNYX1-04 and No.24LHLNYX1-06and the Key Laboratory Foundation for Development and Regeneration of Sichuan Province,No.24LHFYSZ1-25.
文摘BACKGROUND Depression is a disease with a significant global social burden.Single nucleotide polymorphisms(SNPs)are correlated with the development of depression.This study investigates the relationship between polymorphisms in the GPHN and ATP6V1D gene promoter regions and susceptibility to depression in the Chinese population.AIM To provide new insights into identifying SNPs for predicting depression in the Chinese population.METHODS We conducted a case-control study involving 555 individuals with depression and 509 healthy controls.GPHN rs8020095 and ATP6V1D rs3759755,rs10144417,rs2031564,and rs8016024 in the promoter region were genotyped using nextgeneration sequencing.Dual luciferase reporter genes were employed to assess the transcriptional activity of promoter regions for each SNP genotype,with transcription factors binding to each site predicted using the JASPAR database.RESULTS Compared to healthy controls,the ATP6V1D promoter rs10144417 AG genotype (P = 0.015), rs3759755 AC/CC genotype (P = 0.036), and GPHN gene rs8020095 GA and AA genotypes (GA: P =0.028, GG: P = 0.025) were significantly associated with a lower prevalence of depression. Linked disequilibria werepresent in five SNPs, with the AGATA haplotype frequency in patients significantly lower than in healthy subjects(P = 0.023). Luciferase activity of the rs3759755-A recombinant plasmid was significantly higher than that of thers3759755-C recombinant plasmid (P = 0.026), and the rs8020095-A recombinant plasmid activity was significantlyhigher than that of the rs8020095-G recombinant plasmid (P = 0.001). Transcription factors orthodenticle homeobox2, orthodenticle homeobox 1, forkhead box L1, NK homeobox 3-1, and nuclear factor, interleukin 3 regulateddemonstrated binding affinity with rs3759755A > C and rs8020095A > G.CONCLUSIONThis study demonstrates that SNPs (rs3759755 and rs10144417) in the promoter region of the ATP6V1D and SNP(rs8020095) of GPHN are indeed associated with susceptibility to depression.
基金Supported by National Natural Science Foundation of China,No.32270768,No.82273970,No.32070726,and No.82370715National Key R&D Program of China,No.2023YFC2507904the Innovation Group Project of Hubei Province,No.2023AFA026.
文摘Hepatitis B virus remains a major cause of cirrhosis and hepatocellular carcinoma,with genetic polymorphisms and mutations influencing immune responses and disease progression.Nguyen et al present novel findings on specific human leukocyte antigen(HLA)alleles,including rs2856718 of HLA-DQ and rs3077 and rs9277535 of HLA-DP,which may predispose individuals to cirrhosis and liver cancer,based on multi-clustering analysis.Here,we discuss the feasibility of this approach and identify key areas for further investigation,aiming to offer insights for advancing clinical practice and research in liver disease and related cancers.
文摘With completion of the Populus genome sequencing project and the availability of many expressed sequence tags (ESTs) databases in forest trees, attention is now rapidly shifting towards the study of individual genetic variation in natural populations. The most abundant form of genetic variation in many eukaryotic species is represented by single nucleotide polymorphisms (SNPs), which can account for heritable inter-individual differences in complex phenotypes. Unlike humans, the linkage disequilibrium (LD) rapidly decays within candidate genes in forest trees. Thus, SNPs-based candidate gene association studies are considered to be a most effective approach to dissect the complex quantitative traits in forest trees. The present study demonstrates that LD mapping can be used to identify alleles associated with quantitative traits and suggests that this new approach could be particularly useful for performing breeding programs in forest trees. In this review, we will describe the fundamentals, patterns of SNPs distribution and frequency, summarize recent advances in SNPs discovery and LD and comment on the application of LD in the dissection of complex quantitative traits in forest tress. We also put forward the outlook for future SNPs-based association analysis of quantitative traits in forest trees.
