人类单纯性先天性心脏病中TBX5基因的突变及表达研究

本文首次较为完整地报道了藏汉通婚子代群体的14项肤纹参数（其中藏父汉思及汉父藏母各100 例）,并将这些肤纹参数分别与其藏汉父母样本的有关肤纹参数进行比较,再与1000例藏族及1040例 汉族两个大样本的有关肤纹参数进行比较。结果表明：藏汉后代的肤纹特征介于藏族和汉族之间,提示 肤纹参数的多因子遗传本质。     

单纯性先天性心脏病中TBX5基因表达异常的机制

为探讨人类单纯性先天性心脏病患者中TBX5基因表达下调的可能原因, 应用变性高效液相色谱(DHPLC)方法检测100例单纯性先天性心脏病患者中TBX5基因上游1 200 bp调控区的突变情况; 应用甲基化敏感性限制性内切酶(MS-RE)法检测50例单纯性先天性心脏病患者和5例非先天性心脏病患者心肌组织TBX5基因启动子区两个CpG岛(转录起始点上游-49~-188 bp和-247~-464 bp处)的甲基化情况; 应用P-match软件预测小鼠Tbx5基因上游转录因子Nkx2-5的结合位点, 构建Nkx2-5表达载体转染小鼠H9C2(2-1)心肌细胞, RT-PCR及Western blotting检测Tbx5基因表达, 凝胶阻滞实验(EMSA)验证Nkx2-5和Tbx5基因的作用。结果在100例单纯性先天性心脏病患者中, 未检测到TBX5基因上游1 200 bp调控区突变; 非先天性心脏病患者和单纯性先天性心脏病患者在两个CpG岛存在相同的甲基化; 小鼠Tbx5基因转录起始点上游-312~-315 bp可能存在Nkx2-5的结合位点, 转染Nkx2-5表达载体后Tbx5基因在mRNA及蛋白质水平均有表达增高趋势, Nkx2-5在体外可以与Tbx5基因上游-312~-315 bp序列相结合。以上结果提示TBX5基因调控区突变和两个CpG岛的甲基化不是单纯性先天性心脏病患者心肌组织中TBX5基因表达下调的原因, TBX5基因表达下调可能由于NKX2-5的表达异常引起。     

二氢叶酸还原酶基因在斑马鱼咽弓发育过程中作用的研究

叶酸缺乏可导致胚胎先天性发育异常,二氢叶酸还原酶是叶酸生物学作用通路中的关键因子,其功能阻抑将抑制叶酸生物学作用的发挥.咽弓是脊椎动物胚胎发育中头面部结构、心脏流出道等的共同前体.在模式生物斑马鱼中,利用基因表达阻抑以及过表达技术,探讨二氢叶酸还原酶基因(DHFR)在斑马鱼咽弓发育过程中的作用.石蜡切片以及软骨染色结果显示,DHFR表达阻抑导致斑马鱼咽弓以及腭发育明显异常,而DHFR过表达可部分挽救上述发育异常表型.TBX1和HAND2在咽弓发育中有重要作用.通过胚胎整体原位杂交以及Real-timePCR技术检测TBX1和HAND2表达水平.DHFR表达阻抑后TBX1和HAND2的表达降低,DHFR过表达可使TBX1和HAND2的表达增加.上述结果表明,DHFR在斑马鱼咽弓发育过程中扮演重要角色,DHFR通过影响TBX1和HAND2的表达而调控咽弓的形成和分化.     

Transcription factor protein interactomes reveal genetic determinants in heart disease

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Down‐regulation of miR‐10a‐5p in synoviocytes contributes to TBX5‐controlled joint inflammation

MicroRNAs are considered to play critical roles in the pathogenesis of human inflammatory arthritis, including rheumatoid arthritis (RA). The purpose of this study was to determine the relationship between miR‐10a‐5p and TBX5 in synoviocytes and evaluate their contribution to joint inflammation. The expression of miR‐10a‐5p and TBX5 in the synovium of RA and human synovial sarcoma cell line SW982 stimulated by IL‐1β was determined by RT‐qPCR and Western blotting. The direct interaction between miR‐10a‐5p and TBX5 3′UTR was determined by dual‐luciferase reporter assay in HeLa cells. Mimics and inhibitors of miR‐10a‐5p were transfected into SW982 cells. TBX5 was overexpressed by plasmid transfection or knocked down by RNAi. Proinflammatory cytokines and TLR3 and MMP13 expressions were determined by RT‐qPCR and Western blotting. Down‐regulated expression of miR‐10a‐5p and up‐regulation of TBX5 in human patients with RA were found compared to patients with OA. IL‐1β could reduce miR‐10a‐5p and increase TBX5 expression in SW982 cells in vitro. The direct target relationship between miR‐10a‐5p and 3′UTR of TBX5 was confirmed by luciferase reporter assay. Alterations of miR‐10‐5p after transfection with its mimic and inhibitor caused the related depression and re‐expression of TBX5 and inflammatory factors in SW982 cells. Overexpression of TBX5 after pCMV3‐TBX5 plasmid transfection significantly promoted the production of TLR3, MMP13 and various inflammatory cytokines, while this effect was rescued after knocking down of TBX5 with its specific siRNA. We conclude that miR‐10a‐5p in a relation with TBX5 regulates joint inflammation in arthritis, which would serve as a diagnostic and therapeutic target for RA treatment.     

Holt-Oram syndrome: a new mutation in the TBX5 gene in two unrelated families

Holt-Oram syndrome (HOS) is a specific developmental defect involving upper limb malformations and cardiac defects. Mutations in the TBX5 gene, located on chromosome 12q24.1, were demonstrated as the underlying molecular defect in several families with this disorder. We report on two unrelated families with HOS. Affected members of both families have the same truncation mutation in exon 5 of the TBX5 gene (Y136X). This mutation has not been reported before in HOS. The spectrum of defects is similar in both families, displaying an ASD, hypoplastic deltoid muscles and hypoplastic or absent thumbs extending to radial defects in one case. So far, only a single genotype-phenotype analysis in HOS has been done which is not sufficient to explain the high inter- and intrafamilial variability of expression. Our observation further supports that the position of the mutation in the TBX5 gene is related to the phenotype expression of HOS.     

Pathway analysis of genome-wide association study on serum prostate-specific antigen levels

The wide application of prostate-specific antigen (PSA) has contributed to the early diagnosis and improved management of prostate cancer (PCa). Accumulating evidence has suggested the involvement of genetic components in regulating serum PSA levels, and several single nucleotide polymorphisms (SNPs) have been identified by genome-wide association studies (GWASs). However, the GWASs' results have the limited power to identify the causal variants and pathways. After the quality control filters, a total of 330,540 genotyped SNPs from one GWAS with 657 PCa-free Caucasian males were included for the identify candidate causal SNPs and pathways (ICSNPathway) analysis. In addition, the genotype–phenotype association analysis has been conducted with the data from HapMap database. Overall, a total of four SNPs in three genes and six pathways were identified by ICSNPathway analysis, which in total provided three hypothetical mechanisms. First, CYP26B1 rs2241057 polymorphism (nonsynonymous coding) which leads to a Leu-to-Ser amino acid shift at position 264, was implicated in the pathways including meiosis, proximal/distal pattern formation, and M phase of meiotic cell cycle. Second, CLIC5 rs3734207 and rs11752816 polymorphisms (regulatory region) to the 2 iron, 2 sulfur cluster binding pathway through regulating expression levels of CLIC5 mRNA. Third, rs4819522 polymorphism (nonsynonymous coding) leads to a Thr-to-Met transition at position 350 of TBX1 and involves in the pathways about gland and endocrine system development. In summary, our results demonstrated four candidate SNPs in three genes (CYP26B1 rs2241057, CISD1 rs2251039, rs2590370, and TBX1 rs4819522 polymorphisms), which were involved in six potential pathways to influence serum PSA levels.     

Genetic analysis of the TBX1 gene promoter in indirect inguinal hernia

Inguinal hernia is a common disease, most cases of which are indirect inguinal hernia (IIH). Genetic factors play an important role for inguinal hernia. Increased incidences of inguinal hernia have been reported in patients with 22q11.2 microdeletion syndrome, which is mainly caused by TBX1 gene mutations. Thus, we hypothesized that altered TBX1 gene expression may contribute to IIH development. In this study, the human TBX1 gene promoter was genetically analyzed in children with IIH (n = 100) and ethnic-matched controls (n = 167). Functions of DNA sequence variants (DSVs) within the TBX1 gene promoter were examined in cultured human fibroblast cells. The results showed that two heterozygous DSVs were found, both of which were single nucleotide polymorphisms. One DSV, g.4248 C>T (rs41298629), was identified in a 2-year-old boy with right-sided IIH, but not in all controls, which significantly decreased TBX1 gene promoter activity. Another DSV, g.4199 C>T (rs41260844), was found in both IIH patients and controls with similar frequencies (P > 0.05), which did not affect TBX1 gene promoter activity. Collectively, our data suggested that the DSV within the TBX1 gene promoter may change TBX1 level, contributing to IIH development as a rare risk factor. Underlying molecular mechanisms need to be established.