NFAT5介导的CACNA1C表达对心脏电生理发育和成熟至关重要。
NFAT5-mediated CACNA1C expression is critical for cardiac electrophysiological development and maturation.
作者信息
Li Wei, Zheng Nai-Zhong, Yuan Qi, Xu Ke, Yang Fan, Gu Lei, Zheng Gu-Yan, Luo Guo-Jie, Fan Chun, Ji Guang-Ju, Zhang Bo, Cao Huiqing, Tian Xiao-Li
机构信息
Department of Human Population Genetics, Institute of Molecular Medicine, Peking University, 5 Yiheyuan Road, Beijing, 100871, China.
Key Laboratory of Cell Proliferation and Differentiation of the Ministry of Education, College of Life Sciences, Peking University, 5 Yiheyuan Road, Beijing, 100871, China.
出版信息
J Mol Med (Berl). 2016 Sep;94(9):993-1002. doi: 10.1007/s00109-016-1444-x. Epub 2016 Jul 1.
UNLABELLED
Entry of calcium into cardiomyocyte via L-type calcium channel (LTCC) is fundamental to cardiac contraction. CACNA1C, a type of LTCC and a hallmark of a matured ventricular myocyte, is developmentally regulated. Here, we identified 138 potential transcription factors by a comparative genomic study on 5-kb promoter regions of CACNA1C gene across eight vertebrate species, and showed that six factors were developmentally regulated with the expression of Cacna1c in mouse P19cl6 in vitro cardiomyocyte differentiation model. We further demonstrated that the nuclear factor of activated T cells 5 (Nfat5) bound to a consensus sequence TGGAAGCGTTC and activated the transcription of Cacna1c. The siRNA-mediated knockdown of Nfat5 suppressed the expression of Cacna1c and decreased L-type calcium current in mouse neonatal cardiomyocytes. Furthermore, morpholino-mediated knockdown of nfat5 in zebrafish prohibited the expression of cacna1c and resulted in a non-contractile ventricle, while over-expression of either cacna1c or nfat5 rescued this impaired phenotype. Thus, NFAT5-mediated expression of CACNA1C is evolutionarily conserved and critical for cardiac electrophysiological development and maturation of cardiomyocyte.
KEY MESSAGE
Nfat5 binds to a consensus sequence TGGAAGCGTTC in the promoter of Cacna1c. Nfat5 activates the transcription of Cacna1c. Nfat5 knockdown suppresses Cacna1c expression, decreases L-type calcium current, and results in non-beating ventricle. NFAT5-mediated expression of CACNA1C is evolutionarily conserved. NFAT5-mediated CACNA1C expression is critical for cardiac electrophysiological development and maturation.
未标记
钙离子通过L型钙通道(LTCC)进入心肌细胞是心脏收缩的基础。CACNA1C是LTCC的一种类型,也是成熟心室肌细胞的一个标志,其表达受发育调控。在这里,我们通过对八个脊椎动物物种的CACNA1C基因5 kb启动子区域进行比较基因组研究,鉴定出138个潜在转录因子,并表明在小鼠P19cl6体外心肌细胞分化模型中,有六个因子随Cacna1c的表达而受到发育调控。我们进一步证明,活化T细胞核因子5(Nfat5)与共有序列TGGAAGCGTTC结合并激活Cacna1c的转录。siRNA介导的Nfat5敲低抑制了Cacna1c的表达,并降低了小鼠新生心肌细胞中的L型钙电流。此外,吗啉代介导的斑马鱼nfat5敲低阻止了cacna1c的表达,并导致心室无收缩能力,而cacna1c或nfat5的过表达挽救了这种受损表型。因此,NFAT5介导的CACNA1C表达在进化上是保守的,对心肌细胞的心脏电生理发育和成熟至关重要。
关键信息
Nfat5与Cacna1c启动子中的共有序列TGGAAGCGTTC结合。Nfat5激活Cacna1c的转录。Nfat5敲低抑制Cacna1c表达,降低L型钙电流,并导致心室无搏动。NFAT5介导的CACNA1C表达在进化上是保守的。NFAT5介导的CACNA1C表达对心脏电生理发育和成熟至关重要。
Zotero 插件