Skaggs School of Pharmacy, UCSD, La Jolla, California 92093, USA.
J Clin Invest. 2011 Dec;121(12):4640-54. doi: 10.1172/JCI59472. Epub 2011 Nov 14.
Human mutations in or variants of TBX20 are associated with congenital heart disease, cardiomyopathy, and arrhythmias. To investigate whether cardiac disease in patients with these conditions results from an embryonic or ongoing requirement for Tbx20 in myocardium, we ablated Tbx20 specifically in adult cardiomyocytes in mice. This ablation resulted in the onset of severe cardiomyopathy accompanied by arrhythmias, with death ensuing within 1 to 2 weeks of Tbx20 ablation. Accounting for this dramatic phenotype, we identified molecular signatures that posit Tbx20 as a central integrator of a genetic program that maintains cardiomyocyte function in the adult heart. Expression of a number of genes encoding critical transcription factors, ion channels, and cytoskeletal/myofibrillar proteins was downregulated consequent to loss of Tbx20. Genome-wide ChIP analysis of Tbx20-binding regions in the adult heart revealed that many of these genes were direct downstream targets of Tbx20 and uncovered a previously undescribed DNA-binding site for Tbx20. Bioinformatics and in vivo functional analyses revealed a cohort of transcription factors that, working with Tbx20, integrated multiple environmental signals to maintain ion channel gene expression in the adult heart. Our data provide insight into the mechanisms by which mutations in TBX20 cause adult heart disease in humans.
人类 TBX20 的突变或变体与先天性心脏病、心肌病和心律失常有关。为了研究这些情况下的心脏疾病是否是由于心肌中 Tbx20 的胚胎或持续需求引起的,我们在小鼠的成年心肌细胞中特异性地敲除了 Tbx20。这种敲除导致严重的心肌病伴有心律失常,在 Tbx20 敲除后 1 至 2 周内死亡。考虑到这种明显的表型,我们确定了分子特征,这些特征将 Tbx20 定位为维持成年心脏心肌细胞功能的遗传程序的中央整合者。许多编码关键转录因子、离子通道和细胞骨架/肌原纤维蛋白的基因的表达因 Tbx20 的缺失而下调。对成年心脏中 Tbx20 结合区域的全基因组 ChIP 分析表明,其中许多基因是 Tbx20 的直接下游靶标,并揭示了 Tbx20 的一个以前未描述的 DNA 结合位点。生物信息学和体内功能分析揭示了一群转录因子,它们与 Tbx20 一起,整合多种环境信号来维持成年心脏中的离子通道基因表达。我们的数据提供了对 TBX20 突变导致人类成年心脏疾病的机制的深入了解。