一个涉及 Tbx5、Gata4 和 Nos3 的心内膜途径,对于房间隔的形成是必需的。
An endocardial pathway involving Tbx5, Gata4, and Nos3 required for atrial septum formation.
机构信息
Research Unit in Cardiac Growth and Differentiation and Molecular Biology Program, Université de Montréal, Montréal, QC, Canada H3C 3J7.
出版信息
Proc Natl Acad Sci U S A. 2010 Nov 9;107(45):19356-61. doi: 10.1073/pnas.0914888107. Epub 2010 Oct 25.
Abstract
In humans, septal defects are among the most prevalent congenital heart diseases, but their cellular and molecular origins are not fully understood. We report that transcription factor Tbx5 is present in a subpopulation of endocardial cells and that its deletion therein results in fully penetrant, dose-dependent atrial septal defects in mice. Increased apoptosis of endocardial cells lacking Tbx5, as well as neighboring TBX5-positive myocardial cells of the atrial septum through activation of endocardial NOS (Nos3), is the underlying mechanism of disease. Compound Tbx5 and Nos3 haploinsufficiency in mice worsens the cardiac phenotype. The data identify a pathway for endocardial cell survival and unravel a cell-autonomous role for Tbx5 therein. The finding that Nos3, a gene regulated by many congenital heart disease risk factors including stress and diabetes, interacts genetically with Tbx5 provides a molecular framework to understand gene-environment interaction in the setting of human birth defects.
摘要
在人类中,间隔缺损是最常见的先天性心脏病之一,但它们的细胞和分子起源尚不完全清楚。我们报告称,转录因子 Tbx5 存在于心内膜细胞的一个亚群中,其在心内膜细胞中的缺失会导致小鼠完全穿透、剂量依赖性的房间隔缺损。缺乏 Tbx5 的心内膜细胞以及房间隔中邻近的 TBX5 阳性心肌细胞通过激活心内膜 NOS(Nos3)导致细胞凋亡增加,这是疾病的潜在机制。在小鼠中复合 Tbx5 和 Nos3 半不足会使心脏表型恶化。这些数据确定了心内膜细胞存活的途径,并揭示了 Tbx5 在其中的自主细胞作用。发现 Nos3(一种受许多先天性心脏病风险因素(包括应激和糖尿病)调节的基因)与 Tbx5 发生遗传相互作用,为理解人类出生缺陷中基因-环境相互作用提供了分子框架。
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