点突变在鼠类中可模拟人类先天性心脏病,并诱导致病 Wnt 信号。
Point mutations in murine phenocopy human congenital heart disease and induce pathogenic Wnt signaling.
机构信息
The Jackson Laboratory, Bar Harbor, Maine, USA.
Australian Regenerative Medicine Institute, Monash University, Clayton, Australia.
出版信息
JCI Insight. 2017 Mar 23;2(6):e88271. doi: 10.1172/jci.insight.88271.
Abstract
Mutations in the gene are a main cause of congenital heart disease. Several studies have addressed the phenotypic consequences of disrupting the gene locus, although animal models to date failed to recapitulate the full spectrum of the human disease. Here, we describe a new point mutation murine model, akin to its human counterpart disease-generating mutation. Our model fully reproduces the morphological and physiological clinical presentations of the disease and reveals an understudied aspect of -driven pathology, a primary right ventricular dysfunction. We further describe the molecular consequences of disrupting the transcriptional network regulated by in the heart and show that -dependent perturbation of the Wnt signaling pathway promotes heart dysfunction through alteration of cardiomyocyte metabolism. Our data provide mechanistic insights on how regulates heart function and metabolism, a link in the study of congenital heart disease, and confirms that our models are the first murine genetic models to our knowledge to present all spectra of clinically relevant adult congenital heart disease phenotypes generated by mutations in patients.
摘要
基因突变是先天性心脏病的主要原因。已有几项研究探讨了破坏基因座的表型后果,尽管迄今为止的动物模型未能重现人类疾病的全部谱。在这里,我们描述了一种新的点突变小鼠模型,类似于其人类对应疾病产生的突变。我们的模型完全再现了疾病的形态和生理临床表现,并揭示了 -驱动病理学的一个被忽视的方面,即原发性右心室功能障碍。我们进一步描述了心脏中受调控的转录网络被破坏的分子后果,并表明 Wnt 信号通路的依赖于 -的扰动通过改变心肌细胞代谢来促进心脏功能障碍。我们的数据提供了关于如何调节心脏功能和代谢的机制见解,这是先天性心脏病研究中的一个环节,并证实我们的模型是我们所知的第一个呈现由患者基因突变产生的所有与临床相关的成人先天性心脏病表型的小鼠遗传模型。
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