Imperial College, National Heart & Lung Institute, British Heart Foundation, Centre for Research Excellence, Myocardial Genetics, London, UK.
Circ Res. 2011 Sep 16;109(7):758-69. doi: 10.1161/CIRCRESAHA.111.245787. Epub 2011 Jul 28.
Telethonin (also known as titin-cap or t-cap) is a 19-kDa Z-disk protein with a unique β-sheet structure, hypothesized to assemble in a palindromic way with the N-terminal portion of titin and to constitute a signalosome participating in the process of cardiomechanosensing. In addition, a variety of telethonin mutations are associated with the development of several different diseases; however, little is known about the underlying molecular mechanisms and telethonin's in vivo function.
Here we aim to investigate the role of telethonin in vivo and to identify molecular mechanisms underlying disease as a result of its mutation.
By using a variety of different genetically altered animal models and biophysical experiments we show that contrary to previous views, telethonin is not an indispensable component of the titin-anchoring system, nor is deletion of the gene or cardiac specific overexpression associated with a spontaneous cardiac phenotype. Rather, additional titin-anchorage sites, such as actin-titin cross-links via α-actinin, are sufficient to maintain Z-disk stability despite the loss of telethonin. We demonstrate that a main novel function of telethonin is to modulate the turnover of the proapoptotic tumor suppressor p53 after biomechanical stress in the nuclear compartment, thus linking telethonin, a protein well known to be present at the Z-disk, directly to apoptosis ("mechanoptosis"). In addition, loss of telethonin mRNA and nuclear accumulation of this protein is associated with human heart failure, an effect that may contribute to enhanced rates of apoptosis found in these hearts.
Telethonin knockout mice do not reveal defective heart development or heart function under basal conditions, but develop heart failure following biomechanical stress, owing at least in part to apoptosis of cardiomyocytes, an effect that may also play a role in human heart failure.
肌联蛋白(也称为 titin-cap 或 t-cap)是一种 19kDa 的 Z 盘蛋白,具有独特的β-片层结构,据推测以回文方式与 titin 的 N 端部分组装,并构成参与心肌机械感受器过程的信号体。此外,多种肌联蛋白突变与多种不同疾病的发展有关;然而,关于其潜在的分子机制和肌联蛋白的体内功能知之甚少。
本研究旨在研究肌联蛋白在体内的作用,并确定其突变导致疾病的潜在分子机制。
通过使用多种不同的遗传改变的动物模型和生物物理实验,我们表明与先前的观点相反,肌联蛋白不是 titin 锚定系统的不可或缺的组成部分,基因缺失或心脏特异性过表达与自发性心脏表型无关。相反,诸如通过肌联蛋白与α-辅肌动蛋白交联的肌动蛋白-titin 交联等其他 titin 锚定点足以维持 Z 盘的稳定性,尽管肌联蛋白缺失。我们证明肌联蛋白的一个主要新功能是在核区机械应激后调节促凋亡肿瘤抑制因子 p53 的周转,从而将肌联蛋白(一种众所周知存在于 Z 盘的蛋白质)直接与细胞凋亡(“机械凋亡”)联系起来。此外,肌联蛋白 mRNA 的缺失和该蛋白的核积累与人类心力衰竭有关,这种效应可能导致这些心脏中发现的凋亡率增加。
肌联蛋白敲除小鼠在基础条件下不会出现心脏发育或心脏功能缺陷,但在生物力学应激后会发生心力衰竭,这至少部分归因于心肌细胞的凋亡,这种效应也可能在人类心力衰竭中起作用。