Center for Cardiovascular Genetics, Institute of Molecular Medicine and Department of Medicine, University of Texas Health Sciences Center at Houston.
Circ Res. 2021 May 14;128(10):1533-1553. doi: 10.1161/CIRCRESAHA.121.318346. Epub 2021 May 13.
Hypertrophic cardiomyopathy (HCM) is a genetic disease of the myocardium characterized by a hypertrophic left ventricle with a preserved or increased ejection fraction. Cardiac hypertrophy is often asymmetrical, which is associated with left ventricular outflow tract obstruction. Myocyte hypertrophy, disarray, and myocardial fibrosis constitute the histological features of HCM. HCM is a relatively benign disease but an important cause of sudden cardiac death in the young and heart failure in the elderly. Pathogenic variants (PVs) in genes encoding protein constituents of the sarcomeres are the main causes of HCM. PVs exhibit a gradient of effect sizes, as reflected in their penetrance and variable phenotypic expression of HCM. and , encoding β-myosin heavy chain and myosin binding protein C, respectively, are the two most common causal genes and responsible for ≈40% of all HCM cases but a higher percentage of HCM in large families. PVs in genes encoding protein components of the thin filaments are responsible for ≈5% of the HCM cases. Whereas pathogenicity of the genetic variants in large families has been firmly established, ascertainment causality of the PVs in small families and sporadic cases is challenging. In the latter category, PVs are best considered as probabilistic determinants of HCM. Deciphering the genetic basis of HCM has enabled routine genetic testing and has partially elucidated the underpinning mechanism of HCM as increased number of the myosin molecules that are strongly bound to actin. The discoveries have led to the development of mavacamten that targets binding of the myosin molecule to actin filaments and imparts beneficial clinical effects. In the coming years, the yield of the genetic testing is expected to be improved and the so-called missing causal gene be identified. The advances are also expected to enable development of additional specific therapies and editing of the mutations in HCM.
肥厚型心肌病(HCM)是一种心肌的遗传性疾病,其特征为左心室肥厚伴射血分数保留或增加。心脏肥厚常呈不对称性,与左心室流出道梗阻相关。心肌细胞肥大、排列紊乱和心肌纤维化是 HCM 的组织学特征。HCM 是一种相对良性的疾病,但也是年轻人发生心源性猝死和老年人发生心力衰竭的一个重要原因。编码肌节蛋白成分的基因突变(PVs)是 HCM 的主要病因。PVs 表现出效应大小的梯度,反映在其外显率和 HCM 的可变表型表达上。编码β-肌球蛋白重链和肌球蛋白结合蛋白 C 的基因和 分别是两个最常见的致病基因,约占所有 HCM 病例的 40%,但在大家族中占更高比例。编码细肌丝蛋白成分的基因突变占 HCM 病例的 ≈5%。虽然大家族中的遗传变异的致病性已得到明确证实,但小家族和散发性病例中 PVs 的确定因果关系具有挑战性。在后一类中,PVs 最好被视为 HCM 的概率决定因素。解析 HCM 的遗传基础已实现了常规基因检测,并部分阐明了 HCM 的潜在机制,即与肌动蛋白强烈结合的肌球蛋白分子数量增加。这些发现导致了靶向肌球蛋白分子与肌动蛋白丝结合的 mavacamten 的开发,并带来了有益的临床效果。在未来几年,基因检测的收益有望提高,并确定所谓的缺失性致病基因。这些进展还预计将能够开发出其他特定的治疗方法,并对 HCM 中的突变进行编辑。
