Department of Experimental Pharmacology and Toxicology, Cardiovascular Research Center, University Medical Center Hamburg-Eppendorf, Hamburg, Germany.
Hum Mol Genet. 2012 Jul 15;21(14):3237-54. doi: 10.1093/hmg/dds157. Epub 2012 Apr 20.
Hypertrophic cardiomyopathy (HCM) is characterized by asymmetric left ventricular hypertrophy, diastolic dysfunction and myocardial disarray. HCM is caused by mutations in sarcomeric genes, but in >40% of patients, the mutation is not yet identified. We hypothesized that FHL1, encoding four-and-a-half-LIM domains 1, could be another disease gene since it has been shown to cause distinct myopathies, sometimes associated with cardiomyopathy. We evaluated 121 HCM patients, devoid of a mutation in known disease genes. We identified three novel variants in FHL1 (c.134delA/K45Sfs, c.459C>A/C153X and c.827G>C/C276S). Whereas the c.459C>A variant was associated with muscle weakness in some patients, the c.134delA and c.827G>C variants were associated with isolated HCM. Gene transfer of the latter variants in C2C12 myoblasts and cardiac myocytes revealed reduced levels of FHL1 mutant proteins, which could be rescued by proteasome inhibition. Contractility measurements after adeno-associated virus transduction in rat-engineered heart tissue (EHT) showed: (i) higher and lower forces of contraction with K45Sfs and C276S, respectively, and (ii) prolonged contraction and relaxation with both mutants. All mutants except one activated the fetal hypertrophic gene program in EHT. In conclusion, this study provides evidence for FHL1 to be a novel gene for isolated HCM. These data, together with previous findings of proteasome impairment in HCM, suggest that FHL1 mutant proteins may act as poison peptides, leading to hypertrophy, diastolic dysfunction and/or altered contractility, all features of HCM.
肥厚型心肌病(HCM)的特征是左心室不对称性肥厚、舒张功能障碍和心肌排列紊乱。HCM 是由肌节基因的突变引起的,但在 >40%的患者中,突变尚未确定。我们假设编码四个半 LIM 结构域 1 的 FHL1 可能是另一个疾病基因,因为它已被证明会导致不同的肌病,有时伴有心肌病。我们评估了 121 名无已知疾病基因突变的 HCM 患者。我们在 FHL1 中发现了三个新的变体(c.134delA/K45Sfs、c.459C>A/C153X 和 c.827G>C/C276S)。虽然 c.459C>A 变体与一些患者的肌肉无力有关,但 c.134delA 和 c.827G>C 变体与孤立性 HCM 有关。将后两种变体基因转染 C2C12 成肌细胞和心肌细胞后,发现 FHL1 突变蛋白的水平降低,而蛋白酶体抑制可使这种降低得到挽救。腺相关病毒转导大鼠工程心脏组织(EHT)后的收缩力测量结果显示:(i)K45Sfs 导致收缩力更高,C276S 导致收缩力更低,(ii)两种突变体都导致收缩和舒张时间延长。除一个突变体外,所有突变体都激活了 EHT 中的胎儿肥厚基因程序。总之,本研究为 FHL1 是一种新的孤立性 HCM 基因提供了证据。这些数据与 HCM 中蛋白酶体受损的先前发现一起表明,FHL1 突变蛋白可能作为毒性肽发挥作用,导致肥厚、舒张功能障碍和/或收缩性改变,这都是 HCM 的特征。
