扩张型心肌病中的功能获得性变异。
Gain-of-Function Variants in Dilated Cardiomyopathy.
机构信息
Dorothy M. Davis Heart and Lung Research Institute (J.R.C., L.S., D.D.K., P.A., E.J., R.E.H.), Department of Internal Medicine, The Ohio State University College of Medicine, Columbus.
Division of Human Genetics (J.R.C., L.S., D.D.K., P.A., E.J., R.E.H.), Department of Internal Medicine, The Ohio State University College of Medicine, Columbus.
出版信息
Circ Genom Precis Med. 2020 Aug;13(4):e002892. doi: 10.1161/CIRCGEN.119.002892. Epub 2020 Jun 30.
BACKGROUND
Dilated cardiomyopathy (DCM) is a genetically heterogeneous cardiac disease characterized by progressive ventricular enlargement and reduced systolic function. Here, we report genetic and functional analyses implicating the rat sarcoma signaling protein, SOS1 (Son of sevenless homolog 1), in DCM pathogenesis.
METHODS
Exome sequencing was performed on 412 probands and family members from our DCM cohort, identifying several variants with potential disease involvement. As several lines of evidence have implicated dysregulated rat sarcoma signaling in the pathogenesis of DCM, we assessed functional impact of each variant on the activation of ERK (extracellular signal-regulated kinase), AKT (protein kinase B), and JNK (c-Jun N-terminal kinase) pathways. Relative expression levels were determined by Western blot in HEK293T cells transfected with variant or wild-type human expression constructs.
RESULTS
A rare variant [c.571G>A, p.(Glu191Lys)] was found to segregate alongside an A-band truncating variant in a pedigree with aggressive, early-onset DCM. Reduced disease severity in the absence of the variant suggested its potential involvement as a genetic risk factor for DCM in this family. Exome sequencing identified 5 additional variants with potential disease involvement in 4 other families [c.1820T>C, p.(Ile607Thr); c.2156G>C, p.(Gly719Ala); c.2230A>G, p.(Arg744Gly); c.2728G>C, p.(Asp910His); c.3601C>T, p.(Arg1201Trp)]. Impacted amino acids occupied a number of functional domains relevant to SOS1 activity, including the N-terminal histone fold, as well as the C-terminal REM (rat sarcoma exchange motif), CDC25 (cell division cycle 25), and PR (proline-rich) tail domains. Increased phosphorylated ERK expression relative to wild-type levels was seen for all 6 variants, paralleling known disease-relevant signaling profiles.
CONCLUSIONS
These data support gain-of-function variation in as a contributing factor to isolated DCM.
背景
扩张型心肌病(DCM)是一种遗传异质性心脏疾病,其特征为心室进行性扩大和收缩功能降低。在这里,我们报告了遗传和功能分析结果,表明大鼠肉瘤信号蛋白 SOS1(七鳃鳗同源物 1 的儿子)参与了 DCM 的发病机制。
方法
对来自我们的 DCM 队列的 412 名先证者和家族成员进行外显子组测序,鉴定出几种具有潜在疾病相关性的变体。由于有几条证据表明调节性大鼠肉瘤信号在 DCM 的发病机制中失调,因此我们评估了每个变体对 ERK(细胞外信号调节激酶)、AKT(蛋白激酶 B)和 JNK(c-Jun N 末端激酶)途径激活的功能影响。通过在转染变体或野生型人类表达构建体的 HEK293T 细胞中进行 Western blot 确定相对表达水平。
结果
在一个具有侵袭性、早发性 DCM 的家系中,发现一种罕见的变体 [c.571G>A,p.(Glu191Lys)] 与 A 带截断变体一起遗传。该变体缺失时疾病严重程度降低,提示其可能作为该家族 DCM 的遗传风险因素。外显子组测序在另外 4 个家庭中鉴定出 5 个具有潜在疾病相关性的其他变体 [c.1820T>C,p.(Ile607Thr);c.2156G>C,p.(Gly719Ala);c.2230A>G,p.(Arg744Gly);c.2728G>C,p.(Asp910His);c.3601C>T,p.(Arg1201Trp)]。受影响的氨基酸占据了 SOS1 活性的许多功能域,包括 N 端组蛋白折叠,以及 C 端 REM(大鼠肉瘤交换基序)、CDC25(细胞分裂周期 25)和 PR(脯氨酸丰富)尾巴域。与野生型水平相比,所有 6 种变体的磷酸化 ERK 表达均增加,与已知的疾病相关信号谱平行。
结论
这些数据支持 中的功能获得性变异是孤立性 DCM 的一个促成因素。
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