Herz- und Diabeteszentrum NRW, Universitätsklinikum der Ruhr-Universität Bochum, Bad Oeynhausen, Germany.
Klinik für Thorax- und Kardiovaskularchirurgie, Erich und Hanna Klessmann-Institut für Kardiovaskuläre Forschung und Entwicklung, Bad Oeynhausen, Germany.
Hum Mutat. 2020 Nov;41(11):1931-1943. doi: 10.1002/humu.24096. Epub 2020 Sep 9.
Mutations in RBM20 encoding the RNA-binding motif protein 20 (RBM20) are associated with an early onset and clinically severe forms of cardiomyopathies. Transcriptome analyses revealed RBM20 as an important regulator of cardiac alternative splicing. RBM20 mutations are especially localized in exons 9 and 11 including the highly conserved arginine and serine-rich domain (RS domain). Here, we investigated in several cardiomyopathy patients, the previously described RBM20-mutation p.Pro638Leu localized within the RS domain. In addition, we identified in a patient the novel mutation p.Val914Ala localized in the (glutamate-rich) Glu-rich domain of RBM20 encoded by exon 11. Its impact on the disease was investigated with a novel TTN- and RYR2-splicing assay based on the patients' cardiac messenger RNA. Furthermore, we showed in cell culture and in human cardiac tissue that mutant RBM20-p.Pro638Leu is not localized in the nuclei but causes an abnormal cytoplasmic localization of the protein. In contrast the splicing deficient RBM20-p.Val914Ala has no influence on the intracellular localization. These results indicate that disease-associated variants in RBM20 lead to aberrant splicing through different pathomechanisms dependent on the localization of the mutation. This might have an impact on the future development of therapeutic strategies for the treatment of RBM20-induced cardiomyopathies.
RBM20 编码 RNA 结合基序蛋白 20(RBM20)的突变与心肌病的早发和临床严重形式有关。转录组分析显示 RBM20 是心脏选择性剪接的重要调节剂。RBM20 突变特别定位于包括高度保守的精氨酸和丝氨酸丰富域(RS 域)在内的外显子 9 和 11。在这里,我们在几位心肌病患者中研究了先前描述的 RBM20 突变 p.Pro638Leu,其定位于 RS 域内。此外,我们在一名患者中鉴定了位于 RBM20 外显子 11 编码的(谷氨酸丰富)Glu 丰富域中的新型突变 p.Val914Ala。使用基于患者心脏信使 RNA 的新型 TTN 和 RYR2 剪接测定法研究了其对疾病的影响。此外,我们在细胞培养和人类心脏组织中表明,突变型 RBM20-p.Pro638Leu 未定位于细胞核内,而是导致蛋白质异常的细胞质定位。相比之下,剪接缺陷型 RBM20-p.Val914Ala 对细胞内定位没有影响。这些结果表明,RBM20 中的疾病相关变异通过依赖于突变定位的不同病理机制导致异常剪接。这可能对未来治疗 RBM20 诱导的心肌病的治疗策略的发展产生影响。
