RBM20, a gene for hereditary cardiomyopathy, regulates titin splicing
2012; Nature Portfolio; Volume: 18; Issue: 5 Linguagem: Inglês
10.1038/nm.2693
ISSN1546-170X
AutoresWei Guo, Sebastian Schäfer, Marion L. Greaser, Michaël Radkë, Martin Liss, Thirupugal Govindarajan, Henrike Maatz, Herbert Schulz, Shijun Li, Amanda M. Parrish, Vita Dauksaite, Padmanabhan Vakeel, Sabine Klaassen, Brenda Gerull, Ludwig Thierfelder, Vera Regitz‐Zagrosek, Timothy A. Hacker, Kurt W. Saupe, G. William Dec, Patrick T. Ellinor, Calum A. MacRae, Bastian Spallek, Robert Fischer, Andreas Perrot, Cemil Özcelik, Kathrin Saar, Norbert Hübner, Michael Gotthardt,
Tópico(s)RNA and protein synthesis mechanisms
ResumoAlternative splicing affects the function of many cardiac proteins, including that of the sarcomeric protein titin. Wei Guo et al. now show that the gene RBM20, previously identified as mutated in some individuals with dilated cardiomyopathy, is a splicing factor that regulates the alternative splicing of the gene encoding titin and many other key cardiac genes. Alternative splicing has a major role in cardiac adaptive responses, as exemplified by the isoform switch of the sarcomeric protein titin, which adjusts ventricular filling. By positional cloning using a previously characterized rat strain with altered titin mRNA splicing, we identified a loss-of-function mutation in the gene encoding RNA binding motif protein 20 (Rbm20) as the underlying cause of pathological titin isoform expression. The phenotype of Rbm20-deficient rats resembled the pathology seen in individuals with dilated cardiomyopathy caused by RBM20 mutations. Deep sequencing of the human and rat cardiac transcriptome revealed an RBM20-dependent regulation of alternative splicing. In addition to titin (TTN), we identified a set of 30 genes with conserved splicing regulation between humans and rats. This network is enriched for genes that have previously been linked to cardiomyopathy, ion homeostasis and sarcomere biology. Our studies emphasize the key role of post-transcriptional regulation in cardiac function and provide mechanistic insights into the pathogenesis of human heart failure.
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