Human patients carrying genetic mutations in RNA binding motif 20 (RBM20) develop a clinically aggressive dilated cardiomyopathy (DCM). Genetic mutation knockin (KI) animal models imply that altered function of the arginine-serine-rich (RS) domain is crucial for severe DCM. To test this hypothesis, we generated an RS domain deletion mouse model (Rbm20ΔRS). We showed that Rbm20ΔRS mice manifested DCM with mis-splicing of RBM20 target transcripts. We found that RBM20 was mis-localized to the sarcoplasm in Rbm20ΔRS mouse hearts and formed RBM20 granules similar to those detected in mutation KI animals. In contrast, mice lacking the RNA recognition motif showed similar mis-splicing of major RBM20 target genes but did not develop DCM or exhibit RBM20 granule formation. Using in vitro studies with immunocytochemical staining, we demonstrated that only DCM-associated mutations in the RS domain facilitated RBM20 nucleocytoplasmic transport and promoted granule assembly. Further, we defined the core nuclear localization signal (NLS) within the RS domain of RBM20. Mutation analysis of phosphorylation sites in the RS domain suggested that this modification may be dispensable for RBM20 nucleocytoplasmic transport. Collectively, our findings revealed that disruption of RS domain–mediated nuclear localization is crucial for severe DCM caused by NLS mutations.
Yanghai Zhang, Zachery R. Gregorich, Yujuan Wang, Camila Urbano Braz, Jibin Zhang, Yang Liu, Peiheng Liu, Jiaxi Shen, Nanyumuzi Aori, Timothy A. Hacker, Henk Granzier, Wei Guo
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