LncRNA HSCHARME is altered in human cardiomyopathies and promotes stem cell-derived cardiomyogenesis via splicing regulation.

A growing body of evidence suggests that tissue-specific lncRNAs play pivotal roles in the heart. Here, we exploit the synteny between the mouse and human genomes to identify the human lncRNA HSCHARME and combine single-cell transcriptomics, CAGE-seq data, RNA-FISH imaging and CRISPR/Cas9 genome editing to document its role in cardiomyogenesis. By investigating the mechanism of action of HSCHARME in hiPSC-derived cardiomyocytes, we report that the locus produces the major pCHARME isoform that associates with SC35-containing speckles and interacts with the splicing regulator PTBP1. Consistently, the functional inactivation of pCHARME influences the splicing of cardiac-specific pre-mRNAs and impacts their expression, which reflects a decline in cardiomyocyte differentiation and physiology. In line with a possible association with disease, large-scale analysis of the lncRNA expression across cardiomyopathy patients reveals increased levels of pCHARME in hypertrophic and dilated hearts. We also find that HSCHARME dosage can modulate the expression of a subset of disease-associated targets. Our findings provide mechanistic insights into the role of pCHARME in cardiac cells with potential implications for disease.