AI Article Synopsis
- Alternative splicing is critical in skeletal muscle development and diseases, with alterations linked to mechanobiology.
- Deep RNA-sequencing after stretching muscle cells showed transcriptional changes in muscle function genes and the activation of the MAPK pathway, which is sensitive to mechanical forces.
- The study identified SRSF4 as a mechanosensitive RNA-binding protein that may play a role in the relationship between mechanotransduction, transcription, and splicing, offering potential insights into muscular diseases.
Article Abstract
Alternative splicing is an RNA processing mechanism involved in skeletal muscle development and pathology. Muscular diseases exhibit splicing alterations and changes in mechanobiology leading us to investigate the interconnection between mechanical forces and RNA processing. We performed deep RNA-sequencing after stretching muscle cells. First, we uncovered transcriptional changes in genes encoding proteins involved in muscle function and transcription. Second, we observed that numerous mechanosensitive genes were part of the MAPK pathway which was activated in response to stretching. Third, we revealed that stretching skeletal muscle cells increased the proportion of alternatively spliced cassette exons and their inclusion. Fourth, we demonstrated that the serine and arginine-rich proteins exhibited stronger transcriptional changes than other RNA-binding proteins and that SRSF4 phosphorylation is mechanosensitive. Identifying SRSF4 as a mechanosensitive RNA-binding protein that might contribute to crosstalk between mechanotransduction, transcription, and splicing could potentially reveal novel insights into muscular diseases, particularly those with unknown etiologies.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9485123 | PMC |
| http://dx.doi.org/10.1038/s42003-022-03915-7 | DOI Listing |
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