AI Article Synopsis
- Myofibroblasts contribute to tissue fibrosis by producing collagen, but the molecular mechanisms behind their collagen production are not well understood.
- The study identifies VGLL3, a protein expressed in myofibroblasts from fibrotic hearts, as a key player that enhances collagen production through a series of molecular interactions.
- Findings suggest that targeting VGLL3 could offer a new therapeutic approach to mitigate tissue fibrosis, especially after heart injury like myocardial infarction.
Article Abstract
Myofibroblasts cause tissue fibrosis by producing extracellular matrix proteins, such as collagens. Humoral factors like TGF-β, and matrix stiffness are important for collagen production by myofibroblasts. However, the molecular mechanisms regulating their ability to produce collagen remain poorly characterised. Here, we show that vestigial-like family member 3 (VGLL3) is specifically expressed in myofibroblasts from mouse and human fibrotic hearts and promotes collagen production. Further, substrate stiffness triggers VGLL3 translocation into the nucleus through the integrin β1-Rho-actin pathway. In the nucleus, VGLL3 undergoes liquid-liquid phase separation via its low-complexity domain and is incorporated into non-paraspeckle NONO condensates containing EWS RNA-binding protein 1 (EWSR1). VGLL3 binds EWSR1 and suppresses miR-29b, which targets collagen mRNA. Consistently, cardiac fibrosis after myocardial infarction is significantly attenuated in Vgll3-deficient mice, with increased miR-29b expression. Overall, our results reveal an unrecognised VGLL3-mediated pathway that controls myofibroblasts' collagen production, representing a novel therapeutic target for tissue fibrosis.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9908974 | PMC |
| http://dx.doi.org/10.1038/s41467-023-36189-6 | DOI Listing |
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