AI Article Synopsis
- Hair cell stereocilia contain tip-links that sense sound waves and help maintain their structure by anchoring cadherins to dense areas called tip-link densities.
- Researchers have identified a specific protein complex (MYO7A/USH1C/USH1G and MYO7B/USH1C/ANKS4B) that can create these tip-link densities through a process known as liquid-liquid phase separation.
- Mutations in the MYO7A protein, associated with Usher syndrome, can disrupt the interactions necessary for the formation of these condensates, suggesting a link between this process and hearing impairment.
Article Abstract
Hair cell stereocilia tip-links function to sense mechanical forces generated by sound waves and maintain the structure of stereocilia by rooting the tail of cadherins to highly dense structures known as tip-link densities. Although the molecular components are largely known, the mechanisms underlying the tip-link density formation are unknown. Here, we show that Myosin VIIB (MYO7B), USH1C, and ANKS4B, which form a specific complex stabilizing tip-links in intestine microvilli, could form dense condensates via liquid-liquid phase separation in vitro and in cells. The MYO7A, USH1C, and USH1G complex also undergoes phase separation in cells. Formation of the MYO7A/USH1C/USH1G and MYO7B/USH1C/ANKS4B condensates requires strong and multivalent interactions between proteins in both tripartite complexes. Point mutations of MYO7A found in Usher syndrome patients weaken or even disrupt the multivalent interactions of the MYO7A/USH1C/USH1G complex and impair its phase separation. Thus, the stereocilia tip-link densities may form via phase separation of the MYO7A/USH1C/USH1G complex.
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| http://dx.doi.org/10.1016/j.celrep.2019.09.027 | DOI Listing |
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