Myosin-based nucleation of actin filaments contributes to stereocilia development critical for hearing

Assembly of actin-based stereocilia is critical for cochlear hair cells to detect sound. To tune their mechanosensivity, stereocilia form bundles composed of graded rows of ascending height, necessitating the precise control of actin polymerization. Myosin 15 (MYO15A) drives hair bundle development...

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Bibliographic Details
Published in:Nature communications 2025-01, Vol.16 (1), p.947-19, Article 947
Main Authors: Moreland, Zane G., Jiang, Fangfang, Aguilar, Carlos, Barzik, Melanie, Gong, Rui, Behnammanesh, Ghazaleh, Park, Jinho, Shams, Arik, Faaborg-Andersen, Christian, Werth, Jesse C., Harley, Randall, Sutton, Daniel C., Heidings, James B., Cole, Stacey M., Parker, Andrew, Morse, Susan, Wilson, Elizabeth, Takagi, Yasuharu, Sellers, James R., Brown, Steve D. M., Friedman, Thomas B., Alushin, Gregory M., Bowl, Michael R., Bird, Jonathan E.
Format: Article
Language:English
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Actin
Actin Cytoskeleton - metabolism
Actins - metabolism
Addition polymerization
Animals
Cochlea
Cytoskeleton
Deafness
Deafness - genetics
Deafness - metabolism
Evolution
Female
Filaments
Hair
Hair cells
Hair Cells, Auditory - metabolism
Hearing - physiology
Hearing loss
Humanities and Social Sciences
Humans
Mice
multidisciplinary
Mutation
Myosin
Myosins - genetics
Myosins - metabolism
Nucleation
Polymerization
Science
Science (multidisciplinary)
Stereocilia - metabolism
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Summary:Assembly of actin-based stereocilia is critical for cochlear hair cells to detect sound. To tune their mechanosensivity, stereocilia form bundles composed of graded rows of ascending height, necessitating the precise control of actin polymerization. Myosin 15 (MYO15A) drives hair bundle development by delivering critical proteins to growing stereocilia that regulate actin polymerization via an unknown mechanism. Here, we show that MYO15A is itself an actin nucleation-promoting factor. Moreover, a deafness-causing mutation in the MYO15A actin-binding interface inhibits nucleation activity but still preserves some movement on filaments in vitro and partial trafficking on stereocilia in vivo. Stereocilia fail to elongate correctly in this mutant mouse, providing evidence that MYO15A-driven actin nucleation contributes to hair bundle biogenesis. Our work shows that in addition to generating force and motility, the ATPase domain of MYO15A can directly regulate actin polymerization and that disrupting this activity can promote cytoskeletal disease, such as hearing loss. Actin filament polymerization is crucial for building sound-sensitive stereocilia in the cochlea. Here, the authors show that a myosin motor can nucleate actin filaments, revealing a mechanism for stereocilia growth and hereditary hearing loss.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-025-55898-8