Matthew R Avenarius, Jocelyn F Krey, Rachel A Dumont, Clive P Morgan, Connor B Benson, Sarath Vijayakumar, Christopher L Cunningham, Deborah I Scheffer, David P Corey, Ulrich Müller, Sherri M Jones, Peter G Barr-Gillespie
The Journal of cell biology 2017 Nov 06Control of the dimensions of actin-rich processes like filopodia, lamellipodia, microvilli, and stereocilia requires the coordinated activity of many proteins. Each of these actin structures relies on heterodimeric capping protein (CAPZ), which blocks actin polymerization at barbed ends. Because dimension control of the inner ear's stereocilia is particularly precise, we studied the CAPZB subunit in hair cells. CAPZB, present at ∼100 copies per stereocilium, concentrated at stereocilia tips as hair cell development progressed, similar to the CAPZB-interacting protein TWF2. We deleted Capzb specifically in hair cells using Atoh1-Cre, which eliminated auditory and vestibular function. Capzb-null stereocilia initially developed normally but later shortened and disappeared; surprisingly, stereocilia width decreased concomitantly with length. CAPZB2 expressed by in utero electroporation prevented normal elongation of vestibular stereocilia and irregularly widened them. Together, these results suggest that capping protein participates in stereocilia widening by preventing newly elongating actin filaments from depolymerizing. © 2017 Avenarius et al.
Matthew R Avenarius, Jocelyn F Krey, Rachel A Dumont, Clive P Morgan, Connor B Benson, Sarath Vijayakumar, Christopher L Cunningham, Deborah I Scheffer, David P Corey, Ulrich Müller, Sherri M Jones, Peter G Barr-Gillespie. Heterodimeric capping protein is required for stereocilia length and width regulation. The Journal of cell biology. 2017 Nov 06;216(11):3861-3881
PMID: 28899994
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