Literature DB >> 30827920

GPSM2-GNAI Specifies the Tallest Stereocilia and Defines Hair Bundle Row Identity.

Abigail L D Tadenev1, Anil Akturk1, Nicholas Devanney1, Pranav Dinesh Mathur2, Anna M Clark2, Jun Yang3, Basile Tarchini4.   

Abstract

The transduction compartment of inner ear hair cells, the hair bundle, is composed of stereocilia rows of graded height, a property essential for sensory function that remains poorly understood at the molecular level. We previously showed that GPSM2-GNAI is enriched at stereocilia distal tips and required for their postnatal elongation and bundle morphogenesis-two characteristics shared with MYO15A (short isoform), WHRN, and EPS8 proteins. Here we first performed a comprehensive genetic analysis of the mouse auditory epithelium to show that GPSM2, GNAI, MYO15A, and WHRN operate in series within the same pathway. To understand how these functionally disparate proteins act as an obligate complex, we then systematically analyzed their distribution in normal and mutant bundles over time. We discovered that WHRN-GPSM2-GNAI is an extra module recruited by and added to a pre-existing MYO15A-EPS8 stereocilia tip complex. This extended complex is only present in the first, tallest row, and is required to stabilize larger amounts of MYO15A-EPS8 than in shorter rows, which at tips harbor only MYO15A-EPS8. In the absence of GPSM2 or GNAI function, including in the epistatic Myo15a and Whrn mutants, bundles retain an embryonic-like organization that coincides with generic stereocilia at the molecular level. We propose that GPSM2-GNAI confers on the first row its unique tallest identity and participates in generating differential row identity across the hair bundle.
Copyright © 2019 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  EPS8; GNAI; GPSM2; MYO15A; WHRN; hair bundle; hair cell; staircase-like organization; stereocilia

Year:  2019        PMID: 30827920      PMCID: PMC6516530          DOI: 10.1016/j.cub.2019.01.051

Source DB:  PubMed          Journal:  Curr Biol        ISSN: 0960-9822            Impact factor:   10.834


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