Atoh1 Directs Regeneration and Functional Recovery of the Mature Mouse Vestibular System

Authors

Zahra N. Sayyid, Stanford University School of Medicine
Tian Wang, Stanford University School of Medicine
Leon Chen, Stanford University School of MedicineFollow
Sherri M. Jones, University of Nebraska-LincolnFollow
Alan G. Cheng, Stanford University School of MedicineFollow

Date of this Version

7-9-2019

Citation

Cell Reports 28, 312–324, July 9, 2019

Comments

Copyright 2019 The Author(s). This is an open access article under the CC BY-NC-ND license

Abstract

Utricular hair cells (HCs) are mechanoreceptors required for vestibular function. After damage, regeneration of mammalian utricular HCs is limited and regenerated HCs appear immature. Thus, loss of vestibular function is presumed irreversible. Here, we found partial HC replacement and functional recovery in the mature mouse utricle, both enhanced by overexpressing the transcription factor Atoh1. Following damage, long-term fate mapping revealed that support cells non-mitotically and modestly regenerated HCs displaying no or immature bundles. By contrast, Atoh1 overexpression stimulated proliferation and widespread regeneration of HCs exhibiting elongated bundles, patent mechanotransduction channels, and synaptic connections. Finally, although damage without Atoh1 overexpression failed to initiate or sustain a spontaneous functional recovery, Atoh1 overexpression significantly enhanced both the degree and percentage of animals exhibiting sustained functional recovery. Therefore, the mature, damaged utricle has an Atoh1-responsive regenerative program leading to functional recovery, underscoring the potential of a reprogramming approach to sensory regeneration.