Age-related Changes in Cochlear Gene Expression in Normal and Shaker 2 Mice

Overview

Journal J Assoc Res Otolaryngol

Specialty Otorhinolaryngology

Date 2006 Jun 24

PMID 16794912

Citations 7

Authors

Tzy-Wen L Gong

I Jill Karolyi

James MacDonald

Lisa Beyer

Yehoash Raphael

David C Kohrman

Sally A Camper

Margaret I Lomax

Affiliations

Soon will be listed here.

Abstract

The vertebrate cochlea is a complex organ optimized for sound transduction. Auditory hair cells, with their precisely arranged stereocilia bundles, transduce sound waves to electrical signals that are transmitted to the brain. Mutations in the unconventional myosin XV cause deafness in both human DFNB3 families and in shaker 2 (sh2) mice as a result of defects in stereocilia. In these mutant mice, hair cells have relatively normal spatial organization of stereocilia bundles but lack the graded, stair-step organization. We used sh2 mice as an experimental model to investigate the molecular consequences of the sh2 mutation in the Myo15 gene. Gene expression profiling with Affymetrix GeneChips in deaf homozygous (sh2/sh2) mice at 3 weeks and 3 months of age, and in age-matched, normal-hearing heterozygotes (+/sh2) identified only a few genes whose expression was affected by genotype, but a large number with age-associated changes in expression in both normal mice and sh2/sh2 homozygotes. Microarray data analyzed using Robust Multiarray Average identified Aim1, Dbi, and Tm4sf3 as genes with increased expression in sh2/sh2 homozygotes. These increases were confirmed by quantitative reverse transcription-polymerase chain reaction. Genes exhibiting altered expression with age encoded collagens and proteins involved in collagen maturation, extracellular matrix, and bone mineralization. These results identified potential cellular pathways associated with myosin XV defects, and age-associated molecular events that are likely to be involved in maturation of the cochlea and auditory function.

Citing Articles

Single-cell transcriptomic atlas of mouse cochlear aging.

Sun G, Zheng Y, Fu X, Zhang W, Ren J, Ma S Protein Cell. 2023; 14(3):180-201.

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Cytokine Levels in Inner Ear Fluid of Young and Aged Mice as Molecular Biomarkers of Noise-Induced Hearing Loss.

Landegger L, Vasilijic S, Fujita T, Soares V, Seist R, Xu L Front Neurol. 2019; 10:977.

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Old age and the associated impairment of bones' adaptation to loading are associated with transcriptomic changes in cellular metabolism, cell-matrix interactions and the cell cycle.

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Gene expression profiling of the inner ear.

Schimmang T, Maconochie M J Anat. 2015; 228(2):255-69.

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The role of insulin-like growth factor-I in the physiopathology of hearing.

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