Impaired auditory-vestibular functions and behavioral abnormalities of Slitrk6-deficient mice.

Yoshifumi Matsumoto,Takehito Okamoto,Kazuyuki Yamada,Soichi Nagao,Jun Aruga,Kei-ichi Katayama,Noriko Takashima,Fabien Tell

doi:10.1371/journal.pone.0016497

Yoshifumi Matsumoto, Takehito Okamoto + Show 6 more

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https://doi.org/10.1371/journal.pone.0016497

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Journal: PloS one	Publication Date: Jan 26, 2011
Citations: 45	License type: CC BY 4.0

Affiliation: RIKEN Center for Brain Science

Abstract

A recent study revealed that Slitrk6, a transmembrane protein containing a leucine-rich repeat domain, has a critical role in the development of the inner ear neural circuit. However, it is still unknown how the absence of Slitrk6 affects auditory and vestibular functions. In addition, the role of Slitrk6 in regions of the central nervous system, including the dorsal thalamus, has not been addressed. To understand the physiological role of Slitrk6, Slitrk6-knockout (KO) mice were subjected to systematic behavioral analyses including auditory and vestibular function tests. Compared to wild-type mice, the auditory brainstem response (ABR) of Slitrk6-KO mice indicated a mid-frequency range (8–16 kHz) hearing loss and reduction of the first ABR wave. The auditory startle response was also reduced. A vestibulo-ocular reflex (VOR) test showed decreased vertical (head movement–induced) VOR gains and normal horizontal VOR. In an open field test, locomotor activity was reduced; the tendency to be in the center region was increased, but only in the first 5 min of the test, indicating altered adaptive responses to a novel environment. Altered adaptive responses were also found in a hole-board test in which head-dip behavior was increased and advanced. Aside from these abnormalities, no clear abnormalities were noted in the mood, anxiety, learning, spatial memory, or fear memory–related behavioral tests. These results indicate that the Slitrk6-KO mouse can serve as a model of hereditary sensorineural deafness. Furthermore, the altered responses of Slitrk6-KO mice to the novel environment suggest a role of Slitrk6 in some cognitive functions.

Highlights

Slitrk6 belongs to the Slitrk family of transmembrane proteins with neurite outgrowth modulating activities [1,2]
A mild elevation of the sound intensity threshold was observed for 8- and 16-kHz sound stimuli, resulting in a strong decrement of the auditory brainstem response (ABR) first wave
The results suggest that the reduction of peak I to the 80-dB stimulus is related to both the Slitrk6 loss-of-function and the impaired auditory function

Summary

Introduction

Slitrk belongs to the Slitrk family of transmembrane proteins with neurite outgrowth modulating activities [1,2]. Among the six Slitrk family genes (Slitrk1–6) in mice, Slitrk shows a unique expression pattern, with strong expression in the inner ear and modest expression in the dorsal thalamus at both embryonic and postnatal stages [1,4,5,6]. The innervation to the posterior crista was often lost, reduced, or sometimes misguided. These defects were accompanied by the loss of neurons in the spiral and vestibular ganglia. This study addressed only the embryonic to early postnatal morphological phenotype of Slitrk6-KO mice, and analyses of any functional deficits caused by the developmental defects of the inner ear remain to be conducted

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