Deletion of Kcnj16 in Mice Does Not Alter Auditory Function

Jun Lv; Xiaolong Fu; Yige Li; Guodong Hong; Peipei Li; Jing Lin; Youfang Xun; Lucheng Fang; Weibin Weng; Rongyu Yue; Geng Lin Li; Bing Guan; He Li; Yideng Huang; Renjie Chai

doi:10.3389/fcell.2021.630361

Deletion of Kcnj16 in Mice Does Not Alter Auditory Function

Jun Lv, Xiaolong Fu, Yige Li, Guodong Hong, Peipei Li, Jing Lin, Youfang Xun, Lucheng Fang, Weibin Weng, Rongyu Yue, Geng Lin Li, Bing Guan^*, He Li^*, Yideng Huang^*, Renjie Chai^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

34 Citations (Scopus)

Abstract

Endolymphatic potential (EP) is the main driving force behind the sensory transduction of hearing, and K⁺ is the main charge carrier. Kir5.1 is a K⁺ transporter that plays a significant role in maintaining EP homeostasis, but the expression pattern and role of Kir5.1 (which is encoded by the Kcnj16 gene) in the mouse auditory system has remained unclear. In this study, we found that Kir5.1 was expressed in the mouse cochlea. We checked the inner ear morphology and measured auditory function in Kcnj16^–/– mice and found that loss of Kcnj16 did not appear to affect the development of hair cells. There was no significant difference in auditory function between Kcnj16^–/– mice and wild-type littermates, although the expression of Kcnma1, Kcnq4, and Kcne1 were significantly decreased in the Kcnj16^–/– mice. Additionally, no significant differences were found in the number or distribution of ribbon synapses between the Kcnj16^–/– and wild-type mice. In summary, our results suggest that the Kcnj16 gene is not essential for auditory function in mice.

Original language	English
Article number	630361
Journal	Frontiers in Cell and Developmental Biology
Volume	9
DOIs	https://doi.org/10.3389/fcell.2021.630361
Publication status	Published - 22 Feb 2021
Externally published	Yes

Keywords

Kir5.1
cochlea
endolymphatic potential
hair cell
hearing loss

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10.3389/fcell.2021.630361

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title = "Deletion of Kcnj16 in Mice Does Not Alter Auditory Function",

abstract = "Endolymphatic potential (EP) is the main driving force behind the sensory transduction of hearing, and K+ is the main charge carrier. Kir5.1 is a K+ transporter that plays a significant role in maintaining EP homeostasis, but the expression pattern and role of Kir5.1 (which is encoded by the Kcnj16 gene) in the mouse auditory system has remained unclear. In this study, we found that Kir5.1 was expressed in the mouse cochlea. We checked the inner ear morphology and measured auditory function in Kcnj16–/– mice and found that loss of Kcnj16 did not appear to affect the development of hair cells. There was no significant difference in auditory function between Kcnj16–/– mice and wild-type littermates, although the expression of Kcnma1, Kcnq4, and Kcne1 were significantly decreased in the Kcnj16–/– mice. Additionally, no significant differences were found in the number or distribution of ribbon synapses between the Kcnj16–/– and wild-type mice. In summary, our results suggest that the Kcnj16 gene is not essential for auditory function in mice.",

keywords = "Kir5.1, cochlea, endolymphatic potential, hair cell, hearing loss",

author = "Jun Lv and Xiaolong Fu and Yige Li and Guodong Hong and Peipei Li and Jing Lin and Youfang Xun and Lucheng Fang and Weibin Weng and Rongyu Yue and Li, {Geng Lin} and Bing Guan and He Li and Yideng Huang and Renjie Chai",

note = "Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2021 Lv, Fu, Li, Hong, Li, Lin, Xun, Fang, Weng, Yue, Li, Guan, Li, Huang and Chai.",

year = "2021",

month = feb,

day = "22",

doi = "10.3389/fcell.2021.630361",

language = "English",

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journal = "Frontiers in Cell and Developmental Biology",

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T1 - Deletion of Kcnj16 in Mice Does Not Alter Auditory Function

AU - Lv, Jun

AU - Fu, Xiaolong

AU - Li, Yige

AU - Hong, Guodong

AU - Li, Peipei

AU - Lin, Jing

AU - Xun, Youfang

AU - Fang, Lucheng

AU - Weng, Weibin

AU - Yue, Rongyu

AU - Li, Geng Lin

AU - Guan, Bing

AU - Li, He

AU - Huang, Yideng

AU - Chai, Renjie

PY - 2021/2/22

Y1 - 2021/2/22

N2 - Endolymphatic potential (EP) is the main driving force behind the sensory transduction of hearing, and K+ is the main charge carrier. Kir5.1 is a K+ transporter that plays a significant role in maintaining EP homeostasis, but the expression pattern and role of Kir5.1 (which is encoded by the Kcnj16 gene) in the mouse auditory system has remained unclear. In this study, we found that Kir5.1 was expressed in the mouse cochlea. We checked the inner ear morphology and measured auditory function in Kcnj16–/– mice and found that loss of Kcnj16 did not appear to affect the development of hair cells. There was no significant difference in auditory function between Kcnj16–/– mice and wild-type littermates, although the expression of Kcnma1, Kcnq4, and Kcne1 were significantly decreased in the Kcnj16–/– mice. Additionally, no significant differences were found in the number or distribution of ribbon synapses between the Kcnj16–/– and wild-type mice. In summary, our results suggest that the Kcnj16 gene is not essential for auditory function in mice.

AB - Endolymphatic potential (EP) is the main driving force behind the sensory transduction of hearing, and K+ is the main charge carrier. Kir5.1 is a K+ transporter that plays a significant role in maintaining EP homeostasis, but the expression pattern and role of Kir5.1 (which is encoded by the Kcnj16 gene) in the mouse auditory system has remained unclear. In this study, we found that Kir5.1 was expressed in the mouse cochlea. We checked the inner ear morphology and measured auditory function in Kcnj16–/– mice and found that loss of Kcnj16 did not appear to affect the development of hair cells. There was no significant difference in auditory function between Kcnj16–/– mice and wild-type littermates, although the expression of Kcnma1, Kcnq4, and Kcne1 were significantly decreased in the Kcnj16–/– mice. Additionally, no significant differences were found in the number or distribution of ribbon synapses between the Kcnj16–/– and wild-type mice. In summary, our results suggest that the Kcnj16 gene is not essential for auditory function in mice.

KW - Kir5.1

KW - cochlea

KW - endolymphatic potential

KW - hair cell

KW - hearing loss

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DO - 10.3389/fcell.2021.630361

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JO - Frontiers in Cell and Developmental Biology

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Deletion of Kcnj16 in Mice Does Not Alter Auditory Function

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