A pH imbalance is linked to autophagic dysregulation of inner ear hair cells in Atp6v1ba-deficient zebrafish

V-ATPase is an ATP hydrolysis-driven proton pump involved in the acidification of intracellular organelles and systemic acid-base homeostasis through H+ secretion in the renal collecting ducts. V-ATPase dysfunction is associated with hereditary distal renal tubular acidosis (dRTA). ATP6V1B1 encodes...

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Veröffentlicht in:	Biochemical and biophysical research communications 2024-03, Vol.699, p.149551, Article 149551
Hauptverfasser:	Ikeuchi, Mayo, Inoue, Masanori, Miyahara, Hiroaki, Sebastian, Wulan Apridita, Miyazaki, Shuya, Takeno, Takashi, Kiyota, Kyoko, Yano, Shinji, Shiraishi, Hiroshi, Shimizu, Nobuyuki, Hanada, Reiko, Yoshimura, Akihiko, Ihara, Kenji, Hanada, Toshikatsu
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Schlagworte:	ATP6V1B1 Atp6v1ba dRTA Hearing loss V-ATPase Zebrafish
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creator	Ikeuchi, Mayo Inoue, Masanori Miyahara, Hiroaki Sebastian, Wulan Apridita Miyazaki, Shuya Takeno, Takashi Kiyota, Kyoko Yano, Shinji Shiraishi, Hiroshi Shimizu, Nobuyuki Hanada, Reiko Yoshimura, Akihiko Ihara, Kenji Hanada, Toshikatsu
description	V-ATPase is an ATP hydrolysis-driven proton pump involved in the acidification of intracellular organelles and systemic acid-base homeostasis through H+ secretion in the renal collecting ducts. V-ATPase dysfunction is associated with hereditary distal renal tubular acidosis (dRTA). ATP6V1B1 encodes the B1 subunit of V-ATPase that is integral to ATP hydrolysis and subsequent H+ transport. Patients with pathogenic ATP6V1B1 mutations often exhibit an early onset of sensorineural hearing loss. However, the mechanisms underlying this association remain unclear. We employed morpholino oligonucleotide-mediated knockdown and CRISPR/Cas9 gene editing to generate Atp6v1ba-deficient (atp6v1ba−/−) zebrafish as an ortholog model for ATP6V1B1. The atp6v1ba−/− zebrafish exhibited systemic acidosis and significantly smaller otoliths compared to wild-type siblings. Moreover, deficiency in Atp6v1ba led to degeneration of inner ear hair cells, with ultrastructural changes indicative of autophagy. Our findings indicate a critical role of ATP6V1B1 in regulating lysosomal pH and autophagy in hair cells, and the results provide insights into the pathophysiology of sensorineural hearing loss in dRTA. Furthermore, this study demonstrates that the atp6v1ba−/− zebrafish model is a valuable tool for further investigation into disease mechanisms and potential therapies for acidosis-related hearing impairment. •Knockdown using atp6v1ba-morpholino resulted in a decrease in otolith size and body length in zebrafish.•The atp6v1ba−/− zebrafish displayed systemic acidosis and inner ear hair cell degeneration.•The pH imbalance in lysosomes of atp6v1ba−/− zebrafish led to autophagy failure, resulting in hair cell degeneration.•Our findings shed light on the pathophysiology of sensorineural hearing loss in dRTA using the atp6v1ba−/− zebrafish model.
doi_str_mv	10.1016/j.bbrc.2024.149551
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V-ATPase dysfunction is associated with hereditary distal renal tubular acidosis (dRTA). ATP6V1B1 encodes the B1 subunit of V-ATPase that is integral to ATP hydrolysis and subsequent H+ transport. Patients with pathogenic ATP6V1B1 mutations often exhibit an early onset of sensorineural hearing loss. However, the mechanisms underlying this association remain unclear. We employed morpholino oligonucleotide-mediated knockdown and CRISPR/Cas9 gene editing to generate Atp6v1ba-deficient (atp6v1ba−/−) zebrafish as an ortholog model for ATP6V1B1. The atp6v1ba−/− zebrafish exhibited systemic acidosis and significantly smaller otoliths compared to wild-type siblings. Moreover, deficiency in Atp6v1ba led to degeneration of inner ear hair cells, with ultrastructural changes indicative of autophagy. 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Furthermore, this study demonstrates that the atp6v1ba−/− zebrafish model is a valuable tool for further investigation into disease mechanisms and potential therapies for acidosis-related hearing impairment. •Knockdown using atp6v1ba-morpholino resulted in a decrease in otolith size and body length in zebrafish.•The atp6v1ba−/− zebrafish displayed systemic acidosis and inner ear hair cell degeneration.•The pH imbalance in lysosomes of atp6v1ba−/− zebrafish led to autophagy failure, resulting in hair cell degeneration.•Our findings shed light on the pathophysiology of sensorineural hearing loss in dRTA using the atp6v1ba−/− zebrafish model.</description><identifier>ISSN: 0006-291X</identifier><identifier>ISSN: 1090-2104</identifier><identifier>EISSN: 1090-2104</identifier><identifier>DOI: 10.1016/j.bbrc.2024.149551</identifier><identifier>PMID: 38277730</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>ATP6V1B1 ; Atp6v1ba ; dRTA ; Hearing loss ; V-ATPase ; Zebrafish</subject><ispartof>Biochemical and biophysical research communications, 2024-03, Vol.699, p.149551, Article 149551</ispartof><rights>2024 Elsevier Inc.</rights><rights>Copyright © 2024 Elsevier Inc. 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V-ATPase dysfunction is associated with hereditary distal renal tubular acidosis (dRTA). ATP6V1B1 encodes the B1 subunit of V-ATPase that is integral to ATP hydrolysis and subsequent H+ transport. Patients with pathogenic ATP6V1B1 mutations often exhibit an early onset of sensorineural hearing loss. However, the mechanisms underlying this association remain unclear. We employed morpholino oligonucleotide-mediated knockdown and CRISPR/Cas9 gene editing to generate Atp6v1ba-deficient (atp6v1ba−/−) zebrafish as an ortholog model for ATP6V1B1. The atp6v1ba−/− zebrafish exhibited systemic acidosis and significantly smaller otoliths compared to wild-type siblings. Moreover, deficiency in Atp6v1ba led to degeneration of inner ear hair cells, with ultrastructural changes indicative of autophagy. 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subjects	ATP6V1B1 Atp6v1ba dRTA Hearing loss V-ATPase Zebrafish
title	A pH imbalance is linked to autophagic dysregulation of inner ear hair cells in Atp6v1ba-deficient zebrafish
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