ATP6V0C variants impair V-ATPase function causing a neurodevelopmental disorder often associated with epilepsy

Kari A Mattison; Gilles Tossing; Fred Mulroe; Callum Simmons; Kameryn M Butler; Alison Schreiber; Adnan Alsadah; Derek E Neilson; Karin Naess; Anna Wedell; Anna Wredenberg; Arthur Sorlin; Emma McCann; George J Burghel; Beatriz Menendez; George E Hoganson; Lorenzo D Botto; Francis M Filloux; Ángel Aledo-Serrano; Antonio Gil-Nagel; Katrina Tatton-Brown; Nienke E Verbeek; Michele van Hirtum-Das; Jeroen Breckpot; Trine Bjørg Hammer; Rikke S Møller; Andrea Whitney; Andrew G L Douglas; Mira Kharbanda; Nicola Brunetti-Pierri; Manuela Morleo; Vincenzo Nigro; Halie J May; James X Tao; Emanuela Argili; Elliot H Sherr; William B Dobyns; Genomics England Research Consortium; Richard A Baines; Jim Warwicker; J Alex Parker; Siddharth Banka; Philippe M Campeau; Andrew Escayg

doi:10.1093/brain/awac330

ATP6V0C variants impair V-ATPase function causing a neurodevelopmental disorder often associated with epilepsy

Kari A Mattison, Gilles Tossing, Fred Mulroe, Callum Simmons, Kameryn M Butler, Alison Schreiber, Adnan Alsadah, Derek E Neilson, Karin Naess, Anna Wedell, Anna Wredenberg, Arthur Sorlin, Emma McCann, George J Burghel, Beatriz Menendez, George E Hoganson, Lorenzo D Botto, Francis M Filloux, Ángel Aledo-Serrano, Antonio Gil-NagelKatrina Tatton-Brown, Nienke E Verbeek, Michele van Hirtum-Das, Jeroen Breckpot, Trine Bjørg Hammer, Rikke S Møller, Andrea Whitney, Andrew G L Douglas, Mira Kharbanda, Nicola Brunetti-Pierri, Manuela Morleo, Vincenzo Nigro, Halie J May, James X Tao, Emanuela Argili, Elliot H Sherr, William B Dobyns, Genomics England Research Consortium, Richard A Baines, Jim Warwicker, J Alex Parker, Siddharth Banka, Philippe M Campeau, Andrew Escayg^*

^*Corresponding author for this work

Section Clinical Genetics

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

Abstract

The vacuolar H+-ATPase is an enzymatic complex that functions in an ATP-dependent manner to pump protons across membranes and acidify organelles, thereby creating the proton/pH gradient required for membrane trafficking by several different types of transporters. We describe heterozygous point variants in ATP6V0C, encoding the c-subunit in the membrane bound integral domain of the vacuolar H+-ATPase, in 27 patients with neurodevelopmental abnormalities with or without epilepsy. Corpus callosum hypoplasia and cardiac abnormalities were also present in some patients. In silico modelling suggested that the patient variants interfere with the interactions between the ATP6V0C and ATP6V0A subunits during ATP hydrolysis. Consistent with decreased vacuolar H+-ATPase activity, functional analyses conducted in Saccharomyces cerevisiae revealed reduced LysoSensor fluorescence and reduced growth in media containing varying concentrations of CaCl2. Knockdown of ATP6V0C in Drosophila resulted in increased duration of seizure-like behaviour, and the expression of selected patient variants in Caenorhabditis elegans led to reduced growth, motor dysfunction and reduced lifespan. In summary, this study establishes ATP6V0C as an important disease gene, describes the clinical features of the associated neurodevelopmental disorder and provides insight into disease mechanisms.

Original language	English
Pages (from-to)	1357-1372
Number of pages	16
Journal	Brain : a journal of neurology
Volume	146
Issue number	4
Early online date	8 Sept 2022
DOIs	https://doi.org/10.1093/brain/awac330
Publication status	Published - 1 Apr 2023

Keywords

ATP6V0C
epilepsy genetics
neurodevelopmental disorders
V-ATPase
VMA3

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10.1093/brain/awac330

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Mattison, K. A., Tossing, G., Mulroe, F., Simmons, C., Butler, K. M., Schreiber, A., Alsadah, A., Neilson, D. E., Naess, K., Wedell, A., Wredenberg, A., Sorlin, A., McCann, E., Burghel, G. J., Menendez, B., Hoganson, G. E., Botto, L. D., Filloux, F. M., Aledo-Serrano, Á., ... Escayg, A. (2023). ATP6V0C variants impair V-ATPase function causing a neurodevelopmental disorder often associated with epilepsy. Brain : a journal of neurology, 146(4), 1357-1372. https://doi.org/10.1093/brain/awac330

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title = "ATP6V0C variants impair V-ATPase function causing a neurodevelopmental disorder often associated with epilepsy",

abstract = "The vacuolar H+-ATPase is an enzymatic complex that functions in an ATP-dependent manner to pump protons across membranes and acidify organelles, thereby creating the proton/pH gradient required for membrane trafficking by several different types of transporters. We describe heterozygous point variants in ATP6V0C, encoding the c-subunit in the membrane bound integral domain of the vacuolar H+-ATPase, in 27 patients with neurodevelopmental abnormalities with or without epilepsy. Corpus callosum hypoplasia and cardiac abnormalities were also present in some patients. In silico modelling suggested that the patient variants interfere with the interactions between the ATP6V0C and ATP6V0A subunits during ATP hydrolysis. Consistent with decreased vacuolar H+-ATPase activity, functional analyses conducted in Saccharomyces cerevisiae revealed reduced LysoSensor fluorescence and reduced growth in media containing varying concentrations of CaCl2. Knockdown of ATP6V0C in Drosophila resulted in increased duration of seizure-like behaviour, and the expression of selected patient variants in Caenorhabditis elegans led to reduced growth, motor dysfunction and reduced lifespan. In summary, this study establishes ATP6V0C as an important disease gene, describes the clinical features of the associated neurodevelopmental disorder and provides insight into disease mechanisms.",

keywords = "ATP6V0C, epilepsy genetics, neurodevelopmental disorders, V-ATPase, VMA3",

author = "Mattison, {Kari A} and Gilles Tossing and Fred Mulroe and Callum Simmons and Butler, {Kameryn M} and Alison Schreiber and Adnan Alsadah and Neilson, {Derek E} and Karin Naess and Anna Wedell and Anna Wredenberg and Arthur Sorlin and Emma McCann and Burghel, {George J} and Beatriz Menendez and Hoganson, {George E} and Botto, {Lorenzo D} and Filloux, {Francis M} and {\'A}ngel Aledo-Serrano and Antonio Gil-Nagel and Katrina Tatton-Brown and Verbeek, {Nienke E} and {van Hirtum-Das}, Michele and Jeroen Breckpot and Hammer, {Trine Bj{\o}rg} and M{\o}ller, {Rikke S} and Andrea Whitney and Douglas, {Andrew G L} and Mira Kharbanda and Nicola Brunetti-Pierri and Manuela Morleo and Vincenzo Nigro and May, {Halie J} and Tao, {James X} and Emanuela Argili and Sherr, {Elliot H} and Dobyns, {William B} and Consortium, {Genomics England Research} and Baines, {Richard A} and Jim Warwicker and Parker, {J Alex} and Siddharth Banka and Campeau, {Philippe M} and Andrew Escayg",

year = "2023",

month = apr,

day = "1",

doi = "10.1093/brain/awac330",

language = "English",

volume = "146",

pages = "1357--1372",

journal = "Brain : a journal of neurology",

issn = "0006-8950",

publisher = "Oxford University Press",

number = "4",

}

Mattison, KA, Tossing, G, Mulroe, F, Simmons, C, Butler, KM, Schreiber, A, Alsadah, A, Neilson, DE, Naess, K, Wedell, A, Wredenberg, A, Sorlin, A, McCann, E, Burghel, GJ, Menendez, B, Hoganson, GE, Botto, LD, Filloux, FM, Aledo-Serrano, Á, Gil-Nagel, A, Tatton-Brown, K, Verbeek, NE, van Hirtum-Das, M, Breckpot, J, Hammer, TB, Møller, RS, Whitney, A, Douglas, AGL, Kharbanda, M, Brunetti-Pierri, N, Morleo, M, Nigro, V, May, HJ, Tao, JX, Argili, E, Sherr, EH, Dobyns, WB, Consortium, GER, Baines, RA, Warwicker, J, Parker, JA, Banka, S, Campeau, PM & Escayg, A 2023, 'ATP6V0C variants impair V-ATPase function causing a neurodevelopmental disorder often associated with epilepsy', Brain : a journal of neurology, vol. 146, no. 4, pp. 1357-1372. https://doi.org/10.1093/brain/awac330

TY - JOUR

T1 - ATP6V0C variants impair V-ATPase function causing a neurodevelopmental disorder often associated with epilepsy

AU - Mattison, Kari A

AU - Tossing, Gilles

AU - Mulroe, Fred

AU - Simmons, Callum

AU - Butler, Kameryn M

AU - Schreiber, Alison

AU - Alsadah, Adnan

AU - Neilson, Derek E

AU - Naess, Karin

AU - Wedell, Anna

AU - Wredenberg, Anna

AU - Sorlin, Arthur

AU - McCann, Emma

AU - Burghel, George J

AU - Menendez, Beatriz

AU - Hoganson, George E

AU - Botto, Lorenzo D

AU - Filloux, Francis M

AU - Aledo-Serrano, Ángel

AU - Gil-Nagel, Antonio

AU - Tatton-Brown, Katrina

AU - Verbeek, Nienke E

AU - van Hirtum-Das, Michele

AU - Breckpot, Jeroen

AU - Hammer, Trine Bjørg

AU - Møller, Rikke S

AU - Whitney, Andrea

AU - Douglas, Andrew G L

AU - Kharbanda, Mira

AU - Brunetti-Pierri, Nicola

AU - Morleo, Manuela

AU - Nigro, Vincenzo

AU - May, Halie J

AU - Tao, James X

AU - Argili, Emanuela

AU - Sherr, Elliot H

AU - Dobyns, William B

AU - Consortium, Genomics England Research

AU - Baines, Richard A

AU - Warwicker, Jim

AU - Parker, J Alex

AU - Banka, Siddharth

AU - Campeau, Philippe M

AU - Escayg, Andrew

PY - 2023/4/1

Y1 - 2023/4/1

N2 - The vacuolar H+-ATPase is an enzymatic complex that functions in an ATP-dependent manner to pump protons across membranes and acidify organelles, thereby creating the proton/pH gradient required for membrane trafficking by several different types of transporters. We describe heterozygous point variants in ATP6V0C, encoding the c-subunit in the membrane bound integral domain of the vacuolar H+-ATPase, in 27 patients with neurodevelopmental abnormalities with or without epilepsy. Corpus callosum hypoplasia and cardiac abnormalities were also present in some patients. In silico modelling suggested that the patient variants interfere with the interactions between the ATP6V0C and ATP6V0A subunits during ATP hydrolysis. Consistent with decreased vacuolar H+-ATPase activity, functional analyses conducted in Saccharomyces cerevisiae revealed reduced LysoSensor fluorescence and reduced growth in media containing varying concentrations of CaCl2. Knockdown of ATP6V0C in Drosophila resulted in increased duration of seizure-like behaviour, and the expression of selected patient variants in Caenorhabditis elegans led to reduced growth, motor dysfunction and reduced lifespan. In summary, this study establishes ATP6V0C as an important disease gene, describes the clinical features of the associated neurodevelopmental disorder and provides insight into disease mechanisms.

AB - The vacuolar H+-ATPase is an enzymatic complex that functions in an ATP-dependent manner to pump protons across membranes and acidify organelles, thereby creating the proton/pH gradient required for membrane trafficking by several different types of transporters. We describe heterozygous point variants in ATP6V0C, encoding the c-subunit in the membrane bound integral domain of the vacuolar H+-ATPase, in 27 patients with neurodevelopmental abnormalities with or without epilepsy. Corpus callosum hypoplasia and cardiac abnormalities were also present in some patients. In silico modelling suggested that the patient variants interfere with the interactions between the ATP6V0C and ATP6V0A subunits during ATP hydrolysis. Consistent with decreased vacuolar H+-ATPase activity, functional analyses conducted in Saccharomyces cerevisiae revealed reduced LysoSensor fluorescence and reduced growth in media containing varying concentrations of CaCl2. Knockdown of ATP6V0C in Drosophila resulted in increased duration of seizure-like behaviour, and the expression of selected patient variants in Caenorhabditis elegans led to reduced growth, motor dysfunction and reduced lifespan. In summary, this study establishes ATP6V0C as an important disease gene, describes the clinical features of the associated neurodevelopmental disorder and provides insight into disease mechanisms.

KW - ATP6V0C

KW - epilepsy genetics

KW - neurodevelopmental disorders

KW - V-ATPase

KW - VMA3

UR - http://www.scopus.com/inward/record.url?scp=85152695531&partnerID=8YFLogxK

U2 - 10.1093/brain/awac330

DO - 10.1093/brain/awac330

M3 - Article

C2 - 36074901

SN - 0006-8950

VL - 146

SP - 1357

EP - 1372

JO - Brain : a journal of neurology

JF - Brain : a journal of neurology

IS - 4

ER -

ATP6V0C variants impair V-ATPase function causing a neurodevelopmental disorder often associated with epilepsy

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Keywords

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