Functional consequence of pathogenic GABRA3 variants determines whether X-linked inheritance is dominant or recessive

Katrine M. Johannesen; Khaing Phyu Aung; Vivian Wy Liao; Nathan Absalom; Han C. Chua; Xue N. Gan; Miaomiao Mao; Chaseley E. McKenzie; Hian M. Lee; Sebastian Ortiz; Rebecca C. Spillmann; Vandana Shashi; Rodney A. Radtke; Ghayda M. Mirzaa; P. Anne Weisner; Josue Flores Daboub; Caroline Hagedorn; Pinar Bayrak-Toydemir; Desiree DeMille; Jian Zhao; Nandita Bajaj; Yline Capri; Boris Keren; Miriam Schmidts; Ingrid Mbh van de Laar; Marjon A. van Slegtenhorst; Rafal Ploski; Marta Bogotko; Danielle K. Bourque; Ebba Alkhunaizi; Lauren Chad; Nada Quercia; Houda Elloumi; Ingrid M. Wentzensen; Michael C. Kruer; Pritha Bisarad; Carolina I. Galaz-Montoya; Violeta Rusu; Dominique Braun; Katie Angione; Jessica C. Win; Camilo Espinosa-Jovel; Pia Zacher; Konrad Platzer; Samuel F. Berkovic; Ingrid E. Scheffer; Mary Chebib; Guido Rubboli; Rikke S. Møller; Christopher A. Reid; Philip K. Ahring

doi:10.1172/JCI189830

Functional consequence of pathogenic GABRA3 variants determines whether X-linked inheritance is dominant or recessive

Katrine M. Johannesen
, Khaing Phyu Aung
, Vivian Wy Liao
, Nathan Absalom
, Han C. Chua
, Xue N. Gan
, Miaomiao Mao
, Chaseley E. McKenzie
, Hian M. Lee
, Sebastian Ortiz
, Rebecca C. Spillmann
, Vandana Shashi
, Rodney A. Radtke
, Ghayda M. Mirzaa
, P. Anne Weisner
, Josue Flores Daboub
, Caroline Hagedorn
, Pinar Bayrak-Toydemir
, Desiree DeMille
, Jian Zhao

Nandita Bajaj, Yline Capri, Boris Keren, Miriam Schmidts, Ingrid Mbh van de Laar, Marjon A. van Slegtenhorst, Rafal Ploski, Marta Bogotko, Danielle K. Bourque, Ebba Alkhunaizi, Lauren Chad, Nada Quercia, Houda Elloumi, Ingrid M. Wentzensen, Michael C. Kruer, Pritha Bisarad, Carolina I. Galaz-Montoya, Violeta Rusu, Dominique Braun, Katie Angione, Jessica C. Win, Camilo Espinosa-Jovel, Pia Zacher, Konrad Platzer, Samuel F. Berkovic, Ingrid E. Scheffer, Mary Chebib, Guido Rubboli, Rikke S. Møller, Christopher A. Reid, Philip K. Ahring

School of Science

University of Copenhagen
University of Melbourne
University of Sydney
University of Southern Denmark
Division of Medical Genetics
Duke University
University of Washington
Brotman Baty Institute for Precision Medicine
University of Utah
Christian Children's Hospital Osnabrück
University of Paris
Sorbonne Université
University of Freiburg
Erasmus University Rotterdam
Medical University of Warsaw
Professor Jan Bogdanowicz Children's Hospital
University of Ottawa
University of Toronto
GeneDx
Phoenix Children's Hospital
University of Arizona
University of Bern
The Children's Hospital, Aurora
University of Colorado Anschutz Medical Campus
Indiana University Bloomington
Epilepsy Program
Epilepsy Center Kleinwachau
Leipzig University
Royal Children's Hospital Melbourne

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

Abstract

Disorders of GABRA3, the only epilepsy-associated GABAA receptor subunit gene on the X chromosome, have eluded clinical clarity due to ambiguous inheritance patterns and variable phenotypes. The long-standing assumption that all pathogenic variants cause loss of function further obscured genotype-phenotype relationships and hindered progress. Here, we curated a cohort of individuals with a GABRA3 variant, integrating deep phenotyping, genotyping, family history, and electrophysiology with a targeted mouse model. Among 43 individuals with 19 GABRA3 variants, functional analyses revealed gain- and loss-of-function effects, each linked to distinct clinical profiles. Gain-of-function variants were associated with severe, treatment-resistant epilepsy and profound intellectual disability, disproportionately affecting males, who were often nonambulant and had cortical visual impairment. Loss-of-function variants produced milder phenotypes, with epilepsy rarely observed; affected males showed behavioral issues and language delay, while females were unaffected carriers. Our gain-of-function (Gabra3Q242L/+) mouse model mirrored these sex-specific differences, showing increased seizure susceptibility, early death, and marked cortical hyperexcitability. These insights resolve longstanding uncertainties surrounding GABRA3 and redefine how X-linked disorders are interpreted. They demonstrate that it is the functional impact of a variant, not its mere presence, that determines whether a condition manifests dominantly or recessively. This distinction carries important implications for genetic counseling, precision medicine, and the broader interpretation of X-linked neurodevelopmental disorders.

Original language	English
Article number	e189830
Number of pages	13
Journal	Journal of Clinical Investigation
Volume	136
Issue number	2
DOIs	https://doi.org/10.1172/JCI189830
Publication status	Published - 16 Jan 2026

Keywords

Epilepsy
Genetic diseases
Genetics
Intellectual disability
Neuroscience

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Full textFinal published version, 4.37 MBLicence: CC BY

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Johannesen, K. M., Aung, K. P., Liao, V. W., Absalom, N., Chua, H. C., Gan, X. N., Mao, M., McKenzie, C. E., Lee, H. M., Ortiz, S., Spillmann, R. C., Shashi, V., Radtke, R. A., Mirzaa, G. M., Weisner, P. A., Flores Daboub, J., Hagedorn, C., Bayrak-Toydemir, P., DeMille, D., ... Ahring, P. K. (2026). Functional consequence of pathogenic GABRA3 variants determines whether X-linked inheritance is dominant or recessive. Journal of Clinical Investigation, 136(2), Article e189830. https://doi.org/10.1172/JCI189830

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title = "Functional consequence of pathogenic GABRA3 variants determines whether X-linked inheritance is dominant or recessive",

abstract = "Disorders of GABRA3, the only epilepsy-associated GABAA receptor subunit gene on the X chromosome, have eluded clinical clarity due to ambiguous inheritance patterns and variable phenotypes. The long-standing assumption that all pathogenic variants cause loss of function further obscured genotype-phenotype relationships and hindered progress. Here, we curated a cohort of individuals with a GABRA3 variant, integrating deep phenotyping, genotyping, family history, and electrophysiology with a targeted mouse model. Among 43 individuals with 19 GABRA3 variants, functional analyses revealed gain- and loss-of-function effects, each linked to distinct clinical profiles. Gain-of-function variants were associated with severe, treatment-resistant epilepsy and profound intellectual disability, disproportionately affecting males, who were often nonambulant and had cortical visual impairment. Loss-of-function variants produced milder phenotypes, with epilepsy rarely observed; affected males showed behavioral issues and language delay, while females were unaffected carriers. Our gain-of-function (Gabra3Q242L/+) mouse model mirrored these sex-specific differences, showing increased seizure susceptibility, early death, and marked cortical hyperexcitability. These insights resolve longstanding uncertainties surrounding GABRA3 and redefine how X-linked disorders are interpreted. They demonstrate that it is the functional impact of a variant, not its mere presence, that determines whether a condition manifests dominantly or recessively. This distinction carries important implications for genetic counseling, precision medicine, and the broader interpretation of X-linked neurodevelopmental disorders.",

keywords = "Epilepsy, Genetic diseases, Genetics, Intellectual disability, Neuroscience",

author = "Johannesen, \{Katrine M.\} and Aung, \{Khaing Phyu\} and Liao, \{Vivian Wy\} and Nathan Absalom and Chua, \{Han C.\} and Gan, \{Xue N.\} and Miaomiao Mao and McKenzie, \{Chaseley E.\} and Lee, \{Hian M.\} and Sebastian Ortiz and Spillmann, \{Rebecca C.\} and Vandana Shashi and Radtke, \{Rodney A.\} and Mirzaa, \{Ghayda M.\} and Weisner, \{P. Anne\} and \{Flores Daboub\}, Josue and Caroline Hagedorn and Pinar Bayrak-Toydemir and Desiree DeMille and Jian Zhao and Nandita Bajaj and Yline Capri and Boris Keren and Miriam Schmidts and \{van de Laar\}, \{Ingrid Mbh\} and \{van Slegtenhorst\}, \{Marjon A.\} and Rafal Ploski and Marta Bogotko and Bourque, \{Danielle K.\} and Ebba Alkhunaizi and Lauren Chad and Nada Quercia and Houda Elloumi and Wentzensen, \{Ingrid M.\} and Kruer, \{Michael C.\} and Pritha Bisarad and Galaz-Montoya, \{Carolina I.\} and Violeta Rusu and Dominique Braun and Katie Angione and Win, \{Jessica C.\} and Camilo Espinosa-Jovel and Pia Zacher and Konrad Platzer and Berkovic, \{Samuel F.\} and Scheffer, \{Ingrid E.\} and Mary Chebib and Guido Rubboli and M{\o}ller, \{Rikke S.\} and Reid, \{Christopher A.\} and Ahring, \{Philip K.\}",

year = "2026",

month = jan,

day = "16",

doi = "10.1172/JCI189830",

language = "English",

volume = "136",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

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number = "2",

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Johannesen, KM, Aung, KP, Liao, VW, Absalom, N, Chua, HC, Gan, XN, Mao, M, McKenzie, CE, Lee, HM, Ortiz, S, Spillmann, RC, Shashi, V, Radtke, RA, Mirzaa, GM, Weisner, PA, Flores Daboub, J, Hagedorn, C, Bayrak-Toydemir, P, DeMille, D, Zhao, J, Bajaj, N, Capri, Y, Keren, B, Schmidts, M, van de Laar, IM, van Slegtenhorst, MA, Ploski, R, Bogotko, M, Bourque, DK, Alkhunaizi, E, Chad, L, Quercia, N, Elloumi, H, Wentzensen, IM, Kruer, MC, Bisarad, P, Galaz-Montoya, CI, Rusu, V, Braun, D, Angione, K, Win, JC, Espinosa-Jovel, C, Zacher, P, Platzer, K, Berkovic, SF, Scheffer, IE, Chebib, M, Rubboli, G, Møller, RS, Reid, CA & Ahring, PK 2026, 'Functional consequence of pathogenic GABRA3 variants determines whether X-linked inheritance is dominant or recessive', Journal of Clinical Investigation, vol. 136, no. 2, e189830. https://doi.org/10.1172/JCI189830

TY - JOUR

T1 - Functional consequence of pathogenic GABRA3 variants determines whether X-linked inheritance is dominant or recessive

AU - Johannesen, Katrine M.

AU - Aung, Khaing Phyu

AU - Liao, Vivian Wy

AU - Absalom, Nathan

AU - Chua, Han C.

AU - Gan, Xue N.

AU - Mao, Miaomiao

AU - McKenzie, Chaseley E.

AU - Lee, Hian M.

AU - Ortiz, Sebastian

AU - Spillmann, Rebecca C.

AU - Shashi, Vandana

AU - Radtke, Rodney A.

AU - Mirzaa, Ghayda M.

AU - Weisner, P. Anne

AU - Flores Daboub, Josue

AU - Hagedorn, Caroline

AU - Bayrak-Toydemir, Pinar

AU - DeMille, Desiree

AU - Zhao, Jian

AU - Bajaj, Nandita

AU - Capri, Yline

AU - Keren, Boris

AU - Schmidts, Miriam

AU - van de Laar, Ingrid Mbh

AU - van Slegtenhorst, Marjon A.

AU - Ploski, Rafal

AU - Bogotko, Marta

AU - Bourque, Danielle K.

AU - Alkhunaizi, Ebba

AU - Chad, Lauren

AU - Quercia, Nada

AU - Elloumi, Houda

AU - Wentzensen, Ingrid M.

AU - Kruer, Michael C.

AU - Bisarad, Pritha

AU - Galaz-Montoya, Carolina I.

AU - Rusu, Violeta

AU - Braun, Dominique

AU - Angione, Katie

AU - Win, Jessica C.

AU - Espinosa-Jovel, Camilo

AU - Zacher, Pia

AU - Platzer, Konrad

AU - Berkovic, Samuel F.

AU - Scheffer, Ingrid E.

AU - Chebib, Mary

AU - Rubboli, Guido

AU - Møller, Rikke S.

AU - Reid, Christopher A.

AU - Ahring, Philip K.

PY - 2026/1/16

Y1 - 2026/1/16

N2 - Disorders of GABRA3, the only epilepsy-associated GABAA receptor subunit gene on the X chromosome, have eluded clinical clarity due to ambiguous inheritance patterns and variable phenotypes. The long-standing assumption that all pathogenic variants cause loss of function further obscured genotype-phenotype relationships and hindered progress. Here, we curated a cohort of individuals with a GABRA3 variant, integrating deep phenotyping, genotyping, family history, and electrophysiology with a targeted mouse model. Among 43 individuals with 19 GABRA3 variants, functional analyses revealed gain- and loss-of-function effects, each linked to distinct clinical profiles. Gain-of-function variants were associated with severe, treatment-resistant epilepsy and profound intellectual disability, disproportionately affecting males, who were often nonambulant and had cortical visual impairment. Loss-of-function variants produced milder phenotypes, with epilepsy rarely observed; affected males showed behavioral issues and language delay, while females were unaffected carriers. Our gain-of-function (Gabra3Q242L/+) mouse model mirrored these sex-specific differences, showing increased seizure susceptibility, early death, and marked cortical hyperexcitability. These insights resolve longstanding uncertainties surrounding GABRA3 and redefine how X-linked disorders are interpreted. They demonstrate that it is the functional impact of a variant, not its mere presence, that determines whether a condition manifests dominantly or recessively. This distinction carries important implications for genetic counseling, precision medicine, and the broader interpretation of X-linked neurodevelopmental disorders.

AB - Disorders of GABRA3, the only epilepsy-associated GABAA receptor subunit gene on the X chromosome, have eluded clinical clarity due to ambiguous inheritance patterns and variable phenotypes. The long-standing assumption that all pathogenic variants cause loss of function further obscured genotype-phenotype relationships and hindered progress. Here, we curated a cohort of individuals with a GABRA3 variant, integrating deep phenotyping, genotyping, family history, and electrophysiology with a targeted mouse model. Among 43 individuals with 19 GABRA3 variants, functional analyses revealed gain- and loss-of-function effects, each linked to distinct clinical profiles. Gain-of-function variants were associated with severe, treatment-resistant epilepsy and profound intellectual disability, disproportionately affecting males, who were often nonambulant and had cortical visual impairment. Loss-of-function variants produced milder phenotypes, with epilepsy rarely observed; affected males showed behavioral issues and language delay, while females were unaffected carriers. Our gain-of-function (Gabra3Q242L/+) mouse model mirrored these sex-specific differences, showing increased seizure susceptibility, early death, and marked cortical hyperexcitability. These insights resolve longstanding uncertainties surrounding GABRA3 and redefine how X-linked disorders are interpreted. They demonstrate that it is the functional impact of a variant, not its mere presence, that determines whether a condition manifests dominantly or recessively. This distinction carries important implications for genetic counseling, precision medicine, and the broader interpretation of X-linked neurodevelopmental disorders.

KW - Epilepsy

KW - Genetic diseases

KW - Genetics

KW - Intellectual disability

KW - Neuroscience

UR - https://www.scopus.com/pages/publications/105027680280

U2 - 10.1172/JCI189830

DO - 10.1172/JCI189830

M3 - Article

C2 - 41289009

AN - SCOPUS:105027680280

SN - 0021-9738

VL - 136

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 2

M1 - e189830

ER -

Functional consequence of pathogenic GABRA3 variants determines whether X-linked inheritance is dominant or recessive

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Keywords

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