Monoallelic and biallelic KDM5A variants identified in patients with autism spectrum disorder

Lauretta El Hayek; Ashlesha Gogate; Wei Chen Chen; Kiran Kaur; Maha S. Zaki; Matthias De Wachter; Kristof Van Schil; Leeran Dublin-Ryan; Mina Zamani; Meghan N. Bartos; Susan M. Hiatt; Cécile Courdier; Vincent Michaud; Janna Kenny; Michael Day; Lewis Pang; Mahya Ebrahimi Nasab; Seyed Ali Madani Manshadi; Atieh Eslahi; Masoomeh Ale Rasoul; Eduardo Humberto Sanchez-Mendoza; Charles DeLuca; Dana Marafi; Servi J.C. Stevens; Ivan Ivanovski; Tanja Frey; Katharina Steindl; Anita Rauch; Kaitlyn O’Connor; Milen Velinov; Xiaoming Shen; Etienne J.M. Janssen; Sahar Sedighzadeh; Dor Mohammad Kordi-Tamandani; Ali Khajeh; Reem M. Elshafie; Laila Bastaki; Vinod K. Misra; Zahra Firoozfar; Paula C. Goldenberg; Mehran Beiraghi Toosi; Majid Mojarrad; Karl Kavanagh; Daniel C. Koboldt; Henri Margot; Anna C.E. Hurst; Axel Weber; Carsten Bergmann; Henry Houlden; Reza Maroofian; Et al.

doi:10.1016/j.xhgg.2026.100594

Monoallelic and biallelic KDM5A variants identified in patients with autism spectrum disorder

Lauretta El Hayek
, Ashlesha Gogate
, Wei Chen Chen
, Kiran Kaur
, Maha S. Zaki
, Matthias De Wachter
, Kristof Van Schil
, Leeran Dublin-Ryan
, Mina Zamani
, Meghan N. Bartos
, Susan M. Hiatt
, Cécile Courdier
, Vincent Michaud
, Janna Kenny
, Michael Day
, Lewis Pang
, Mahya Ebrahimi Nasab
, Seyed Ali Madani Manshadi
, Atieh Eslahi
, Masoomeh Ale Rasoul

Eduardo Humberto Sanchez-Mendoza, Charles DeLuca, Dana Marafi, Servi J.C. Stevens, Ivan Ivanovski, Tanja Frey, Katharina Steindl, Anita Rauch, Kaitlyn O’Connor, Milen Velinov, Xiaoming Shen, Etienne J.M. Janssen, Sahar Sedighzadeh, Dor Mohammad Kordi-Tamandani, Ali Khajeh, Reem M. Elshafie, Laila Bastaki, Vinod K. Misra, Zahra Firoozfar, Paula C. Goldenberg, Mehran Beiraghi Toosi, Majid Mojarrad, Karl Kavanagh, Daniel C. Koboldt, Henri Margot, Anna C.E. Hurst, Axel Weber, Carsten Bergmann, Henry Houlden, Reza Maroofian, Et al.

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

Abstract

Chromatin regulation is critical for neurodevelopment, and its disruption has emerged as a key pathogenic mechanism in neurodevelopmental disease, including autism spectrum disorder (ASD), a condition known for genetic and phenotypic heterogeneity. We previously identified an ASD gene, KDM5A , encoding a histone H3 lysine 4 demethylase, and reported de novo and inherited variants in nine individuals with severe ASD and other neurodevelopmental phenotypes. Here, we expand the genetic and phenotypic spectrum of KDM5A -related neurodevelopmental disorders and investigate the functional impact of identified variants. Through international collaborations, we assembled a cohort of 24 additional individuals from 21 families with rare, protein-altering KDM5A variants. All individuals presented with severe speech impairment and intellectual disability, often alongside ASD and other neurodevelopmental features. The variants include missense, nonsense, frameshift, and splice site, distributed across nearly all functional domains of the protein. Structural modeling revealed localized conformational disruptions, particularly at conserved residues in enzymatic or chromatin-interacting domains. For a subset of variants, we demonstrated reduced KDM5A protein levels in cell lines derived from affected individuals. Transcriptomic profiling revealed variant-specific gene expression changes, most pronounced in variants affecting the PLU1 chromatin-binding motif and the Jumonji C domain of the enzymatic core. American College of Medical Genetics and Genomics-guided reclassification supported pathogenicity for the majority of variants, including multiple upgrades from uncertain significance to pathogenic or likely pathogenic. Together, these findings implicate diverse KDM5A alleles in a rare but recurrent form of ASD and establish KDM5A as a key regulator of neurodevelopment and chromatin-mediated ASD pathogenesis.

Original language	English
Article number	100594
Number of pages	19
Journal	HGG advances
Volume	7
Issue number	3
DOIs	https://doi.org/10.1016/j.xhgg.2026.100594
Publication status	Published - 9 Jul 2026

Keywords

autism
chromatin regulation
histone demethylase
neurodevelopmental disorders
speech deficits

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10.1016/j.xhgg.2026.100594

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El Hayek, L., Gogate, A., Chen, W. C., Kaur, K., Zaki, M. S., De Wachter, M., Van Schil, K., Dublin-Ryan, L., Zamani, M., Bartos, M. N., Hiatt, S. M., Courdier, C., Michaud, V., Kenny, J., Day, M., Pang, L., Nasab, M. E., Madani Manshadi, S. A., Eslahi, A., ... Et al. (2026). Monoallelic and biallelic KDM5A variants identified in patients with autism spectrum disorder. HGG advances, 7(3), Article 100594. https://doi.org/10.1016/j.xhgg.2026.100594

@article{5ef5b29af35b467e95689b137085d721,

title = "Monoallelic and biallelic KDM5A variants identified in patients with autism spectrum disorder",

abstract = "Chromatin regulation is critical for neurodevelopment, and its disruption has emerged as a key pathogenic mechanism in neurodevelopmental disease, including autism spectrum disorder (ASD), a condition known for genetic and phenotypic heterogeneity. We previously identified an ASD gene, KDM5A , encoding a histone H3 lysine 4 demethylase, and reported de novo and inherited variants in nine individuals with severe ASD and other neurodevelopmental phenotypes. Here, we expand the genetic and phenotypic spectrum of KDM5A -related neurodevelopmental disorders and investigate the functional impact of identified variants. Through international collaborations, we assembled a cohort of 24 additional individuals from 21 families with rare, protein-altering KDM5A variants. All individuals presented with severe speech impairment and intellectual disability, often alongside ASD and other neurodevelopmental features. The variants include missense, nonsense, frameshift, and splice site, distributed across nearly all functional domains of the protein. Structural modeling revealed localized conformational disruptions, particularly at conserved residues in enzymatic or chromatin-interacting domains. For a subset of variants, we demonstrated reduced KDM5A protein levels in cell lines derived from affected individuals. Transcriptomic profiling revealed variant-specific gene expression changes, most pronounced in variants affecting the PLU1 chromatin-binding motif and the Jumonji C domain of the enzymatic core. American College of Medical Genetics and Genomics-guided reclassification supported pathogenicity for the majority of variants, including multiple upgrades from uncertain significance to pathogenic or likely pathogenic. Together, these findings implicate diverse KDM5A alleles in a rare but recurrent form of ASD and establish KDM5A as a key regulator of neurodevelopment and chromatin-mediated ASD pathogenesis.",

keywords = "autism, chromatin regulation, histone demethylase, neurodevelopmental disorders, speech deficits",

author = "\{El Hayek\}, Lauretta and Ashlesha Gogate and Chen, \{Wei Chen\} and Kiran Kaur and Zaki, \{Maha S.\} and \{De Wachter\}, Matthias and \{Van Schil\}, Kristof and Leeran Dublin-Ryan and Mina Zamani and Bartos, \{Meghan N.\} and Hiatt, \{Susan M.\} and C{\'e}cile Courdier and Vincent Michaud and Janna Kenny and Michael Day and Lewis Pang and Nasab, \{Mahya Ebrahimi\} and \{Madani Manshadi\}, \{Seyed Ali\} and Atieh Eslahi and Rasoul, \{Masoomeh Ale\} and Sanchez-Mendoza, \{Eduardo Humberto\} and Charles DeLuca and Dana Marafi and Stevens, \{Servi J.C.\} and Ivan Ivanovski and Tanja Frey and Katharina Steindl and Anita Rauch and Kaitlyn O{\textquoteright}Connor and Milen Velinov and Xiaoming Shen and Janssen, \{Etienne J.M.\} and Sahar Sedighzadeh and Kordi-Tamandani, \{Dor Mohammad\} and Ali Khajeh and Elshafie, \{Reem M.\} and Laila Bastaki and Misra, \{Vinod K.\} and Zahra Firoozfar and Goldenberg, \{Paula C.\} and Toosi, \{Mehran Beiraghi\} and Majid Mojarrad and Karl Kavanagh and Koboldt, \{Daniel C.\} and Henri Margot and Hurst, \{Anna C.E.\} and Axel Weber and Carsten Bergmann and Henry Houlden and Reza Maroofian and \{Et al.\}",

note = "Funding Information: We are grateful to the families for their participation in our study. This work was supported by the University of Texas Southwestern Medical Center and the Walter and Lillian Cantor Foundation to M.H.C. Publisher Copyright: {\textcopyright} 2026 The Author(s).",

year = "2026",

month = jul,

day = "9",

doi = "10.1016/j.xhgg.2026.100594",

language = "English",

volume = "7",

journal = "HGG advances",

issn = "2666-2477",

publisher = "Elsevier Inc.",

number = "3",

}

El Hayek, L, Gogate, A, Chen, WC, Kaur, K, Zaki, MS, De Wachter, M, Van Schil, K, Dublin-Ryan, L, Zamani, M, Bartos, MN, Hiatt, SM, Courdier, C, Michaud, V, Kenny, J, Day, M, Pang, L, Nasab, ME, Madani Manshadi, SA, Eslahi, A, Rasoul, MA, Sanchez-Mendoza, EH, DeLuca, C, Marafi, D, Stevens, SJC, Ivanovski, I, Frey, T, Steindl, K, Rauch, A, O’Connor, K, Velinov, M, Shen, X, Janssen, EJM, Sedighzadeh, S, Kordi-Tamandani, DM, Khajeh, A, Elshafie, RM, Bastaki, L, Misra, VK, Firoozfar, Z, Goldenberg, PC, Toosi, MB, Mojarrad, M, Kavanagh, K, Koboldt, DC, Margot, H, Hurst, ACE, Weber, A, Bergmann, C, Houlden, H, Maroofian, R & Et al. 2026, 'Monoallelic and biallelic KDM5A variants identified in patients with autism spectrum disorder', HGG advances, vol. 7, no. 3, 100594. https://doi.org/10.1016/j.xhgg.2026.100594

TY - JOUR

T1 - Monoallelic and biallelic KDM5A variants identified in patients with autism spectrum disorder

AU - El Hayek, Lauretta

AU - Gogate, Ashlesha

AU - Chen, Wei Chen

AU - Kaur, Kiran

AU - Zaki, Maha S.

AU - De Wachter, Matthias

AU - Van Schil, Kristof

AU - Dublin-Ryan, Leeran

AU - Zamani, Mina

AU - Bartos, Meghan N.

AU - Hiatt, Susan M.

AU - Courdier, Cécile

AU - Michaud, Vincent

AU - Kenny, Janna

AU - Day, Michael

AU - Pang, Lewis

AU - Nasab, Mahya Ebrahimi

AU - Madani Manshadi, Seyed Ali

AU - Eslahi, Atieh

AU - Rasoul, Masoomeh Ale

AU - Sanchez-Mendoza, Eduardo Humberto

AU - DeLuca, Charles

AU - Marafi, Dana

AU - Stevens, Servi J.C.

AU - Ivanovski, Ivan

AU - Frey, Tanja

AU - Steindl, Katharina

AU - Rauch, Anita

AU - O’Connor, Kaitlyn

AU - Velinov, Milen

AU - Shen, Xiaoming

AU - Janssen, Etienne J.M.

AU - Sedighzadeh, Sahar

AU - Kordi-Tamandani, Dor Mohammad

AU - Khajeh, Ali

AU - Elshafie, Reem M.

AU - Bastaki, Laila

AU - Misra, Vinod K.

AU - Firoozfar, Zahra

AU - Goldenberg, Paula C.

AU - Toosi, Mehran Beiraghi

AU - Mojarrad, Majid

AU - Kavanagh, Karl

AU - Koboldt, Daniel C.

AU - Margot, Henri

AU - Hurst, Anna C.E.

AU - Weber, Axel

AU - Bergmann, Carsten

AU - Houlden, Henry

AU - Maroofian, Reza

AU - Et al.

N1 - Funding Information: We are grateful to the families for their participation in our study. This work was supported by the University of Texas Southwestern Medical Center and the Walter and Lillian Cantor Foundation to M.H.C. Publisher Copyright: © 2026 The Author(s).

PY - 2026/7/9

Y1 - 2026/7/9

N2 - Chromatin regulation is critical for neurodevelopment, and its disruption has emerged as a key pathogenic mechanism in neurodevelopmental disease, including autism spectrum disorder (ASD), a condition known for genetic and phenotypic heterogeneity. We previously identified an ASD gene, KDM5A , encoding a histone H3 lysine 4 demethylase, and reported de novo and inherited variants in nine individuals with severe ASD and other neurodevelopmental phenotypes. Here, we expand the genetic and phenotypic spectrum of KDM5A -related neurodevelopmental disorders and investigate the functional impact of identified variants. Through international collaborations, we assembled a cohort of 24 additional individuals from 21 families with rare, protein-altering KDM5A variants. All individuals presented with severe speech impairment and intellectual disability, often alongside ASD and other neurodevelopmental features. The variants include missense, nonsense, frameshift, and splice site, distributed across nearly all functional domains of the protein. Structural modeling revealed localized conformational disruptions, particularly at conserved residues in enzymatic or chromatin-interacting domains. For a subset of variants, we demonstrated reduced KDM5A protein levels in cell lines derived from affected individuals. Transcriptomic profiling revealed variant-specific gene expression changes, most pronounced in variants affecting the PLU1 chromatin-binding motif and the Jumonji C domain of the enzymatic core. American College of Medical Genetics and Genomics-guided reclassification supported pathogenicity for the majority of variants, including multiple upgrades from uncertain significance to pathogenic or likely pathogenic. Together, these findings implicate diverse KDM5A alleles in a rare but recurrent form of ASD and establish KDM5A as a key regulator of neurodevelopment and chromatin-mediated ASD pathogenesis.

AB - Chromatin regulation is critical for neurodevelopment, and its disruption has emerged as a key pathogenic mechanism in neurodevelopmental disease, including autism spectrum disorder (ASD), a condition known for genetic and phenotypic heterogeneity. We previously identified an ASD gene, KDM5A , encoding a histone H3 lysine 4 demethylase, and reported de novo and inherited variants in nine individuals with severe ASD and other neurodevelopmental phenotypes. Here, we expand the genetic and phenotypic spectrum of KDM5A -related neurodevelopmental disorders and investigate the functional impact of identified variants. Through international collaborations, we assembled a cohort of 24 additional individuals from 21 families with rare, protein-altering KDM5A variants. All individuals presented with severe speech impairment and intellectual disability, often alongside ASD and other neurodevelopmental features. The variants include missense, nonsense, frameshift, and splice site, distributed across nearly all functional domains of the protein. Structural modeling revealed localized conformational disruptions, particularly at conserved residues in enzymatic or chromatin-interacting domains. For a subset of variants, we demonstrated reduced KDM5A protein levels in cell lines derived from affected individuals. Transcriptomic profiling revealed variant-specific gene expression changes, most pronounced in variants affecting the PLU1 chromatin-binding motif and the Jumonji C domain of the enzymatic core. American College of Medical Genetics and Genomics-guided reclassification supported pathogenicity for the majority of variants, including multiple upgrades from uncertain significance to pathogenic or likely pathogenic. Together, these findings implicate diverse KDM5A alleles in a rare but recurrent form of ASD and establish KDM5A as a key regulator of neurodevelopment and chromatin-mediated ASD pathogenesis.

KW - autism

KW - chromatin regulation

KW - histone demethylase

KW - neurodevelopmental disorders

KW - speech deficits

U2 - 10.1016/j.xhgg.2026.100594

DO - 10.1016/j.xhgg.2026.100594

M3 - Article

SN - 2666-2477

VL - 7

JO - HGG advances

JF - HGG advances

IS - 3

M1 - 100594

ER -

Monoallelic and biallelic KDM5A variants identified in patients with autism spectrum disorder

Abstract

Keywords

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