De novo variants in 
        KDM2A cause a syndromic neurodevelopmental disorder.

Eric N Anderson; Stephan Drukewitz; Sukhleen Kour; Anuradha V Chimata; Deepa S Rajan; Senta Schönnagel; Karen L Stals; Deirdre Donnelly; Siobhan O'Sullivan; John F Mantovani; Tiong Y Tan; Zornitza Stark; Pia Zacher; Nicolas Chatron; Pauline Monin; Severine Drunat; Yoann Vial; Xenia Latypova; Jonathan Levy; Alain Verloes; Jennefer N Carter; Devon E Bonner; Suma P Shankar; Jonathan A Bernstein; Julie S Cohen; Anne Comi; Deanna Alexis Carere; Lisa M Dyer; Sureni V Mullegama; Pedro A Sanchez-Lara; Katheryn Grand; Hyung-Goo Kim; Afif Ben-Mahmoud; Sidney M Gospe; Rebecca S Belles; Gary Bellus; Klaske D Lichtenbelt; Renske Oegema; Anita Rauch; Ivan Ivanovski; Frederic Tran Mau-Them; Aurore Garde; Rachel Rabin; John Pappas; Annette E Bley; Janna Bredow; Timo Wagner; Eva Decker; Carsten Bergmann; Louis Domenach

doi:10.1101/2025.03.31.25324695

De novo variants in KDM2A cause a syndromic neurodevelopmental disorder.

Eric N Anderson, Stephan Drukewitz, Sukhleen Kour, Anuradha V Chimata, Deepa S Rajan, Senta Schönnagel, Karen L Stals, Deirdre Donnelly, Siobhan O'Sullivan, John F Mantovani, Tiong Y Tan, Zornitza Stark, Pia Zacher, Nicolas Chatron, Pauline Monin, Severine Drunat, Yoann Vial, Xenia Latypova, Jonathan Levy, Alain VerloesJennefer N Carter, Devon E Bonner, Suma P Shankar, Jonathan A Bernstein, Julie S Cohen, Anne Comi, Deanna Alexis Carere, Lisa M Dyer, Sureni V Mullegama, Pedro A Sanchez-Lara, Katheryn Grand, Hyung-Goo Kim, Afif Ben-Mahmoud, Sidney M Gospe, Rebecca S Belles, Gary Bellus, Klaske D Lichtenbelt, Renske Oegema, Anita Rauch, Ivan Ivanovski, Frederic Tran Mau-Them, Aurore Garde, Rachel Rabin, John Pappas, Annette E Bley, Janna Bredow, Timo Wagner, Eva Decker, Carsten Bergmann, Louis Domenach,

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Abstract

Germline variants that disrupt components of the epigenetic machinery cause syndromic neurodevelopmental disorders. Using exome and genome sequencing, we identified de novo variants in KDM2A , a lysine demethylase crucial for embryonic development, in 18 individuals with developmental delays and/or intellectual disabilities. The severity ranged from learning disabilities to severe intellectual disability. Other core symptoms included feeding difficulties, growth issues such as intrauterine growth restriction, short stature and microcephaly as well as recurrent facial features like epicanthic folds, upslanted palpebral fissures, thin lips, and low-set ears. Expression of human disease-causing KDM2A variants in a Drosophila melanogaster model led to neural degeneration, motor defects, and reduced lifespan. Interestingly, pathogenic variants in KDM2A affected physiological attributes including subcellular distribution, expression and stability in human cells. Genetic epistasis experiments indicated that KDM2A variants likely exert their effects through a potential gain-of-function mechanism, as eliminating endogenous KDM2A in Drosophila did not produce noticeable neurodevelopmental phenotypes. Data from Enzymatic-Methylation sequencing supports the suggested gene-disease association by showing an aberrant methylome profiles in affected individuals' peripheral blood. Combining our genetic, phenotypic and functional findings, we establish de novo variants in KDM2A as causative for a syndromic neurodevelopmental disorder.

Original language	English
Publisher	medRxiv
Number of pages	51
DOIs	https://doi.org/10.1101/2025.03.31.25324695
Publication status	Published - 1 Apr 2025

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2025.03.31.25324695v1.fullSubmitted manuscript, 1.64 MBLicence: CC BY-NC-ND

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Anderson, E. N., Drukewitz, S., Kour, S., Chimata, A. V., Rajan, D. S., Schönnagel, S., Stals, K. L., Donnelly, D., O'Sullivan, S., Mantovani, J. F., Tan, T. Y., Stark, Z., Zacher, P., Chatron, N., Monin, P., Drunat, S., Vial, Y., Latypova, X., Levy, J. (2025). De novo variants in KDM2A cause a syndromic neurodevelopmental disorder. medRxiv. https://doi.org/10.1101/2025.03.31.25324695

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title = "De novo variants in KDM2A cause a syndromic neurodevelopmental disorder.",

abstract = "Germline variants that disrupt components of the epigenetic machinery cause syndromic neurodevelopmental disorders. Using exome and genome sequencing, we identified de novo variants in KDM2A , a lysine demethylase crucial for embryonic development, in 18 individuals with developmental delays and/or intellectual disabilities. The severity ranged from learning disabilities to severe intellectual disability. Other core symptoms included feeding difficulties, growth issues such as intrauterine growth restriction, short stature and microcephaly as well as recurrent facial features like epicanthic folds, upslanted palpebral fissures, thin lips, and low-set ears. Expression of human disease-causing KDM2A variants in a Drosophila melanogaster model led to neural degeneration, motor defects, and reduced lifespan. Interestingly, pathogenic variants in KDM2A affected physiological attributes including subcellular distribution, expression and stability in human cells. Genetic epistasis experiments indicated that KDM2A variants likely exert their effects through a potential gain-of-function mechanism, as eliminating endogenous KDM2A in Drosophila did not produce noticeable neurodevelopmental phenotypes. Data from Enzymatic-Methylation sequencing supports the suggested gene-disease association by showing an aberrant methylome profiles in affected individuals' peripheral blood. Combining our genetic, phenotypic and functional findings, we establish de novo variants in KDM2A as causative for a syndromic neurodevelopmental disorder. ",

author = "Anderson, {Eric N} and Stephan Drukewitz and Sukhleen Kour and Chimata, {Anuradha V} and Rajan, {Deepa S} and Senta Sch{\"o}nnagel and Stals, {Karen L} and Deirdre Donnelly and Siobhan O'Sullivan and Mantovani, {John F} and Tan, {Tiong Y} and Zornitza Stark and Pia Zacher and Nicolas Chatron and Pauline Monin and Severine Drunat and Yoann Vial and Xenia Latypova and Jonathan Levy and Alain Verloes and Carter, {Jennefer N} and Bonner, {Devon E} and Shankar, {Suma P} and Bernstein, {Jonathan A} and Cohen, {Julie S} and Anne Comi and {Alexis Carere}, Deanna and Dyer, {Lisa M} and Mullegama, {Sureni V} and Sanchez-Lara, {Pedro A} and Katheryn Grand and Hyung-Goo Kim and Afif Ben-Mahmoud and Gospe, {Sidney M} and Belles, {Rebecca S} and Gary Bellus and Lichtenbelt, {Klaske D} and Renske Oegema and Anita Rauch and Ivan Ivanovski and {Tran Mau-Them}, Frederic and Aurore Garde and Rachel Rabin and John Pappas and Bley, {Annette E} and Janna Bredow and Timo Wagner and Eva Decker and Carsten Bergmann and Louis Domenach",

year = "2025",

month = apr,

day = "1",

doi = "10.1101/2025.03.31.25324695",

language = "English",

publisher = "medRxiv",

type = "WorkingPaper",

institution = "medRxiv",

}

Anderson, EN, Drukewitz, S, Kour, S, Chimata, AV, Rajan, DS, Schönnagel, S, Stals, KL, Donnelly, D, O'Sullivan, S, Mantovani, JF, Tan, TY, Stark, Z, Zacher, P, Chatron, N, Monin, P, Drunat, S, Vial, Y, Latypova, X, Levy, J, Verloes, A, Carter, JN, Bonner, DE, Shankar, SP, Bernstein, JA, Cohen, JS, Comi, A, Alexis Carere, D, Dyer, LM, Mullegama, SV, Sanchez-Lara, PA, Grand, K, Kim, H-G, Ben-Mahmoud, A, Gospe, SM, Belles, RS, Bellus, G, Lichtenbelt, KD , Oegema, R, Rauch, A, Ivanovski, I, Tran Mau-Them, F, Garde, A, Rabin, R, Pappas, J, Bley, AE, Bredow, J, Wagner, T, Decker, E, Bergmann, C, Domenach, L 2025 'De novo variants in KDM2A cause a syndromic neurodevelopmental disorder.' medRxiv. https://doi.org/10.1101/2025.03.31.25324695

TY - UNPB

T1 - De novo variants in KDM2A cause a syndromic neurodevelopmental disorder.

AU - Anderson, Eric N

AU - Drukewitz, Stephan

AU - Kour, Sukhleen

AU - Chimata, Anuradha V

AU - Rajan, Deepa S

AU - Schönnagel, Senta

AU - Stals, Karen L

AU - Donnelly, Deirdre

AU - O'Sullivan, Siobhan

AU - Mantovani, John F

AU - Tan, Tiong Y

AU - Stark, Zornitza

AU - Zacher, Pia

AU - Chatron, Nicolas

AU - Monin, Pauline

AU - Drunat, Severine

AU - Vial, Yoann

AU - Latypova, Xenia

AU - Levy, Jonathan

AU - Verloes, Alain

AU - Carter, Jennefer N

AU - Bonner, Devon E

AU - Shankar, Suma P

AU - Bernstein, Jonathan A

AU - Cohen, Julie S

AU - Comi, Anne

AU - Alexis Carere, Deanna

AU - Dyer, Lisa M

AU - Mullegama, Sureni V

AU - Sanchez-Lara, Pedro A

AU - Grand, Katheryn

AU - Kim, Hyung-Goo

AU - Ben-Mahmoud, Afif

AU - Gospe, Sidney M

AU - Belles, Rebecca S

AU - Bellus, Gary

AU - Lichtenbelt, Klaske D

AU - Oegema, Renske

AU - Rauch, Anita

AU - Ivanovski, Ivan

AU - Tran Mau-Them, Frederic

AU - Garde, Aurore

AU - Rabin, Rachel

AU - Pappas, John

AU - Bley, Annette E

AU - Bredow, Janna

AU - Wagner, Timo

AU - Decker, Eva

AU - Bergmann, Carsten

AU - Domenach, Louis

PY - 2025/4/1

Y1 - 2025/4/1

N2 - Germline variants that disrupt components of the epigenetic machinery cause syndromic neurodevelopmental disorders. Using exome and genome sequencing, we identified de novo variants in KDM2A , a lysine demethylase crucial for embryonic development, in 18 individuals with developmental delays and/or intellectual disabilities. The severity ranged from learning disabilities to severe intellectual disability. Other core symptoms included feeding difficulties, growth issues such as intrauterine growth restriction, short stature and microcephaly as well as recurrent facial features like epicanthic folds, upslanted palpebral fissures, thin lips, and low-set ears. Expression of human disease-causing KDM2A variants in a Drosophila melanogaster model led to neural degeneration, motor defects, and reduced lifespan. Interestingly, pathogenic variants in KDM2A affected physiological attributes including subcellular distribution, expression and stability in human cells. Genetic epistasis experiments indicated that KDM2A variants likely exert their effects through a potential gain-of-function mechanism, as eliminating endogenous KDM2A in Drosophila did not produce noticeable neurodevelopmental phenotypes. Data from Enzymatic-Methylation sequencing supports the suggested gene-disease association by showing an aberrant methylome profiles in affected individuals' peripheral blood. Combining our genetic, phenotypic and functional findings, we establish de novo variants in KDM2A as causative for a syndromic neurodevelopmental disorder.

AB - Germline variants that disrupt components of the epigenetic machinery cause syndromic neurodevelopmental disorders. Using exome and genome sequencing, we identified de novo variants in KDM2A , a lysine demethylase crucial for embryonic development, in 18 individuals with developmental delays and/or intellectual disabilities. The severity ranged from learning disabilities to severe intellectual disability. Other core symptoms included feeding difficulties, growth issues such as intrauterine growth restriction, short stature and microcephaly as well as recurrent facial features like epicanthic folds, upslanted palpebral fissures, thin lips, and low-set ears. Expression of human disease-causing KDM2A variants in a Drosophila melanogaster model led to neural degeneration, motor defects, and reduced lifespan. Interestingly, pathogenic variants in KDM2A affected physiological attributes including subcellular distribution, expression and stability in human cells. Genetic epistasis experiments indicated that KDM2A variants likely exert their effects through a potential gain-of-function mechanism, as eliminating endogenous KDM2A in Drosophila did not produce noticeable neurodevelopmental phenotypes. Data from Enzymatic-Methylation sequencing supports the suggested gene-disease association by showing an aberrant methylome profiles in affected individuals' peripheral blood. Combining our genetic, phenotypic and functional findings, we establish de novo variants in KDM2A as causative for a syndromic neurodevelopmental disorder.

U2 - 10.1101/2025.03.31.25324695

DO - 10.1101/2025.03.31.25324695

M3 - Preprint

C2 - 40236430

BT - De novo variants in KDM2A cause a syndromic neurodevelopmental disorder.

PB - medRxiv

ER -

De novo variants in KDM2A cause a syndromic neurodevelopmental disorder.

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