Discovery of a DNA methylation profile in individuals with Sifrim-Hitz-Weiss syndrome

Karim Karimi; Yael Lichtenstein; Jack Reilly; Haley McConkey; Raissa Relator; Michael A. Levy; Jennifer Kerkhof; Arjan Bouman; Joseph D. Symonds; Jamal Ghoumid; Thomas Smol; Katie Clarkson; Katy Drazba; Raymond J. Louie; Valancy Miranda; Cathleen McCann; Jamie Motta; Emily Lancaster; Suzanne Sallevelt; Richard Sidlow; Jennifer Morrison; Mark Hannibal; Jessica O'Shea; Victor Marin; Chitra Prasad; Chirag Patel; Salmo Raskin; Seco Moro Maria-Noelia; Aranzazú Diaz de Bustamante; Daphna Marom; Tali Barkan; Boris Keren; Celine Poirsier; Lior Cohen; Estelle Colin; Kathleen Gorman; Emily Gallant; Leonie A. Menke; Irene Valenzuela Palafoll; Natalie Hauser; Ingrid M. Wentzensen; Julia Rankin; Peter D. Turnpenny; Philippe M. Campeau; Tugce B. Balci; Matthew L. Tedder; Bekim Sadikovic; Karin Weiss

doi:10.1016/j.ajhg.2024.12.020

Discovery of a DNA methylation profile in individuals with Sifrim-Hitz-Weiss syndrome

Karim Karimi, Yael Lichtenstein, Jack Reilly, Haley McConkey, Raissa Relator, Michael A. Levy, Jennifer Kerkhof, Arjan Bouman, Joseph D. Symonds, Jamal Ghoumid, Thomas Smol, Katie Clarkson, Katy Drazba, Raymond J. Louie, Valancy Miranda, Cathleen McCann, Jamie Motta, Emily Lancaster, Suzanne Sallevelt, Richard SidlowJennifer Morrison, Mark Hannibal, Jessica O'Shea, Victor Marin, Chitra Prasad, Chirag Patel, Salmo Raskin, Seco Moro Maria-Noelia, Aranzazú Diaz de Bustamante, Daphna Marom, Tali Barkan, Boris Keren, Celine Poirsier, Lior Cohen, Estelle Colin, Kathleen Gorman, Emily Gallant, Leonie A. Menke, Irene Valenzuela Palafoll, Natalie Hauser, Ingrid M. Wentzensen, Julia Rankin, Peter D. Turnpenny, Philippe M. Campeau, Tugce B. Balci, Matthew L. Tedder, Bekim Sadikovic, Karin Weiss

Medicine

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

Abstract

Pathogenic heterozygous variants in CHD4 cause Sifrim-Hitz-Weiss syndrome, a neurodevelopmental disorder associated with brain anomalies, heart defects, macrocephaly, hypogonadism, and additional features with variable expressivity. Most individuals have non-recurrent missense variants, complicating variant interpretation. A few were reported with truncating variants, and their role in disease is unclear. DNA methylation episignatures have emerged as highly accurate diagnostic biomarkers in a growing number of rare diseases. We aimed to study evidence for the existence of a CHD4-related DNA methylation episignature. We collected blood DNA samples and/or clinical information from 39 individuals with CHD4 variants, including missense and truncating variants. Genomic DNA methylation analysis was performed on 28 samples. We identified a sensitive and specific DNA methylation episignature in samples with pathogenic missense variants within the ATPase/helicase domain. The same episignature was observed in a family with variable expressivity, a de novo variant near the PHD domain, variants of uncertain significance within the ATPase/helicase domain, and a sample with compound heterozygous variants. DNA methylation data revealed higher percentages of shared probes with BAFopathies, CHD8, and the terminal ADNP variants encoding a protein known to form the ChAHP complex with CHD4. Truncating variants, as well as a sample with a recurrent pathogenic missense variant, exhibited DNA methylation profiles distinct from the ATPase/helicase domain episignature. These DNA methylation differences, together with the distinct clinical features observed in those individuals, provide preliminary evidence for clinical and molecular sub-types in the CHD4-related disorder.

Original language	English
Pages (from-to)	414-427
Number of pages	14
Journal	American Journal of Human Genetics
Volume	112
Issue number	2
DOIs	https://doi.org/10.1016/j.ajhg.2024.12.020
State	Published - 6 Feb 2025

Keywords

ADNP
autism
CHD4
chromatin remodeler
compound heterozygous
methylation
neurodevelopmental
truncating
variable expressivity

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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10.1016/j.ajhg.2024.12.020

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Karimi, K., Lichtenstein, Y., Reilly, J., McConkey, H., Relator, R., Levy, M. A., Kerkhof, J., Bouman, A., Symonds, J. D., Ghoumid, J., Smol, T., Clarkson, K., Drazba, K., Louie, R. J., Miranda, V., McCann, C., Motta, J., Lancaster, E., Sallevelt, S., ... Weiss, K. (2025). Discovery of a DNA methylation profile in individuals with Sifrim-Hitz-Weiss syndrome. American Journal of Human Genetics, 112(2), 414-427. https://doi.org/10.1016/j.ajhg.2024.12.020

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title = "Discovery of a DNA methylation profile in individuals with Sifrim-Hitz-Weiss syndrome",

abstract = "Pathogenic heterozygous variants in CHD4 cause Sifrim-Hitz-Weiss syndrome, a neurodevelopmental disorder associated with brain anomalies, heart defects, macrocephaly, hypogonadism, and additional features with variable expressivity. Most individuals have non-recurrent missense variants, complicating variant interpretation. A few were reported with truncating variants, and their role in disease is unclear. DNA methylation episignatures have emerged as highly accurate diagnostic biomarkers in a growing number of rare diseases. We aimed to study evidence for the existence of a CHD4-related DNA methylation episignature. We collected blood DNA samples and/or clinical information from 39 individuals with CHD4 variants, including missense and truncating variants. Genomic DNA methylation analysis was performed on 28 samples. We identified a sensitive and specific DNA methylation episignature in samples with pathogenic missense variants within the ATPase/helicase domain. The same episignature was observed in a family with variable expressivity, a de novo variant near the PHD domain, variants of uncertain significance within the ATPase/helicase domain, and a sample with compound heterozygous variants. DNA methylation data revealed higher percentages of shared probes with BAFopathies, CHD8, and the terminal ADNP variants encoding a protein known to form the ChAHP complex with CHD4. Truncating variants, as well as a sample with a recurrent pathogenic missense variant, exhibited DNA methylation profiles distinct from the ATPase/helicase domain episignature. These DNA methylation differences, together with the distinct clinical features observed in those individuals, provide preliminary evidence for clinical and molecular sub-types in the CHD4-related disorder.",

keywords = "ADNP, autism, CHD4, chromatin remodeler, compound heterozygous, methylation, neurodevelopmental, truncating, variable expressivity",

author = "Karim Karimi and Yael Lichtenstein and Jack Reilly and Haley McConkey and Raissa Relator and Levy, {Michael A.} and Jennifer Kerkhof and Arjan Bouman and Symonds, {Joseph D.} and Jamal Ghoumid and Thomas Smol and Katie Clarkson and Katy Drazba and Louie, {Raymond J.} and Valancy Miranda and Cathleen McCann and Jamie Motta and Emily Lancaster and Suzanne Sallevelt and Richard Sidlow and Jennifer Morrison and Mark Hannibal and Jessica O'Shea and Victor Marin and Chitra Prasad and Chirag Patel and Salmo Raskin and Maria-Noelia, {Seco Moro} and {Diaz de Bustamante}, Aranzaz{\'u} and Daphna Marom and Tali Barkan and Boris Keren and Celine Poirsier and Lior Cohen and Estelle Colin and Kathleen Gorman and Emily Gallant and Menke, {Leonie A.} and {Valenzuela Palafoll}, Irene and Natalie Hauser and Wentzensen, {Ingrid M.} and Julia Rankin and Turnpenny, {Peter D.} and Campeau, {Philippe M.} and Balci, {Tugce B.} and Tedder, {Matthew L.} and Bekim Sadikovic and Karin Weiss",

note = "Publisher Copyright: {\textcopyright} 2024 American Society of Human Genetics",

year = "2025",

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day = "6",

doi = "10.1016/j.ajhg.2024.12.020",

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Karimi, K, Lichtenstein, Y, Reilly, J, McConkey, H, Relator, R, Levy, MA, Kerkhof, J, Bouman, A, Symonds, JD, Ghoumid, J, Smol, T, Clarkson, K, Drazba, K, Louie, RJ, Miranda, V, McCann, C, Motta, J, Lancaster, E, Sallevelt, S, Sidlow, R, Morrison, J, Hannibal, M, O'Shea, J, Marin, V, Prasad, C, Patel, C, Raskin, S, Maria-Noelia, SM, Diaz de Bustamante, A, Marom, D, Barkan, T, Keren, B, Poirsier, C, Cohen, L, Colin, E, Gorman, K, Gallant, E, Menke, LA, Valenzuela Palafoll, I, Hauser, N, Wentzensen, IM, Rankin, J, Turnpenny, PD, Campeau, PM, Balci, TB, Tedder, ML, Sadikovic, B & Weiss, K 2025, 'Discovery of a DNA methylation profile in individuals with Sifrim-Hitz-Weiss syndrome', American Journal of Human Genetics, vol. 112, no. 2, pp. 414-427. https://doi.org/10.1016/j.ajhg.2024.12.020

TY - JOUR

T1 - Discovery of a DNA methylation profile in individuals with Sifrim-Hitz-Weiss syndrome

AU - Karimi, Karim

AU - Lichtenstein, Yael

AU - Reilly, Jack

AU - McConkey, Haley

AU - Relator, Raissa

AU - Levy, Michael A.

AU - Kerkhof, Jennifer

AU - Bouman, Arjan

AU - Symonds, Joseph D.

AU - Ghoumid, Jamal

AU - Smol, Thomas

AU - Clarkson, Katie

AU - Drazba, Katy

AU - Louie, Raymond J.

AU - Miranda, Valancy

AU - McCann, Cathleen

AU - Motta, Jamie

AU - Lancaster, Emily

AU - Sallevelt, Suzanne

AU - Sidlow, Richard

AU - Morrison, Jennifer

AU - Hannibal, Mark

AU - O'Shea, Jessica

AU - Marin, Victor

AU - Prasad, Chitra

AU - Patel, Chirag

AU - Raskin, Salmo

AU - Maria-Noelia, Seco Moro

AU - Diaz de Bustamante, Aranzazú

AU - Marom, Daphna

AU - Barkan, Tali

AU - Keren, Boris

AU - Poirsier, Celine

AU - Cohen, Lior

AU - Colin, Estelle

AU - Gorman, Kathleen

AU - Gallant, Emily

AU - Menke, Leonie A.

AU - Valenzuela Palafoll, Irene

AU - Hauser, Natalie

AU - Wentzensen, Ingrid M.

AU - Rankin, Julia

AU - Turnpenny, Peter D.

AU - Campeau, Philippe M.

AU - Balci, Tugce B.

AU - Tedder, Matthew L.

AU - Sadikovic, Bekim

AU - Weiss, Karin

PY - 2025/2/6

Y1 - 2025/2/6

N2 - Pathogenic heterozygous variants in CHD4 cause Sifrim-Hitz-Weiss syndrome, a neurodevelopmental disorder associated with brain anomalies, heart defects, macrocephaly, hypogonadism, and additional features with variable expressivity. Most individuals have non-recurrent missense variants, complicating variant interpretation. A few were reported with truncating variants, and their role in disease is unclear. DNA methylation episignatures have emerged as highly accurate diagnostic biomarkers in a growing number of rare diseases. We aimed to study evidence for the existence of a CHD4-related DNA methylation episignature. We collected blood DNA samples and/or clinical information from 39 individuals with CHD4 variants, including missense and truncating variants. Genomic DNA methylation analysis was performed on 28 samples. We identified a sensitive and specific DNA methylation episignature in samples with pathogenic missense variants within the ATPase/helicase domain. The same episignature was observed in a family with variable expressivity, a de novo variant near the PHD domain, variants of uncertain significance within the ATPase/helicase domain, and a sample with compound heterozygous variants. DNA methylation data revealed higher percentages of shared probes with BAFopathies, CHD8, and the terminal ADNP variants encoding a protein known to form the ChAHP complex with CHD4. Truncating variants, as well as a sample with a recurrent pathogenic missense variant, exhibited DNA methylation profiles distinct from the ATPase/helicase domain episignature. These DNA methylation differences, together with the distinct clinical features observed in those individuals, provide preliminary evidence for clinical and molecular sub-types in the CHD4-related disorder.

AB - Pathogenic heterozygous variants in CHD4 cause Sifrim-Hitz-Weiss syndrome, a neurodevelopmental disorder associated with brain anomalies, heart defects, macrocephaly, hypogonadism, and additional features with variable expressivity. Most individuals have non-recurrent missense variants, complicating variant interpretation. A few were reported with truncating variants, and their role in disease is unclear. DNA methylation episignatures have emerged as highly accurate diagnostic biomarkers in a growing number of rare diseases. We aimed to study evidence for the existence of a CHD4-related DNA methylation episignature. We collected blood DNA samples and/or clinical information from 39 individuals with CHD4 variants, including missense and truncating variants. Genomic DNA methylation analysis was performed on 28 samples. We identified a sensitive and specific DNA methylation episignature in samples with pathogenic missense variants within the ATPase/helicase domain. The same episignature was observed in a family with variable expressivity, a de novo variant near the PHD domain, variants of uncertain significance within the ATPase/helicase domain, and a sample with compound heterozygous variants. DNA methylation data revealed higher percentages of shared probes with BAFopathies, CHD8, and the terminal ADNP variants encoding a protein known to form the ChAHP complex with CHD4. Truncating variants, as well as a sample with a recurrent pathogenic missense variant, exhibited DNA methylation profiles distinct from the ATPase/helicase domain episignature. These DNA methylation differences, together with the distinct clinical features observed in those individuals, provide preliminary evidence for clinical and molecular sub-types in the CHD4-related disorder.

KW - ADNP

KW - autism

KW - CHD4

KW - chromatin remodeler

KW - compound heterozygous

KW - methylation

KW - neurodevelopmental

KW - truncating

KW - variable expressivity

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U2 - 10.1016/j.ajhg.2024.12.020

DO - 10.1016/j.ajhg.2024.12.020

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C2 - 39824190

AN - SCOPUS:85216541764

SN - 0002-9297

VL - 112

SP - 414

EP - 427

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

IS - 2

ER -

Discovery of a DNA methylation profile in individuals with Sifrim-Hitz-Weiss syndrome

Abstract

Keywords

ASJC Scopus subject areas

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