New insights into DNA methylation signatures: SMARCA2 variants in Nicolaides-Baraitser syndrome

Eric Chater-Diehl; Resham Ejaz; Cheryl Cytrynbaum; Michelle T. Siu; Andrei Turinsky; Sanaa Choufani; Sarah J. Goodman; Omar Abdul-Rahman; Melanie Bedford; Naghmeh Dorrani; Kendra Engleman; Josue Flores-Daboub; David Genevieve; Roberto Mendoza-Londono; Wendy Meschino; Laurence Perrin; Nicole Safina; Sharron Townshend; Stephen W. Scherer; Evdokia Anagnostou; Amelie Piton; Matthew Deardorff; Michael Brudno; David Chitayat; Rosanna Weksberg

doi:10.1186/s12920-019-0555-y

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New insights into DNA methylation signatures: SMARCA2 variants in Nicolaides-Baraitser syndrome

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New insights into DNA methylation signatures: SMARCA2 variants in Nicolaides-Baraitser syndrome

Eric Chater-Diehl, Resham Ejaz, Cheryl Cytrynbaum, Michelle T. Siu, Andrei Turinsky, Sanaa Choufani, Sarah J. Goodman, Omar Abdul-Rahman, Melanie Bedford, Naghmeh Dorrani, …

BMC medical genomics, Vol.12(1), pp.105-105

07/09/2019

DOI: 10.1186/s12920-019-0555-y

PMCID: PMC6617651

PMID: 31288860

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Abstract

Background: Nicolaides-Baraitser syndrome (NCBRS) is a neurodevelopmental disorder caused by pathogenic sequence variants in SMARCA2 which encodes the catalytic component of the chromatin remodeling BAF complex. Pathogenic variants in genes that encode epigenetic regulators have been associated with genome-wide changes in DNA methylation (DNAm) in affected individuals termed DNAm signatures. Methods: Genome-wide DNAm was assessed in whole-blood samples from the individuals with pathogenic SMARCA2 variants and NCBRS diagnosis (n = 8) compared to neurotypical controls (n = 23) using the Illumina MethylationEPIC array. Differential methylated CpGs between groups (DNAm signature) were identified and used to generate a model enabling classification variants of uncertain significance (VUS; n = 9) in SMARCA2 as "pathogenic" or "benign". A validation cohort of NCBRS cases (n = 8) and controls (n = 96) demonstrated 100% model sensitivity and specificity. Results: We identified a DNAm signature of 429 differentially methylated CpG sites in individuals with NCBRS. The genes to which these CpG sites map are involved in cell differentiation, calcium signaling, and neuronal function consistent with NCBRS pathophysiology. DNAm model classifications of VUS were concordant with the clinical phenotype; those within the SMARCA2 ATPase/helicase domain classified as "pathogenic". A patient with a mild neurodevelopmental NCBRS phenotype and a VUS distal to the ATPase/helicase domain did not score as pathogenic, clustering away from cases and controls. She demonstrated an intermediate DNAm profile consisting of one subset of signature CpGs with methylation levels characteristic of controls and another characteristic of NCBRS cases; each mapped to genes with ontologies consistent with the patient's unique clinical presentation. Conclusions: Here we find that a DNAm signature of SMARCA2 pathogenic variants in NCBRS maps to CpGs relevant to disorder pathophysiology, classifies VUS, and is sensitive to the position of the variant in SMARCA2. The patient with an intermediate model score demonstrating a unique genotype-epigenotype-phenotype correlation underscores the potential utility of this signature as a functionally relevant VUS classification system scalable beyond binary "benign" versus "pathogenic" scoring. This is a novel feature of DNAm signatures that could enable phenotypic predictions from genotype data. Our findings also demonstrate that DNAm signatures can be domain-specific, highlighting the precision with which they can reflect genotypic variation.

BAF complex

Chromatin remodeling

DNA methylation

Epigenomics

NCBRS

Signature

SMARCA2

SNF

SWI

VUS

Details

Title: Subtitle: New insights into DNA methylation signatures: SMARCA2 variants in Nicolaides-Baraitser syndrome
Creators: Eric Chater-Diehl - Hospital for Sick Children
Resham Ejaz - McMaster University
Cheryl Cytrynbaum - University of Toronto
Michelle T. Siu - Hospital for Sick Children
Andrei Turinsky - Hospital for Sick Children
Sanaa Choufani - Hospital for Sick Children
Sarah J. Goodman - Hospital for Sick Children
Omar Abdul-Rahman - Nebraska Medical Center
Melanie Bedford - University of Toronto
Naghmeh Dorrani - University of California, Los Angeles
Kendra Engleman - Children's Mercy Hospital
Josue Flores-Daboub - University of Utah
David Genevieve - Université de Montpellier
Roberto Mendoza-Londono - University of Toronto
Wendy Meschino - North York General Hospital
Laurence Perrin - Hôpital Robert-Debré
Nicole Safina - Children's Mercy Hospital
Sharron Townshend - Government of Western Australia
Stephen W. Scherer - Hospital for Sick Children
Evdokia Anagnostou - University of Toronto
Amelie Piton - Institut de génétique et de biologie moléculaire et cellulaire
Matthew Deardorff - Children's Hospital of Philadelphia
Michael Brudno - University of Toronto
David Chitayat - University of Toronto
Rosanna Weksberg - Hospital for Sick Children
Resource Type: Journal article
Publication Details: BMC medical genomics, Vol.12(1), pp.105-105
DOI: 10.1186/s12920-019-0555-y
PMID: 31288860
PMCID: PMC6617651
NLM abbreviation: BMC Med Genomics
ISSN: 1755-8794
eISSN: 1755-8794
Publisher: BioMed Central
Grant note: ; ICH-155182 / ; 6240100070 / ;
Language: English
Date published: 07/09/2019
Academic Unit: Stead Family Department of Pediatrics; Medical Genetics and Genomics
Record Identifier: 9984353842102771

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