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

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

doi:10.1186/s12920-019-0555-y

Cited by 27 publications

(45 citation statements)

References 51 publications

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“…We show that the EZH2 signature can differentiate the functional effects of missense variants in EZH2 using two previously validated classification models specifically correlation-based 9 , 14 , 15 and machine learning. 10 , 40 , 46 We propose that review of the clinical features of subjects carrying sequence variants in disease-associated genes, such as EZH2 , combined with the application of several methods to visualize the data in different ways as presented here, can improve the utility of this highly sensitive and specific functional assay for variant pathogenicity classification.…”

Section: Discussionmentioning

confidence: 98%

“…These signatures can be used to functionally classify sequence variants, with high sensitivity and specificity and to improve our understanding of the pathophysiology of the associated genetic disorder. 9 , 10 , 11 , 12 , 13 , 14 , 15 We have also shown that pathogenic sequence variants in clinically overlapping, genetically distinct disorders may lead to similar epigenetic patterns of regulatory disruption. Our group has recently reported this phenomenon in Kabuki syndrome (KS) types 1 and 2, for which sequence variants in different causative genes ( KMT2D [MIM: 602113 ], KDM6A [MIM: 300128 ]) share an epigenetic disease signature 10 and in BAF complex-associated disorders, we and others have reported similar findings.…”

Section: Introductionmentioning

confidence: 92%

“…Our group has recently reported this phenomenon in Kabuki syndrome (KS) types 1 and 2, for which sequence variants in different causative genes ( KMT2D [MIM: 602113 ], KDM6A [MIM: 300128 ]) share an epigenetic disease signature 10 and in BAF complex-associated disorders, we and others have reported similar findings. 12 , 15 …”

Section: Introductionmentioning

confidence: 99%

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DNA Methylation Signature for EZH2 Functionally Classifies Sequence Variants in Three PRC2 Complex Genes

Choufani

Gibson

Turinsky

et al. 2020

The American Journal of Human Genetics

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Weaver syndrome (WS), an overgrowth/intellectual disability syndrome (OGID), is caused by pathogenic variants in the histone methyltransferase EZH2 , which encodes a core component of the Polycomb repressive complex-2 (PRC2). Using genome-wide DNA methylation (DNAm) data for 187 individuals with OGID and 969 control subjects, we show that pathogenic variants in EZH2 generate a highly specific and sensitive DNAm signature reflecting the phenotype of WS. This signature can be used to distinguish loss-of-function from gain-of-function missense variants and to detect somatic mosaicism. We also show that the signature can accurately classify sequence variants in EED and SUZ12 , which encode two other core components of PRC2, and predict the presence of pathogenic variants in undiagnosed individuals with OGID. The discovery of a functionally relevant signature with utility for diagnostic classification of sequence variants in EZH2 , EED , and SUZ12 supports the emerging paradigm shift for implementation of DNAm signatures into diagnostics and translational research.

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Section: Discussionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 92%

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DNA Methylation Signature for EZH2 Functionally Classifies Sequence Variants in Three PRC2 Complex Genes

Choufani

Gibson

Turinsky

et al. 2020

The American Journal of Human Genetics

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“…We discovered that pathogenic variants in these genes can exhibit disorder-specific DNAm signatures comprised of consistent, multilocus DNAm alterations in peripheral blood (Choufani et al , 2015). More than 50 DNAm signatures associated with disorders of the epigenetic machinery have now been established (Choufani et al , 2015, 2020; Butcher et al , 2017; Aref-Eshghi et al , 2019; Chater-Diehl et al , 2019). DNAm signatures are highly sensitive and specific for each condition, able to discriminate between related disorders, and useful for classifying variants in these genes as pathogenic or benign (Choufani et al , 2015; Butcher et al , 2017; Aref-Eshghi et al , 2019; Chater-Diehl et al , 2019).…”

Section: Inotroductionmentioning

confidence: 99%

Integrative approach to interpret DYRK1A variants, leading to a frequent neurodevelopmental disorder

Courraud

Chater‐Diehl

Durand

et al. 2021

Preprint

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ABBSTRACTDYRK1A-related intellectual disability (ID) is among the most frequent monogenic form of ID. We refined the description of this disorder by reporting clinical and molecular data of forty individuals with ID harboring DYRK1A variants. We developed a combination of tools to interpret missense variants, which remains a major challenge in human genetics: i) a specific DYRK1A clinical score, ii) amino acid conservation data generated from one hundred of DYRK1A sequences across different taxa, iii) in vitro overexpression assays to study level, cellular localization, and kinase activity of DYRK1A mutant proteins, and iv) a specific blood DNA methylation signature. This integrative approach was successful to reclassify several variants as pathogenic. However, we questioned the involvement of some others, such as p.Thr588Asn, yet reported as pathogenic, and showed it does not cause obvious phenotype in mice, emphasizing the need to take care when interpreting variants, even those occurring de novo.

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“…In our differential expression analysis, we found that MPP5 has a nominal negative association with IQ. Lastly, we also estimated that SMARCA2 has a strong predictive effect on and a nominally positive association with IQ; previous literature shows that epigenomic effects on and genetic dysfunction of SMARCA2 plays a role in development of Nicolaides-Baraitser syndrome, a developmental disorder categorized by intellectual disability and seizures [68,69]. It is worth noting that these results are ultimately correlational in nature, and a causal interpretation should be avoided.…”

Section: Discussionmentioning

confidence: 77%

Evidence for the placenta-brain axis: multi-omic kernel aggregation predicts intellectual and social impairment in children born extremely preterm

Santos¹,

Bhattacharya

Joseph

et al. 2020

Molecular Autism

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Background Children born extremely preterm are at heightened risk for intellectual and social impairment, including Autism Spectrum Disorder (ASD). There is increasing evidence for a key role of the placenta in prenatal developmental programming, suggesting that the placenta may, in part, contribute to origins of neurodevelopmental outcomes. Methods We examined associations between placental transcriptomic and epigenomic profiles and assessed their ability to predict intellectual and social impairment at age 10 years in 379 children from the Extremely Low Gestational Age Newborn (ELGAN) cohort. Assessment of intellectual ability (IQ) and social function was completed with the Differential Ability Scales-II and Social Responsiveness Scale (SRS), respectively. Examining IQ and SRS allows for studying ASD risk beyond the diagnostic criteria, as IQ and SRS are continuous measures strongly correlated with ASD. Genome-wide mRNA, CpG methylation and miRNA were assayeds with the Illumina Hiseq 2500, HTG EdgeSeq miRNA Whole Transcriptome Assay, and Illumina EPIC/850 K array, respectively. We conducted genome-wide differential analyses of placental mRNA, miRNA, and CpG methylation data. These molecular features were then integrated for a predictive analysis of IQ and SRS outcomes using kernel aggregation regression. We lastly examined associations between ASD and the multi-omic-predicted component of IQ and SRS. Results Genes with important roles in neurodevelopment and placental tissue organization were associated with intellectual and social impairment. Kernel aggregations of placental multi-omics strongly predicted intellectual and social function, explaining approximately 8% and 12% of variance in SRS and IQ scores via cross-validation, respectively. Predicted in-sample SRS and IQ showed significant positive and negative associations with ASD case–control status. Limitations The ELGAN cohort comprises children born pre-term, and generalization may be affected by unmeasured confounders associated with low gestational age. We conducted external validation of predictive models, though the sample size (N = 49) and the scope of the available out-sample placental dataset are limited. Further validation of the models is merited. Conclusions Aggregating information from biomarkers within and among molecular data types improves prediction of complex traits like social and intellectual ability in children born extremely preterm, suggesting that traits within the placenta-brain axis may be omnigenic.

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

Cited by 27 publications

References 51 publications

DNA Methylation Signature for EZH2 Functionally Classifies Sequence Variants in Three PRC2 Complex Genes

DNA Methylation Signature for EZH2 Functionally Classifies Sequence Variants in Three PRC2 Complex Genes

Integrative approach to interpret DYRK1A variants, leading to a frequent neurodevelopmental disorder

Evidence for the placenta-brain axis: multi-omic kernel aggregation predicts intellectual and social impairment in children born extremely preterm

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