Clinical Utility of a Unique Genome-Wide DNA Methylation Signature for KMT2A-Related Syndrome

Aidin Foroutan; Sadegheh Haghshenas; Pratibha Bhai; Michael A. Levy; Jennifer Kerkhof; Haley McConkey; Marcello Niceta; Andrea Ciolfi; Lucia Pedace; Evelina Miele; David Genevieve; Solveig Heide; Mariëlle Alders; Giuseppe Zampino; Giuseppe Merla; M. lanie Fradin; Eric Bieth; Dominique Bonneau; Klaus Dieterich; Patricia Fergelot; Elise Schaefer; Laurence Faivre; Antonio Vitobello; Silvia Maitz; Rita Fischetto; Cristina Gervasini; Maria Piccione; Ingrid van de Laar; Marco Tartaglia; Bekim Sadikovic; Anne-Sophie Lebre

doi:https://doi.org/10.3390/ijms23031815

Clinical Utility of a Unique Genome-Wide DNA Methylation Signature for KMT2A-Related Syndrome

Aidin Foroutan, Sadegheh Haghshenas, Pratibha Bhai, Michael A. Levy, Jennifer Kerkhof, Haley McConkey, Marcello Niceta, Andrea Ciolfi, Lucia Pedace, Evelina Miele, David Genevieve, Solveig Heide, Mariëlle Alders, Giuseppe Zampino, Giuseppe Merla, M. lanie Fradin, Eric Bieth, Dominique Bonneau, Klaus Dieterich, Patricia FergelotElise Schaefer, Laurence Faivre, Antonio Vitobello, Silvia Maitz, Rita Fischetto, Cristina Gervasini, Maria Piccione, Ingrid van de Laar, Marco Tartaglia, Bekim Sadikovic, Anne-Sophie Lebre

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

7 Citations (Scopus)

Abstract

Wiedemann–Steiner syndrome (WDSTS) is a Mendelian syndromic intellectual disability (ID) condition associated with hypertrichosis cubiti, short stature, and characteristic facies caused by pathogenic variants in the KMT2A gene. Clinical features can be inconclusive in mild and unusual WDSTS presentations with variable ID (mild to severe), facies (typical or not) and other associated malformations (bone, cerebral, renal, cardiac and ophthalmological anomalies). Interpretation and classification of rare KMT2A variants can be challenging. A genome-wide DNA methylation episignature for KMT2A-related syndrome could allow functional classification of variants and provide insights into the pathophysiology of WDSTS. Therefore, we assessed genome-wide DNA methylation profiles in a cohort of 60 patients with clinical diagnosis for WDSTS or Kabuki and identified a unique highly sensitive and specific DNA methylation episignature as a molecular biomarker of WDSTS. WDSTS episignature enabled classification of variants of uncertain significance in the KMT2A gene as well as confirmation of diagnosis in patients with clinical presentation of WDSTS without known genetic variants. The changes in the methylation profile resulting from KMT2A mutations involve global reduction in methylation in various genes, including homeobox gene promoters. These findings provide novel insights into the molecular etiology of WDSTS and explain the broad phenotypic spectrum of the disease.

Original language	English
Article number	1815
Journal	International journal of molecular sciences
Volume	23
Issue number	3
DOIs	https://doi.org/10.3390/ijms23031815
Publication status	Published - 1 Feb 2022

Keywords

DNA methylation
Epigenetics
Episignature
Intellectual disability
KMT2A gene
Neurodevelopmental disorders
Wiedemann–Steiner syndrome

Access to Document

https://doi.org/10.3390/ijms23031815

Cite this

Foroutan, A., Haghshenas, S., Bhai, P., Levy, M. A., Kerkhof, J., McConkey, H., Niceta, M., Ciolfi, A., Pedace, L., Miele, E., Genevieve, D., Heide, S., Alders, M., Zampino, G., Merla, G., Fradin, M. L., Bieth, E., Bonneau, D., Dieterich, K., ... Lebre, A.-S. (2022). Clinical Utility of a Unique Genome-Wide DNA Methylation Signature for KMT2A-Related Syndrome. International journal of molecular sciences, 23(3), Article 1815. https://doi.org/10.3390/ijms23031815

@article{f30117718ae1499aa2973847b4986897,

title = "Clinical Utility of a Unique Genome-Wide DNA Methylation Signature for KMT2A-Related Syndrome",

abstract = "Wiedemann–Steiner syndrome (WDSTS) is a Mendelian syndromic intellectual disability (ID) condition associated with hypertrichosis cubiti, short stature, and characteristic facies caused by pathogenic variants in the KMT2A gene. Clinical features can be inconclusive in mild and unusual WDSTS presentations with variable ID (mild to severe), facies (typical or not) and other associated malformations (bone, cerebral, renal, cardiac and ophthalmological anomalies). Interpretation and classification of rare KMT2A variants can be challenging. A genome-wide DNA methylation episignature for KMT2A-related syndrome could allow functional classification of variants and provide insights into the pathophysiology of WDSTS. Therefore, we assessed genome-wide DNA methylation profiles in a cohort of 60 patients with clinical diagnosis for WDSTS or Kabuki and identified a unique highly sensitive and specific DNA methylation episignature as a molecular biomarker of WDSTS. WDSTS episignature enabled classification of variants of uncertain significance in the KMT2A gene as well as confirmation of diagnosis in patients with clinical presentation of WDSTS without known genetic variants. The changes in the methylation profile resulting from KMT2A mutations involve global reduction in methylation in various genes, including homeobox gene promoters. These findings provide novel insights into the molecular etiology of WDSTS and explain the broad phenotypic spectrum of the disease.",

keywords = "DNA methylation, Epigenetics, Episignature, Intellectual disability, KMT2A gene, Neurodevelopmental disorders, Wiedemann–Steiner syndrome",

author = "Aidin Foroutan and Sadegheh Haghshenas and Pratibha Bhai and Levy, {Michael A.} and Jennifer Kerkhof and Haley McConkey and Marcello Niceta and Andrea Ciolfi and Lucia Pedace and Evelina Miele and David Genevieve and Solveig Heide and Mari{\"e}lle Alders and Giuseppe Zampino and Giuseppe Merla and Fradin, {M. lanie} and Eric Bieth and Dominique Bonneau and Klaus Dieterich and Patricia Fergelot and Elise Schaefer and Laurence Faivre and Antonio Vitobello and Silvia Maitz and Rita Fischetto and Cristina Gervasini and Maria Piccione and {van de Laar}, Ingrid and Marco Tartaglia and Bekim Sadikovic and Anne-Sophie Lebre",

note = "Funding Information: Funding: Funding for this study was provided, in part, by the London Health Sciences Molecular Diagnostics Development Fund and Genome Canada Genomic Applications Partnership Program Grant (Beyond Genomics: Assessing the Improvement in Diagnosis of Rare Diseases using Clinical Epigenomics in Canada, EpiSign-CAN) awarded to B.S, and Italian Ministry of Health (CCR-2017-23669081, RCR-2020-23670068_001 and Ricerca Corrente 2021) and Italian Ministry of Research (FOE 2019) granted to M.T. Publisher Copyright: {\textcopyright} 2022 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2022",

month = feb,

day = "1",

doi = "https://doi.org/10.3390/ijms23031815",

language = "English",

volume = "23",

journal = "International journal of molecular sciences",

issn = "1661-6596",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "3",

}

Foroutan, A, Haghshenas, S, Bhai, P, Levy, MA, Kerkhof, J, McConkey, H, Niceta, M, Ciolfi, A, Pedace, L, Miele, E, Genevieve, D, Heide, S, Alders, M, Zampino, G, Merla, G, Fradin, ML, Bieth, E, Bonneau, D, Dieterich, K, Fergelot, P, Schaefer, E, Faivre, L, Vitobello, A, Maitz, S, Fischetto, R, Gervasini, C, Piccione, M, van de Laar, I, Tartaglia, M, Sadikovic, B & Lebre, A-S 2022, 'Clinical Utility of a Unique Genome-Wide DNA Methylation Signature for KMT2A-Related Syndrome', International journal of molecular sciences, vol. 23, no. 3, 1815. https://doi.org/10.3390/ijms23031815

TY - JOUR

T1 - Clinical Utility of a Unique Genome-Wide DNA Methylation Signature for KMT2A-Related Syndrome

AU - Foroutan, Aidin

AU - Haghshenas, Sadegheh

AU - Bhai, Pratibha

AU - Levy, Michael A.

AU - Kerkhof, Jennifer

AU - McConkey, Haley

AU - Niceta, Marcello

AU - Ciolfi, Andrea

AU - Pedace, Lucia

AU - Miele, Evelina

AU - Genevieve, David

AU - Heide, Solveig

AU - Alders, Mariëlle

AU - Zampino, Giuseppe

AU - Merla, Giuseppe

AU - Fradin, M. lanie

AU - Bieth, Eric

AU - Bonneau, Dominique

AU - Dieterich, Klaus

AU - Fergelot, Patricia

AU - Schaefer, Elise

AU - Faivre, Laurence

AU - Vitobello, Antonio

AU - Maitz, Silvia

AU - Fischetto, Rita

AU - Gervasini, Cristina

AU - Piccione, Maria

AU - van de Laar, Ingrid

AU - Tartaglia, Marco

AU - Sadikovic, Bekim

AU - Lebre, Anne-Sophie

N1 - Funding Information: Funding: Funding for this study was provided, in part, by the London Health Sciences Molecular Diagnostics Development Fund and Genome Canada Genomic Applications Partnership Program Grant (Beyond Genomics: Assessing the Improvement in Diagnosis of Rare Diseases using Clinical Epigenomics in Canada, EpiSign-CAN) awarded to B.S, and Italian Ministry of Health (CCR-2017-23669081, RCR-2020-23670068_001 and Ricerca Corrente 2021) and Italian Ministry of Research (FOE 2019) granted to M.T. Publisher Copyright: © 2022 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2022/2/1

Y1 - 2022/2/1

N2 - Wiedemann–Steiner syndrome (WDSTS) is a Mendelian syndromic intellectual disability (ID) condition associated with hypertrichosis cubiti, short stature, and characteristic facies caused by pathogenic variants in the KMT2A gene. Clinical features can be inconclusive in mild and unusual WDSTS presentations with variable ID (mild to severe), facies (typical or not) and other associated malformations (bone, cerebral, renal, cardiac and ophthalmological anomalies). Interpretation and classification of rare KMT2A variants can be challenging. A genome-wide DNA methylation episignature for KMT2A-related syndrome could allow functional classification of variants and provide insights into the pathophysiology of WDSTS. Therefore, we assessed genome-wide DNA methylation profiles in a cohort of 60 patients with clinical diagnosis for WDSTS or Kabuki and identified a unique highly sensitive and specific DNA methylation episignature as a molecular biomarker of WDSTS. WDSTS episignature enabled classification of variants of uncertain significance in the KMT2A gene as well as confirmation of diagnosis in patients with clinical presentation of WDSTS without known genetic variants. The changes in the methylation profile resulting from KMT2A mutations involve global reduction in methylation in various genes, including homeobox gene promoters. These findings provide novel insights into the molecular etiology of WDSTS and explain the broad phenotypic spectrum of the disease.

AB - Wiedemann–Steiner syndrome (WDSTS) is a Mendelian syndromic intellectual disability (ID) condition associated with hypertrichosis cubiti, short stature, and characteristic facies caused by pathogenic variants in the KMT2A gene. Clinical features can be inconclusive in mild and unusual WDSTS presentations with variable ID (mild to severe), facies (typical or not) and other associated malformations (bone, cerebral, renal, cardiac and ophthalmological anomalies). Interpretation and classification of rare KMT2A variants can be challenging. A genome-wide DNA methylation episignature for KMT2A-related syndrome could allow functional classification of variants and provide insights into the pathophysiology of WDSTS. Therefore, we assessed genome-wide DNA methylation profiles in a cohort of 60 patients with clinical diagnosis for WDSTS or Kabuki and identified a unique highly sensitive and specific DNA methylation episignature as a molecular biomarker of WDSTS. WDSTS episignature enabled classification of variants of uncertain significance in the KMT2A gene as well as confirmation of diagnosis in patients with clinical presentation of WDSTS without known genetic variants. The changes in the methylation profile resulting from KMT2A mutations involve global reduction in methylation in various genes, including homeobox gene promoters. These findings provide novel insights into the molecular etiology of WDSTS and explain the broad phenotypic spectrum of the disease.

KW - DNA methylation

KW - Epigenetics

KW - Episignature

KW - Intellectual disability

KW - KMT2A gene

KW - Neurodevelopmental disorders

KW - Wiedemann–Steiner syndrome

UR - http://www.scopus.com/inward/record.url?scp=85123938038&partnerID=8YFLogxK

U2 - https://doi.org/10.3390/ijms23031815

DO - https://doi.org/10.3390/ijms23031815

M3 - Article

C2 - 35163737

SN - 1661-6596

VL - 23

JO - International journal of molecular sciences

JF - International journal of molecular sciences

IS - 3

M1 - 1815

ER -

Clinical Utility of a Unique Genome-Wide DNA Methylation Signature for KMT2A-Related Syndrome

Abstract

Keywords

Access to Document

Other files and links

Cite this