6533b7defe1ef96bd12766cc
RESEARCH PRODUCT
Clinical Utility of a Unique Genome-Wide DNA Methylation Signature for KMT2A-Related Syndrome
Aidin ForoutanSadegheh HaghshenasPratibha BhaiMichael A. LevyJennifer KerkhofHaley McconkeyMarcello NicetaAndrea CiolfiLucia PedaceEvelina MieleDavid GenevieveSolveig HeideMariëlle AldersGiuseppe ZampinoGiuseppe MerlaMélanie FradinEric BiethDominique BonneauKlaus DieterichPatricia FergelotElise SchaeferLaurence FaivreAntonio VitobelloSilvia MaitzRita FischettoCristina GervasiniMaria PiccioneIngrid Van De LaarMarco TartagliaBekim SadikovicAnne-sophie Lebresubject
Wiedemann–Steiner syndromeQH301-705.5Intellectual disability[SDV.BC]Life Sciences [q-bio]/Cellular BiologyCatalysisInorganic ChemistryKMT2A geneNeurodevelopmental disorderGrowth DisorderAbnormalities Multiple[SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]Biology (General)Physical and Theoretical ChemistryEpisignatureQD1-999[SDV.BC] Life Sciences [q-bio]/Cellular BiologyMolecular BiologySpectroscopyDNA methylationOrganic ChemistryNeurodevelopmental disordersCraniofacial AbnormalitieEpigeneticHypertrichosiGeneral MedicineFacieComputer Science Applications<i>KMT2A</i> geneChemistryepigenetics; DNA methylation; episignature; Wiedemann–Steiner syndrome; <i>KMT2A</i> gene; intellectual disability; neurodevelopmental disordersPhenotype[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]EpigeneticsHumandescription
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.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2022-02-05 |