Exploring the complexities of epigenetics in multiple sclerosis: A study involving meta-analysis of DNA methylation profiles, epigenetic drift, and rare epivariations - UTU Tutkimustietojärjestelmä

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Exploring the complexities of epigenetics in multiple sclerosis: A study involving meta-analysis of DNA methylation profiles, epigenetic drift, and rare epivariations

Tekijät: Baldrighi, Giulia Nicole; Cavagnola, Rebecca; Sacco, Davide; Costantino, Lucy; Bernardinelli, Luisa; Gentilini, Davide

Kustantaja: SAGE PUBLICATIONS INC

Kustannuspaikka: THOUSAND OAKS

Julkaisuvuosi: 2024

Journal: Multiple Sclerosis Journal - Experimental, Translational and Clinical

Tietokannassa oleva lehden nimi: MULTIPLE SCLEROSIS JOURNAL-EXPERIMENTAL TRANSLATIONAL AND CLINICAL

Lehden akronyymi: MULT SCLER J-EXP TRA

Artikkelin numero: 20552173241296726

Vuosikerta: 10

Numero: 4

Sivujen määrä: 16

eISSN: 2055-2173

DOI: https://doi.org/10.1177/20552173241296726

Tiivistelmä

Background Multiple sclerosis (MS) is an autoimmune condition characterized by inflammatory and neurodegenerative traits. Recently, DNA methylation has emerged as a promising field of investigation for elucidating dynamics characterizing MS development and progression.Objectives This study aimed to comprehensively investigate the role of epigenetics in MS by analyzing the methylation profiles from blood and brain tissues from public datasets.Methods Employing a meta-analytical framework for differential methylation analyses, the study extended beyond conventional analyses to explore additional dimensions of epigenetic regulation, including epigenetic drift, age acceleration, and rare epivariations.Results Results of the differential methylation analysis were in line with previously reported findings. No significant differences were observed in age acceleration or global epigenetic drift between MS cases and controls. However, upon closer analysis at the gene level, distinctive patterns of epigenetic drift emerged, particularly within genes implicated in neural biological functions.Conclusions These findings underscore the role of epigenetic modifications in shaping MS pathology. Furthermore, the study unveiled the exclusive presence of rare epivariations within the MS cases, some of which involved genes previously linked to MS or other autoimmune diseases. This highlights the potential significance of rare genetic aberrations in driving MS susceptibility and progression.