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RESEARCH PRODUCT
Identification of Myalgic Encephalomyelitis/Chronic Fatigue Syndrome-associated DNA methylation patterns.
Nancy G. KlimasMary A FletcherLeonor SarriaVladimir BeljanskiNatasha RoseLubov NathansonMalav Suchin TrivediElisa Oltrasubject
0301 basic medicineMicroarrayMicroarraysPathology and Laboratory MedicineBiochemistryEpigenesis GeneticCohort StudiesMedicine and Health SciencesSmall nucleolar RNAsPromoter Regions GeneticFatigueAntisense RNARegulation of gene expressionMultidisciplinaryDNA methylationFatigue Syndrome ChronicQRMethylationGenomicsMiddle AgedChromatin3. Good healthNucleic acidsBioassays and Physiological AnalysisCpG siteDNA methylationMedicineEpigeneticsFemaleDNA microarrayDNA modificationChromatin modificationResearch ArticleChromosome biologymusculoskeletal diseasesCell biologyScienceBiologyResearch and Analysis Methods03 medical and health sciencesSigns and SymptomsGenomic MedicineDiagnostic MedicineChronic fatigue syndromemedicineGeneticsHumansGene RegulationEpigeneticsNon-coding RNABiology and life sciencesDNAmedicine.diseaseMicroarray Analysis030104 developmental biologyImmunologyRNACpG IslandsGene expressiondescription
BackgroundMyalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS) is a complex condition involving multiple organ systems and characterized by persistent/relapsing debilitating fatigue, immune dysfunction, neurological problems, and other symptoms not curable for at least 6 months. Disruption of DNA methylation patterns has been tied to various immune and neurological diseases; however, its status in ME/CFS remains uncertain. Our study aimed at identifying changes in the DNA methylation patterns that associate with ME/CFS.MethodsWe extracted genomic DNA from peripheral blood mononuclear cells from 13 ME/CFS study subjects and 12 healthy controls and measured global DNA methylation by ELISA-like method and site-specific methylation status using Illumina MethylationEPIC microarrays. Pyrosequencing validation included 33 ME/CFS cases and 31 controls from two geographically distant cohorts.ResultsGlobal DNA methylation levels of ME/CFS cases were similar to those of controls. However, microarray-based approach allowed detection of 17,296 differentially methylated CpG sites in 6,368 genes across regulatory elements and within coding regions of genes. Analysis of DNA methylation in promoter regions revealed 307 differentially methylated promoters. Ingenuity pathway analysis indicated that genes associated with differentially methylated promoters participated in at least 15 different pathways mostly related to cell signaling with a strong immune component.ConclusionsThis is the first study that has explored genome-wide epigenetic changes associated with ME/CFS using the advanced Illumina MethylationEPIC microarrays covering about 850,000 CpG sites in two geographically distant cohorts of ME/CFS cases and matched controls. Our results are aligned with previous studies that indicate a dysregulation of the immune system in ME/CFS. They also suggest a potential role of epigenetic de-regulation in the pathobiology of ME/CFS. We propose screening of larger cohorts of ME/CFS cases to determine the external validity of these epigenetic changes in order to implement them as possible diagnostic markers in clinical setting.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-07-01 | PLoS ONE |