2024
Epigenome-wide association studies identify novel DNA methylation sites associated with PTSD: a meta-analysis of 23 military and civilian cohorts
Katrinli S, Wani A, Maihofer A, Ratanatharathorn A, Daskalakis N, Montalvo-Ortiz J, Núñez-RÃos D, Zannas A, Zhao X, Aiello A, Ashley-Koch A, Avetyan D, Baker D, Beckham J, Boks M, Brick L, Bromet E, Champagne F, Chen C, Dalvie S, Dennis M, Fatumo S, Fortier C, Galea S, Garrett M, Geuze E, Grant G, Hauser M, Hayes J, Hemmings S, Huber B, Jajoo A, Jansen S, Kessler R, Kimbrel N, King A, Kleinman J, Koen N, Koenen K, Kuan P, Liberzon I, Linnstaedt S, Lori A, Luft B, Luykx J, Marx C, McLean S, Mehta D, Milberg W, Miller M, Mufford M, Musanabaganwa C, Mutabaruka J, Mutesa L, Nemeroff C, Nugent N, Orcutt H, Qin X, Rauch S, Ressler K, Risbrough V, Rutembesa E, Rutten B, Seedat S, Stein D, Stein M, Toikumo S, Ursano R, Uwineza A, Verfaellie M, Vermetten E, Vinkers C, Ware E, Wildman D, Wolf E, Young R, Zhao Y, van den Heuvel L, Uddin M, Nievergelt C, Smith A, Logue M. Epigenome-wide association studies identify novel DNA methylation sites associated with PTSD: a meta-analysis of 23 military and civilian cohorts. Genome Medicine 2024, 16: 147. PMID: 39696436, PMCID: PMC11658418, DOI: 10.1186/s13073-024-01417-1.Peer-Reviewed Original ResearchConceptsEpigenome-wide association studiesDNA methylationPsychiatric Genomics ConsortiumPost-traumatic stress disorderAssociation studiesMeta-analysis of epigenome-wide association studiesMethylation levelsGenome-wide expression dataEpigenetic gene regulationBrain regionsPGC-PTSDAnnotated genesBlood cell proportionsCpG lociGene regulationSusceptibility to post-traumatic stress disorderExpression dataAssociated with post-traumatic stress disorderIllumina HumanMethylation450Genomics ConsortiumOccurrence of post-traumatic stress disorderAssociated with biological differencesCpGMultiple brain regionsPostmortem brain samples
2023
CpH methylome analysis in human cortical neurons identifies novel gene pathways and drug targets for opioid use disorder
Nagamatsu S, Rompala G, Hurd Y, Núñez-Rios D, Montalvo-Ortiz J, Group T, Alvarez V, Benedek D, Che A, Cruz D, Davis D, Girgenti M, Hoffman E, Holtzheimer P, Huber B, Kaye A, Krystal J, Labadorf A, Keane T, Logue M, McKee A, Marx B, Mash D, Miller M, Noller C, JM-O, Scott W, Schnurr P, Stein T, Ursano R, Williamson D, Wolf E, Young K. CpH methylome analysis in human cortical neurons identifies novel gene pathways and drug targets for opioid use disorder. Frontiers In Psychiatry 2023, 13: 1078894. PMID: 36745154, PMCID: PMC9892724, DOI: 10.3389/fpsyt.2022.1078894.Peer-Reviewed Original ResearchOpioid use disorderOrbital frontal cortexDNA methylationKEGG enrichment analysisUse disordersMCPH lociTreatment of OUDGene OntologyEnrichment analysisOpioid-related drugsCpG sitesDrug targetsOxidative bisulfite sequencingImportant biological pathwaysDrug interaction analysisDrug-gene interaction databaseNervous system developmentSmoking statusBrain BankCortical neuronsFrontal cortexNeuronal nucleiHuman studiesGene regulationMethylome analysis
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