2024
Genetic mapping across autoimmune diseases reveals shared associations and mechanisms
Lincoln M, Connally N, Axisa P, Gasperi C, Mitrovic M, van Heel D, Wijmenga C, Withoff S, Jonkers I, Padyukov L, Rich S, Graham R, Gaffney P, Langefeld C, Vyse T, Hafler D, Chun S, Sunyaev S, Cotsapas C. Genetic mapping across autoimmune diseases reveals shared associations and mechanisms. Nature Genetics 2024, 56: 838-845. PMID: 38741015, DOI: 10.1038/s41588-024-01732-8.Peer-Reviewed Original ResearchConceptsGenetic mapResolution of genetic mappingExpression quantitative trait lociFine-mapping resolutionQuantitative trait lociGenomic lociTrait lociPolygenic disorderAllelesRisk allelesLociPathogenic mechanismsImmune systemAutoimmune mechanismsAutoimmune diseasesInflammatory diseasesTraitsMechanismDiseaseSample collectionExpression
2020
Epigenetic fine-mapping: identification of causal mechanisms for autoimmunity
Lincoln MR, Axisa PP, Hafler DA. Epigenetic fine-mapping: identification of causal mechanisms for autoimmunity. Current Opinion In Immunology 2020, 67: 50-56. PMID: 32977183, DOI: 10.1016/j.coi.2020.09.002.Peer-Reviewed Original ResearchConceptsGenome-wide association studiesMolecular mechanismsSusceptibility lociIndividual susceptibility lociFundamental genetic basisCausal molecular mechanismsPathogenic cell typesSpecific molecular mechanismsGenetic susceptibility lociEpigenetic techniquesGenetic basisGenetic lociAssociation studiesCell typesLociRecent advancesMechanismGeneticsAutoimmune diseasesSpectrum of autoimmunityCausal mechanismsEtiological mechanismsInflammatory diseasesTranslationAutoimmunity
2013
Clinical relevance and functional consequences of the TNFRSF1A multiple sclerosis locus
Ottoboni L, Frohlich IY, Lee M, Healy BC, Keenan BT, Xia Z, Chitnis T, Guttmann CR, Khoury SJ, Weiner HL, Hafler DA, De Jager PL. Clinical relevance and functional consequences of the TNFRSF1A multiple sclerosis locus. Neurology 2013, 81: 1891-1899. PMID: 24174586, PMCID: PMC3843384, DOI: 10.1212/01.wnl.0000436612.66328.8a.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsArginineChemokine CXCL10FemaleGene Expression RegulationGenetic Predisposition to DiseaseGenotypeGlutamineHEK293 CellsHumansImmunologic FactorsLongitudinal StudiesMaleMonocytesMultiple SclerosisMutationPhorbol EstersReceptors, Tumor Necrosis Factor, Type IRNA IsoformsSignal TransductionTumor Necrosis Factor-alphaConceptsTNFRSF1A locusSusceptibility allelesFunctional consequencesRobust transcriptional responseTranscriptional responseCytoplasmic domainRNA isoformsTNF-α stimulationRho GTPaseMS susceptibility genesMS geneG proteinsSusceptibility genesMolecular levelTNF pathwayGenesAltered expressionLociTNF-α pathwayAllelesRisk allelesPathwayGTPaseImmune functionTransmembraneNetwork-Based Multiple Sclerosis Pathway Analysis with GWAS Data from 15,000 Cases and 30,000 Controls
Consortium I, Baranzini S, Khankhanian P, Patsopoulos N, Li M, Stankovich J, Cotsapas C, Søndergaard H, Ban M, Barizzone N, Bergamaschi L, Booth D, Buck D, Cavalla P, Celius E, Comabella M, Comi G, Compston A, Cournu-Rebeix I, D’alfonso S, Damotte V, Din L, Dubois B, Elovaara I, Esposito F, Fontaine B, Franke A, Goris A, Gourraud P, Graetz C, Guerini F, Guillot-Noel L, Hafler D, Hakonarson H, Hall P, Hamsten A, Harbo H, Hemmer B, Hillert J, Kemppinen A, Kockum I, Koivisto K, Larsson M, Lathrop M, Leone M, Lill C, Macciardi F, Martin R, Martinelli V, Martinelli-Boneschi F, McCauley J, Myhr K, Naldi P, Olsson T, Oturai A, Pericak-Vance M, Perla F, Reunanen M, Saarela J, Saker-Delye S, Salvetti M, Sellebjerg F, Sørensen P, Spurkland A, Stewart G, Taylor B, Tienari P, Winkelmann J, Consortium W, Zipp F, Ivinson A, Haines J, Sawcer S, DeJager P, Hauser S, Oksenberg J. Network-Based Multiple Sclerosis Pathway Analysis with GWAS Data from 15,000 Cases and 30,000 Controls. American Journal Of Human Genetics 2013, 92: 854-865. PMID: 23731539, PMCID: PMC3958952, DOI: 10.1016/j.ajhg.2013.04.019.Peer-Reviewed Original ResearchConceptsPathway analysisNetwork-based pathway analysisGenome-wide association studiesSubnetworks of genesExtended linkage disequilibriumNon-HLA susceptibility lociHigh-confidence candidatesSubsequent genetic studiesComplex traitsSubstantial genetic componentSignificant lociGWAS dataAssociation studiesGene levelGenetic studiesNominal statistical evidenceSusceptibility lociGenesLinkage disequilibriumSusceptibility variantsGenetic componentRelated pathwaysLociHuman leukocyte antigen (HLA) regionPowerful approach
2012
Immune-mediated disease genetics: the shared basis of pathogenesis
Cotsapas C, Hafler DA. Immune-mediated disease genetics: the shared basis of pathogenesis. Trends In Immunology 2012, 34: 22-26. PMID: 23031829, DOI: 10.1016/j.it.2012.09.001.Peer-Reviewed Original ResearchConceptsRecent genetic studiesGenomic lociDisease geneticsMolecular basisGenetic studiesMolecular causesMolecular defectsRisk variantsSpecific pathwaysBasis of pathogenesisActionable discoveriesGeneticsInflammatory diseasesOverall symptomatologyDisease heterogeneityLociVariantsDiseasePathwayPathogenesisHigh rateRational approachDiscoveryPathobiology
2011
Genome‐wide meta‐analysis identifies novel multiple sclerosis susceptibility loci
Patsopoulos NA, Esposito F, Reischl J, Lehr S, Bauer D, Heubach J, Sandbrink R, Pohl C, Edan G, Kappos L, Miller D, Montalbán J, Polman C, Freedman M, Hartung H, Arnason B, Comi G, Cook S, Filippi M, Goodin D, Jeffery D, O'Connor P, Ebers G, Langdon D, Reder A, Traboulsee A, Zipp F, Schimrigk S, Hillert J, Bahlo M, Booth D, Broadley S, Brown M, Browning B, Browning S, Butzkueven H, Carroll W, Chapman C, Foote S, Griffiths L, Kermode A, Kilpatrick T, Lechner-Scott J, Marriott M, Mason D, Moscato P, Heard R, Pender M, Perreau V, Perera D, Rubio J, Scott R, Slee M, Stankovich J, Stewart G, Taylor B, Tubridy N, Willoughby E, Wiley J, Matthews P, Boneschi F, Compston A, Haines J, Hauser S, McCauley J, Ivinson A, Oksenberg J, Pericak-Vance M, Sawcer S, De Jager P, Hafler D, de Bakker P. Genome‐wide meta‐analysis identifies novel multiple sclerosis susceptibility loci. Annals Of Neurology 2011, 70: 897-912. PMID: 22190364, PMCID: PMC3247076, DOI: 10.1002/ana.22609.Peer-Reviewed Original ResearchConceptsGenome-wide association studiesSingle nucleotide polymorphismsSusceptibility lociHapMap Phase IIUnique single nucleotide polymorphismsGene discovery effortsNew susceptibility lociStrongest cis effectsMS genome-wide association studiesQuantitative trait analysisFlanking genesGenetic architectureRNA expression dataMultiple sclerosis susceptibility lociIntergenic regionSecond intronNew lociNovel susceptibility allelesAdditional lociTrait analysisAssociation studiesExpression dataChromosome 2p21LociFunctional consequencesInterrogating the complex role of chromosome 16p13.13 in multiple sclerosis susceptibility: independent genetic signals in the CIITA–CLEC16A–SOCS1 gene complex
Zuvich RL, Bush WS, McCauley JL, Beecham AH, De Jager PL, Consortium T, Ivinson A, Compston A, Hafler D, Hauser S, Sawcer S, Pericak-Vance M, Barcellos L, Mortlock D, Haines J. Interrogating the complex role of chromosome 16p13.13 in multiple sclerosis susceptibility: independent genetic signals in the CIITA–CLEC16A–SOCS1 gene complex. Human Molecular Genetics 2011, 20: 3517-3524. PMID: 21653641, PMCID: PMC3153306, DOI: 10.1093/hmg/ddr250.Peer-Reviewed Original ResearchMeSH KeywordsCCCTC-Binding FactorChromosomes, Human, Pair 16FemaleGenetic Predisposition to DiseaseGenome-Wide Association StudyGenotypeHumansLectins, C-TypeLinkage DisequilibriumLogistic ModelsMaleMonosaccharide Transport ProteinsMultiple SclerosisQuantitative Trait LociRepressor ProteinsSuppressor of Cytokine Signaling 1 ProteinSuppressor of Cytokine Signaling ProteinsConceptsIndependent genetic signalsGenetic signalsLymphoblastoid cell linesChromosome 16p13Cis expression QTLsOpen chromatin configurationCell linesLinkage disequilibrium patternsExpression array dataH3K27 methylationHistone modificationsGenomic regionsKb stretchStrong genetic componentSingle nucleotide polymorphismsChromatin configurationExpression correlationGene complexDisequilibrium patternsDisease locusGenesCorrelated expressionGenetic componentFunctional mechanismsLoci
2010
Genome-wide Association Study in a High-Risk Isolate for Multiple Sclerosis Reveals Associated Variants in STAT3 Gene
Jakkula E, Leppä V, Sulonen AM, Varilo T, Kallio S, Kemppinen A, Purcell S, Koivisto K, Tienari P, Sumelahti ML, Elovaara I, Pirttilä T, Reunanen M, Aromaa A, Oturai AB, Søndergaard HB, Harbo HF, Mero IL, Gabriel SB, Mirel DB, Hauser SL, Kappos L, Polman C, De Jager PL, Hafler DA, Daly MJ, Palotie A, Saarela J, Peltonen L. Genome-wide Association Study in a High-Risk Isolate for Multiple Sclerosis Reveals Associated Variants in STAT3 Gene. American Journal Of Human Genetics 2010, 86: 285-291. PMID: 20159113, PMCID: PMC2820168, DOI: 10.1016/j.ajhg.2010.01.017.Peer-Reviewed Original ResearchConceptsSTAT3 geneGenome-wide association studiesRare risk allelesComplex traitsRisk lociRisk allelesAssociated variantsAssociation studiesRecent GWASInternal isolateLociCommon variantsGenetic riskGenesAllelesCritical roleSTAT3Small odds ratiosHeterogeneous populationVariantsGWASIsolatesProtective haplotypeTraitsSNPsChapter 3 Uncovering the Genetic Architecture of Multiple Sclerosis
De Jager P, Hafler D. Chapter 3 Uncovering the Genetic Architecture of Multiple Sclerosis. Blue Books Of Neurology 2010, 35: 43-56. DOI: 10.1016/b978-1-4160-6068-0.00003-6.Peer-Reviewed Original ResearchGenetic architectureSusceptibility lociWhole-genome association scansCommon human diseasesMajor histocompatibility complexMultiple sclerosis geneticsCommon genetic variationAssociation scanHuman genomeGenetic variationSingle locusHuman diseasesLociFirst glimpseCurrent discoveriesHistocompatibility complexGenotyped subjectsGenetic susceptibilityGenomeRapid progressHuman leukocyte antigenGeneticsHapMapConvergence of resourcesMultiple sclerosis
2009
Comprehensive follow-up of the first genome-wide association study of multiple sclerosis identifies KIF21B and TMEM39A as susceptibility loci
, , McCauley J, Zuvich R, Beecham A, De Jager P, Konidari I, Whitehead P, Aubin C, Ban M, Pobywajlo S, Briskin R, Romano S, Aggarwal N, Piccio L, McArdle W, Strachan D, Evans D, Cross A, Cree B, Rioux J, Barcellos L, Ivinson A, Compston A, Hafler D, Hauser S, Oksenberg J, Sawcer S, Pericak-Vance M, Haines J. Comprehensive follow-up of the first genome-wide association study of multiple sclerosis identifies KIF21B and TMEM39A as susceptibility loci. Human Molecular Genetics 2009, 19: 953-962. PMID: 20007504, PMCID: PMC2816610, DOI: 10.1093/hmg/ddp542.Peer-Reviewed Original ResearchConceptsGenome-wide association studiesSingle nucleotide polymorphismsAssociation studiesFirst genome-wide association studyGenome-wide association screenNumerous complex diseasesSusceptibility lociInitial genome-wide association studyGenome-wide significanceNovel susceptibility lociComplex genetic diseasesHundreds of associationsSNP hitsGWAS studiesGenetic diseasesLociComplex diseasesOriginal screenTMEM39AInitial associationIndependent data setsReplicationKIF21BInitial replicationScreenMeta-analysis of genome scans and replication identify CD6, IRF8 and TNFRSF1A as new multiple sclerosis susceptibility loci
De Jager PL, Jia X, Wang J, de Bakker PI, Ottoboni L, Aggarwal NT, Piccio L, Raychaudhuri S, Tran D, Aubin C, Briskin R, Romano S, Baranzini S, McCauley J, Pericak-Vance M, Haines J, Gibson R, Naeglin Y, Uitdehaag B, Matthews P, Kappos L, Polman C, McArdle W, Strachan D, Evans D, Cross A, Daly M, Compston A, Sawcer S, Weiner H, Hauser S, Hafler D, Oksenberg J. Meta-analysis of genome scans and replication identify CD6, IRF8 and TNFRSF1A as new multiple sclerosis susceptibility loci. Nature Genetics 2009, 41: 776-782. PMID: 19525953, PMCID: PMC2757648, DOI: 10.1038/ng.401.Peer-Reviewed Original ResearchReplication analysis identifies TYK2 as a multiple sclerosis susceptibility factor
Ban M, Goris A, Lorentzen Å, Baker A, Mihalova T, Ingram G, Booth DR, Heard RN, Stewart GJ, Bogaert E, Dubois B, Harbo HF, Celius EG, Spurkland A, Strange R, Hawkins C, Robertson NP, Dudbridge F, Wason J, De Jager PL, Hafler D, Rioux JD, Ivinson AJ, McCauley JL, Pericak-Vance M, Oksenberg JR, Hauser SL, Sexton D, Haines J, Sawcer S. Replication analysis identifies TYK2 as a multiple sclerosis susceptibility factor. European Journal Of Human Genetics 2009, 17: 1309-1313. PMID: 19293837, PMCID: PMC2782567, DOI: 10.1038/ejhg.2009.41.Peer-Reviewed Original ResearchConceptsGenome-wide association studiesNon-synonymous single nucleotide polymorphismsRecent genome-wide association studiesLevel of phosphorylationAmino acid substitutionsTyrosine kinase 2 geneKinase 2 geneSingle-nucleotide polymorphism resultsSingle nucleotide polymorphismsKinase domainMultiple sclerosis susceptibility genesAssociation studiesAcid substitutionsFunctional roleSusceptibility genesNucleotide polymorphismsPolymorphism resultsTrio familiesReplication analysisGenesLociTYK2Susceptibility factorsPhosphorylationMultiple sclerosis
2003
Genetic analysis of multiple sclerosis
Walsh EC, Guschwan-McMahon S, Daly MJ, Hafler DA, Rioux JD. Genetic analysis of multiple sclerosis. Journal Of Autoimmunity 2003, 21: 111-116. PMID: 12935779, DOI: 10.1016/s0896-8411(03)00094-5.Peer-Reviewed Original ResearchConceptsComplementary genetic approachesComplex diseasesHuman genomeGenetic variationGenetic approachesSuch lociGenetic analysisSignificant genetic contributionGenetic variantsGenetic contributionAdditional statistical powerRecent important advancesGenetic causeModest effectLociMeta-analytical approachCTLA-4 variantsGenomeGenetic riskVariantsImportant advancesStatistical powerFuture studiesMS resultsAdvances