2009
Epstein–Barr virus infection is not a characteristic feature of multiple sclerosis brain
Willis SN, Stadelmann C, Rodig SJ, Caron T, Gattenloehner S, Mallozzi SS, Roughan JE, Almendinger SE, Blewett MM, Brück W, Hafler DA, O’Connor K. Epstein–Barr virus infection is not a characteristic feature of multiple sclerosis brain. Brain 2009, 132: 3318-3328. PMID: 19638446, PMCID: PMC2792367, DOI: 10.1093/brain/awp200.Peer-Reviewed Original ResearchConceptsMultiple sclerosis brainEpstein-Barr virus infectionEBV infectionWhite matter lesionsMultiple sclerosisCentral nervous systemMatter lesionsVirus infectionSecond cohortEBV infected cellsB cell infiltrationB cell aggregatesInflammatory demyelinating diseaseB-cell infiltratesReal-time polymerase chain reaction methodologyCNS immunopathologyCNS lymphomaDemyelinating diseaseCell infiltrateSitu hybridizationCell infiltrationLarge cohortBrain pathologyNervous systemPolymerase chain reaction methodology
2005
Plasma cells in muscle in inclusion body myositis and polymyositis
Greenberg S, Bradshaw E, Pinkus J, Pinkus G, Burleson T, Due B, Bregoli L, O’Connor K, Amato A. Plasma cells in muscle in inclusion body myositis and polymyositis. Neurology 2005, 65: 1782-1787. PMID: 16344523, DOI: 10.1212/01.wnl.0000187124.92826.20.Peer-Reviewed Original ResearchMeSH KeywordsAntigens, SurfaceAutoantigensB-LymphocytesBiomarkersBiopsyCell DifferentiationCell LineageHumansImmunoglobulinsImmunohistochemistryLymphocyte ActivationMembrane GlycoproteinsMuscle, SkeletalMyositis, Inclusion BodyPlasma CellsPolymyositisProteoglycansRNA, MessengerSyndecan-1SyndecansT-LymphocytesConceptsInclusion body myositisBody myositisB cellsImmunoglobulin gene transcriptsPlasma cellsImmunohistochemical studyCell-mediated immune mechanismsMore T cellsT cell populationsMuscles of patientsMuscle biopsy specimensPrevious immunohistochemical studiesB cell activationDifferentiated B cellsB-cell lineageCell surface markersImmunoglobulin gene rearrangementsUntreated patientsHumoral mechanismsBiopsy specimensImmune mechanismsLaser capture microdissectionT cellsPolymyositisMyositisCharacterization of in vivo expanded OspA-specific human T-cell clones
Ausubel LJ, O'Connor KC, Baecher-Allen C, Trollmo C, Kessler B, Hekking B, Merritt D, Meyer AL, Kwok B, Ploegh H, Huber BT, Hafler DA. Characterization of in vivo expanded OspA-specific human T-cell clones. Clinical Immunology 2005, 115: 313-322. PMID: 15893699, DOI: 10.1016/j.clim.2005.02.015.Peer-Reviewed Original ResearchConceptsT cell clonesMajor histocompatibility complex class II tetramersTreatment-resistant Lyme arthritisCD4 T-cell clonesDistinct T-cell clonesT cell receptor repertoireHuman T cell clonesClass II tetramersBeta chainT cell recognitionTCR contact residuesTCR beta chainT cell receptorCell flow cytometryTCR usageImmune compartmentLyme arthritisAutoimmune diseasesMicrobial antigensT cellsOspA epitopeImmunodominant epitopesSynovial fluidReceptor repertoireReactive clones
2001
Immunological Memory: Contribution of Memory B Cells Expressing Costimulatory Molecules in the Resting State
Bar-Or A, Oliveira E, Anderson D, Krieger J, Duddy M, O’Connor K, Hafler D. Immunological Memory: Contribution of Memory B Cells Expressing Costimulatory Molecules in the Resting State. The Journal Of Immunology 2001, 167: 5669-5677. PMID: 11698439, DOI: 10.4049/jimmunol.167.10.5669.Peer-Reviewed Original ResearchConceptsMemory B cellsB cell subsetsB cellsCell subsetsCostimulatory moleculesB cell memory compartmentMemory responsesImmune memory responseDistinct B cell subsetsHuman memory B cellsHumoral memory responsesHuman B cellsTh cellsImmunological memoryT cellsMemory compartmentPoor APCsMurine systemNovel subpopulationRelative paucityCells