2023
Precision targeting of autoantigen-specific B cells in muscle-specific tyrosine kinase myasthenia gravis with chimeric autoantibody receptor T cells
Oh S, Mao X, Manfredo-Vieira S, Lee J, Patel D, Choi E, Alvarado A, Cottman-Thomas E, Maseda D, Tsao P, Ellebrecht C, Khella S, Richman D, O’Connor K, Herzberg U, Binder G, Milone M, Basu S, Payne A. Precision targeting of autoantigen-specific B cells in muscle-specific tyrosine kinase myasthenia gravis with chimeric autoantibody receptor T cells. Nature Biotechnology 2023, 41: 1229-1238. PMID: 36658341, PMCID: PMC10354218, DOI: 10.1038/s41587-022-01637-z.Peer-Reviewed Original ResearchConceptsMuscle‐specific tyrosine kinase myasthenia gravisReceptor T cellsB cellsT cellsMyasthenia gravisChimeric autoantibody receptor T cellsCD19 chimeric antigen receptor T cellsAutoantigen-specific B cellsChimeric antigen receptor T cellsAntigen receptor T cellsAnti-MuSK antibodiesB-cell depletionTotal IgG levelsClinical study designInvestigational new drug applicationChronic immunosuppressionIgG levelsMuscle weaknessAutoimmune diseasesCell depletionCurrent therapiesSimilar efficacyCytolytic activityMouse modelNew drug applications
2017
B cells in the pathophysiology of myasthenia gravis
Yi JS, Guptill JT, Stathopoulos P, Nowak RJ, O’Connor K. B cells in the pathophysiology of myasthenia gravis. Muscle & Nerve 2017, 57: 172-184. PMID: 28940642, PMCID: PMC5767142, DOI: 10.1002/mus.25973.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsMyasthenia gravisB cellsMuscle-specific tyrosine kinaseArchetypal autoimmune diseaseMuscle end platesProduction of autoantibodiesMost patientsPathogenic autoantibodiesAutoimmune diseasesAdaptive immunityHuman studiesAcetylcholine receptorsFunctional AChRsNeuromuscular junctionPostsynaptic proteinsAutoantibodiesCellular immunologyMolecular immunologyGravisImmunopathologyPathologyAChRImmunologyTyrosine kinaseEnd plates
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, SurfaceAutoantigensBiomarkersBiopsyB-LymphocytesCell 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 cellsPolymyositisMyositisMultiple sclerosis
Hafler DA, Slavik JM, Anderson DE, O'Connor KC, De Jager P, Baecher‐Allan C. Multiple sclerosis. Immunological Reviews 2005, 204: 208-231. PMID: 15790361, DOI: 10.1111/j.0105-2896.2005.00240.x.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsMultiple sclerosisT cellsB cellsImmunopathology of MSCentral nervous system white matterNervous system white matterRegulatory T cellsHallmark of inflammationImmunosuppressive therapyAutoimmune processImmunomodulatory therapeuticsAnimal modelsMS researchWhite matterDisease pathologyClonal expansionDiseaseMajor histocompatibility complex (MHC) genesMolecular pathologyRNA expressionSclerosisInflammationTherapyPathologyComplex genetic diseases
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 paucityCellsThe Neuroimmunology of Multiple Sclerosis: Possible Roles of T and B Lymphocytes in Immunopathogenesis
O'connor K, Bar-Or A, Hafler D. The Neuroimmunology of Multiple Sclerosis: Possible Roles of T and B Lymphocytes in Immunopathogenesis. Journal Of Clinical Immunology 2001, 21: 81-92. PMID: 11332657, DOI: 10.1023/a:1011064007686.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsMultiple sclerosisT cellsB cellsImmunopathology of MSMyelin-reactive T cellsCentral nervous system white matterNervous system white matterAutoreactive T cellsMS immunopathologyImmunosuppressive therapyCNS pathogenesisTolerance breakdownAutoreactive cellsInflammatory diseasesPathological studiesAnimal modelsB lymphocytesWhite matterMajor mediatorDisease pathologyNonhuman primatesDiseaseEvidence supportImmunopathologySclerosis