2021
B Cell Mobilization, Dissemination, Fine Tuning of Local Antigen Specificity and Isotype Selection in Asthma
Ohm-Laursen L, Meng H, Hoehn KB, Nouri N, Jiang Y, Clouser C, Johnstone TG, Hause R, Sandhar BS, Upton NEG, Chevretton EB, Lakhani R, Corrigan CJ, Kleinstein SH, Gould HJ. B Cell Mobilization, Dissemination, Fine Tuning of Local Antigen Specificity and Isotype Selection in Asthma. Frontiers In Immunology 2021, 12: 702074. PMID: 34721376, PMCID: PMC8552043, DOI: 10.3389/fimmu.2021.702074.Peer-Reviewed Original ResearchConceptsLower respiratory tractRespiratory tractB cellsAtopic asthmaPlasma cellsCommon respiratory tract diseaseB-cell mobilizationNon-atopic controlsRespiratory tract mucosaUpper respiratory tractRespiratory tract diseaseOrgan-specific diseasesAntibody repertoireB cell clonesAdaptive immune receptor repertoire sequencingBronchial mucosaNasal mucosaTract diseaseCell mobilizationIsotype selectionAntigen specificityAdult volunteersMucosal surfacesImmune systemAsthma
2020
A structured model for immune exposures
Vita R, Overton JA, Dunn P, Cheung KH, Kleinstein SH, Sette A, Peters B. A structured model for immune exposures. Database 2020, 2020: baaa016. PMID: 32283555, PMCID: PMC7153954, DOI: 10.1093/database/baaa016.Peer-Reviewed Original Research
2019
Migrant memory B cells secrete luminal antibody in the vagina
Oh JE, Iijima N, Song E, Lu P, Klein J, Jiang R, Kleinstein SH, Iwasaki A. Migrant memory B cells secrete luminal antibody in the vagina. Nature 2019, 571: 122-126. PMID: 31189952, PMCID: PMC6609483, DOI: 10.1038/s41586-019-1285-1.Peer-Reviewed Original ResearchConceptsMemory B cellsFemale reproductive tractB cellsPlasma cellsReproductive tractCD4 tissue-resident memory T cellsTissue-resident memory T cellsLower female reproductive tractHerpes simplex virus 2Genital herpes infectionMemory T cellsExpression of chemokinesSimplex virus 2CXCR3-dependent mannerLocal plasma cellsLuminal antibodyMucosal antibodiesHerpes infectionPrimary infectionMucosal barrierSecondary challengeVariety of pathogensT cellsLamina propriaInducible source
2018
AIRR Community Standardized Representations for Annotated Immune Repertoires
Vander Heiden J, Marquez S, Marthandan N, Bukhari SAC, Busse CE, Corrie B, Hershberg U, Kleinstein SH, Matsen F, Ralph DK, Rosenfeld AM, Schramm CA, Community T, Christley S, Laserson U. AIRR Community Standardized Representations for Annotated Immune Repertoires. Frontiers In Immunology 2018, 9: 2206. PMID: 30323809, PMCID: PMC6173121, DOI: 10.3389/fimmu.2018.02206.Peer-Reviewed Original Research
2014
B cells populating the multiple sclerosis brain mature in the draining cervical lymph nodes
Stern JN, Yaari G, Vander Heiden JA, Church G, Donahue WF, Hintzen RQ, Huttner AJ, Laman JD, Nagra RM, Nylander A, Pitt D, Ramanan S, Siddiqui BA, Vigneault F, Kleinstein SH, Hafler DA, O'Connor KC. B cells populating the multiple sclerosis brain mature in the draining cervical lymph nodes. Science Translational Medicine 2014, 6: 248ra107. PMID: 25100741, PMCID: PMC4388137, DOI: 10.1126/scitranslmed.3008879.Peer-Reviewed Original ResearchConceptsCervical lymph nodesCentral nervous systemB cellsCerebrospinal fluidLymph nodesMultiple sclerosisLymphoid tissueCNS of patientsCNS B cellsAntigen-experienced B cellsMultiple sclerosis brainSecondary lymphoid tissuesB cell compartmentB cell trafficB cell maturationImmunomodulatory therapyImmune infiltratesPeripheral bloodInflammatory diseasesLymphocyte transmigrationPeripheral tissuesNervous systemMembers of clonesCell maturationCell trafficHigh-resolution antibody dynamics of vaccine-induced immune responses
Laserson U, Vigneault F, Gadala-Maria D, Yaari G, Uduman M, Vander Heiden J, Kelton W, Jung S, Liu Y, Laserson J, Chari R, Lee JH, Bachelet I, Hickey B, Lieberman-Aiden E, Hanczaruk B, Simen BB, Egholm M, Koller D, Georgiou G, Kleinstein SH, Church GM. High-resolution antibody dynamics of vaccine-induced immune responses. Proceedings Of The National Academy Of Sciences Of The United States Of America 2014, 111: 4928-4933. PMID: 24639495, PMCID: PMC3977259, DOI: 10.1073/pnas.1323862111.Peer-Reviewed Original Research
2013
Antigen-specific, antibody-coated, exosome-like nanovesicles deliver suppressor T-cell microRNA-150 to effector T cells to inhibit contact sensitivity
Bryniarski K, Ptak W, Jayakumar A, Püllmann K, Caplan MJ, Chairoungdua A, Lu J, Adams BD, Sikora E, Nazimek K, Marquez S, Kleinstein SH, Sangwung P, Iwakiri Y, Delgato E, Redegeld F, Blokhuis BR, Wojcikowski J, Daniel AW, Kormelink T, Askenase PW. Antigen-specific, antibody-coated, exosome-like nanovesicles deliver suppressor T-cell microRNA-150 to effector T cells to inhibit contact sensitivity. Journal Of Allergy And Clinical Immunology 2013, 132: 170-181.e9. PMID: 23727037, PMCID: PMC4176620, DOI: 10.1016/j.jaci.2013.04.048.Peer-Reviewed Original ResearchConceptsCutaneous contact sensitivityEffector T cellsT cell toleranceT cellsExosome-like nanovesiclesContact sensitivityCS-effector T cellsMiRNA-150Regulatory T cellsAntigen-specific mannerSuppressor T cellsRole of antibodiesAdoptive cell transfer modelCell transfer modelT cell regulationLight chainSuppressor cellsLymph nodesReactive haptenImmune suppressionMicroRNA-150Systemic injectionAntibody light chainIntravenous injectionSpleen cells