2024
MHC class I and II-deficient humanized mice are suitable tools to test the long-term antitumor efficacy of immune checkpoint inhibitors and T-cell engagers
Eguren-Santamaria I, de Piérola E, Camps G, Martín-Muñoz P, Campos M, Cuculescu D, Aguilera-Buenosvinos I, López I, Salido-Vallejo R, Alexandru R, De Andrea C, Álvarez-Gigli L, Berraondo P, Melero I, Sanmamed M. MHC class I and II-deficient humanized mice are suitable tools to test the long-term antitumor efficacy of immune checkpoint inhibitors and T-cell engagers. Journal For ImmunoTherapy Of Cancer 2024, 12: e008516. PMID: 39244214, PMCID: PMC11381650, DOI: 10.1136/jitc-2023-008516.Peer-Reviewed Original ResearchConceptsPeripheral blood mononuclear cellsHuman peripheral blood mononuclear cellsT-cell engagersNSG miceMajor histocompatibility complexSevere XGVHDImmunodeficient miceAntitumor effectTumor rejectionImmunotherapy agentsAntitumor activityAntitumor efficacy of immune checkpoint inhibitorsEfficacy of immune checkpoint inhibitorsHT29 human colon carcinoma cellsLong-term antitumor efficacyDevelopment of cancer immunotherapyAdministration of nivolumabImmune checkpoint inhibitorsCancer immunotherapy agentsT cell clonesHuman colon carcinoma cellsAlanine aminotransferase levelsMajor histocompatibility complex class IBlood mononuclear cellsHuman immune cells057 Single cell RNA and TCR sequencing reveals hyperexpansion of T cell clones and novel regulatory mechanisms of CD8+ T cells in murine alopcecia areata skin and draining lymph nodes
Wang Y, Yu W, Micevic G, Daccache J, Wang A, Park K, Wang G, Palmatier M, Wheeler J, King B, Damsky W. 057 Single cell RNA and TCR sequencing reveals hyperexpansion of T cell clones and novel regulatory mechanisms of CD8+ T cells in murine alopcecia areata skin and draining lymph nodes. Journal Of Investigative Dermatology 2024, 144: s10. DOI: 10.1016/j.jid.2024.06.073.Peer-Reviewed Original ResearchHIV-1–infected T cell clones are shared across cerebrospinal fluid and blood during ART
Wang M, Yoon J, Reisert H, Das B, Orlinick B, Chiarella J, Halvas E, Mellors J, Pang A, Barakat L, Fikrig M, Cyktor J, Kluger Y, Spudich S, Corley M, Farhadian S. HIV-1–infected T cell clones are shared across cerebrospinal fluid and blood during ART. JCI Insight 2024, 9: e176208. PMID: 38587074, PMCID: PMC11128194, DOI: 10.1172/jci.insight.176208.Peer-Reviewed Original ResearchConceptsT cell clonesT cell receptorCerebrospinal fluidT cellsHIV-1Infected T-cell clonesCentral memory T cellsCD4 T-cell clonesDetectable HIV RNAMemory T cellsHIV-1 RNAInfected T cellsCNS reservoirsHIV persistenceHIV reservoirHIV RNAHIV cureReservoir cellsPWHTissue compartmentsBloodCNSUninfected controlsCD4Infected cells
2023
Circulating T cell specific extracellular vesicle profiles in cardiac allograft acute cellular rejection
Korutla L, Hoffman J, Rostami S, Hu R, Korutla V, Markmann C, Mullan C, Sotolongo A, Habertheuer A, Romano C, Acker M, Sen S, Agarwal D, Jayaraman A, Li B, Davis M, Naji A, Vallabhajosyula P. Circulating T cell specific extracellular vesicle profiles in cardiac allograft acute cellular rejection. American Journal Of Transplantation 2023, 24: 419-435. PMID: 38295008, DOI: 10.1016/j.ajt.2023.10.021.Peer-Reviewed Original ResearchAcute cellular rejectionAllogeneic transplant recipientsTransplant recipientsCellular rejectionHeart transplantationAlloreactive T cell activationEarly acute cellular rejectionT-cell receptor sequencingSyngeneic transplant recipientsCell receptor sequencingClinical heart transplantationT cell clonesNovel candidate biomarkersT cell activationQuantitative RT-PCRRecipient circulationOrgan transplantationT cellsVesicle profilesNoninvasive biomarkersCandidate biomarkersCell activationRegulatory markersDonor cardiomyocytesTransplantation
2022
Inhibition of a Chromatin and Transcription Modulator, SLTM, Increases HIV-1 Reactivation Identified by a CRISPR Inhibition Screen
Pedersen SF, Collora JA, Kim RN, Yang K, Razmi A, Catalano AA, Yeh YJ, Mounzer K, Tebas P, Montaner LJ, Ho YC. Inhibition of a Chromatin and Transcription Modulator, SLTM, Increases HIV-1 Reactivation Identified by a CRISPR Inhibition Screen. Journal Of Virology 2022, 96: e00577-22. PMID: 35730977, PMCID: PMC9278143, DOI: 10.1128/jvi.00577-22.Peer-Reviewed Original ResearchConceptsHIV-1-infected cellsHIV-1 reactivationT cell clonesHIV-1HIV-1 protein expressionAntiretroviral therapyDrug treatmentProtein expressionInfected cellsInfected individualsHIV-1-infected individualsCell clonesEffective antiretroviral therapyHIV-1 cureLong-term therapyHIV-1 gene expressionHIV-1 persistenceHIV-1 provirusHIV-1 transcriptionImmune cell killingNovel therapeutic targetCell deathLatent reservoirImmune cellsT cellsAbstract 5636: V-delta-1 T cells are resident in the human lung and associate with survival in patients with non-small cell lung cancer in the TRACERx Study
Wu Y, Biswas D, Usaite I, Mihaela A, Boeing S, Karasaki T, Veeriah S, Czyzewska-Khan J, Reading J, Georgiou A, Al-Bakir M, McGranahan N, Jamal-Hanjani M, Hackshaw A, Consortium T, Quezada S, Hayday A, Swanton C. Abstract 5636: V-delta-1 T cells are resident in the human lung and associate with survival in patients with non-small cell lung cancer in the TRACERx Study. Cancer Research 2022, 82: 5636-5636. DOI: 10.1158/1538-7445.am2022-5636.Peer-Reviewed Original ResearchNon-small cell lung cancerCell lung cancerT cell compartmentV delta 1T cellsAssociated with survivalLung cancerTRACERx studyLung tissueAmerican Association for Cancer Research annual meetingsStage I-III non-small cell lung cancerT cell knockout miceCD8+ T cellsMurine tissuesFirst-in-human clinical trialIL-17-producingNon-malignant lung tissueT-cell immunotherapyT-cell receptor sequencingT cell clonesIL-17 productionT helper 1Acute myeloid leukemiaSusceptibility to carcinogenesisHuman lungCombining Cellular Immunology With RNAseq to Identify Novel Chlamydia T-Cell Subset Signatures
Johnson RM, Asashima H, Mohanty S, Shaw AC. Combining Cellular Immunology With RNAseq to Identify Novel Chlamydia T-Cell Subset Signatures. The Journal Of Infectious Diseases 2022, 225: 2033-2042. PMID: 35172331, PMCID: PMC9159333, DOI: 10.1093/infdis/jiac051.Peer-Reviewed Original ResearchConceptsProtective T cell clonesAntibacterial effector mechanismsT cells residentB cell helpT cell clonesCytokine polarizationImmune miceIL-10Protective immunityVaccine trialsIL-13Surrogate biomarkerEffector mechanismsGenital tractT cellsVaccine candidatesChlamydia trachomatisCells residentHelper functionCellular immunologyMouse studiesHuman investigationsReproductive tractGranzyme A.Investigational data
2020
A Class II-Restricted CD8γ13 T-Cell Clone Protects During Chlamydia muridarum Genital Tract Infection
Johnson RM, Olivares-Strank N, Peng G. A Class II-Restricted CD8γ13 T-Cell Clone Protects During Chlamydia muridarum Genital Tract Infection. The Journal Of Infectious Diseases 2020, 221: 1895-1906. PMID: 31899500, PMCID: PMC7213565, DOI: 10.1093/infdis/jiz685.Peer-Reviewed Original ResearchConceptsGenital tract infectionCD8 T cellsT cell clonesChlamydia muridarum Genital Tract InfectionMHC class IIT cellsTract infectionsClass IIClass IAntigen-specific CD8 T cellsChlamydia genital tract infectionCD8 T cell clonesCD4 T cell numbersMajor histocompatibility complex class IAdoptive transfer studiesT cell numbersT cell responsesHistocompatibility complex class IComplex class IBacterial clearanceIL-13IL-5ImmunopathologyIntracellular pathogensInfection
2018
Commensal orthologs of the human autoantigen Ro60 as triggers of autoimmunity in lupus
Greiling TM, Dehner C, Chen X, Hughes K, Iñiguez AJ, Boccitto M, Ruiz DZ, Renfroe SC, Vieira SM, Ruff WE, Sim S, Kriegel C, Glanternik J, Chen X, Girardi M, Degnan P, Costenbader KH, Goodman AL, Wolin SL, Kriegel MA. Commensal orthologs of the human autoantigen Ro60 as triggers of autoimmunity in lupus. Science Translational Medicine 2018, 10 PMID: 29593104, PMCID: PMC5918293, DOI: 10.1126/scitranslmed.aan2306.Peer-Reviewed Original ResearchConceptsLupus patientsGlomerular immune complex depositsPositive lupus patientsImmune complex depositsGerm-free miceSigns of autoimmunityB cell responsesT cell clonesNovel treatment approachesTriggers of autoimmunityCommensal bacterial speciesEarliest autoantibodiesChronic autoimmunityAutoimmune diseasesHealthy controlsT cellsTreatment approachesSusceptible individualsAutoimmunityCell responsesCommensal speciesLupusPatientsCell clonesGut commensalsB Cell Presentation of Chlamydia Antigen Selects Out Protective CD4γ13 T Cells: Implications for Genital Tract Tissue-Resident Memory Lymphocyte Clusters
Johnson RM, Yu H, Strank N, Karunakaran K, Zhu Y, Brunham RC. B Cell Presentation of Chlamydia Antigen Selects Out Protective CD4γ13 T Cells: Implications for Genital Tract Tissue-Resident Memory Lymphocyte Clusters. Infection And Immunity 2018, 86: 10.1128/iai.00614-17. PMID: 29158429, PMCID: PMC5778355, DOI: 10.1128/iai.00614-17.Peer-Reviewed Original ResearchConceptsMemory lymphocyte clustersPeripheral blood mononuclear cellsT cell subsetsAntigen-presenting cellsT cell clonesB cell populationsT cellsLymphocyte clustersCell subsetsB cellsTissue-resident memory T cellsCD4 T-cell clonesCD4 T cell subsetsHuman peripheral blood mononuclear cellsCell clonesMemory T cellsBlood mononuclear cellsIL-13 responsesImmune B cellsB cell presentationCell populationsAdoptive transferImmune miceIntracellular bacterial pathogenChlamydia antigen
2017
Autoantigen‐specific T and B Cell Cross‐reactivity to a Gut Commensal in Antiphospholipid Syndrome
Dehner C, Ruff W, Vieira S, Goodman A, Kriegel M. Autoantigen‐specific T and B Cell Cross‐reactivity to a Gut Commensal in Antiphospholipid Syndrome. The FASEB Journal 2017, 31 DOI: 10.1096/fasebj.31.1_supplement.184.7.Peer-Reviewed Original ResearchBALB/c miceAdaptive immune systemAntiphospholipid syndromeB cellsC miceT cellsCell epitopesImmune systemPathogenic T cell epitopesTetramer-positive T cellsCD4 memory T cellsMemory T cellsTNF-α ILAdaptive immune responsesT cell clonesT cell epitopesDose-responsive mannerHuman commensal bacteriumB-cell epitopesEpitope-specific monoclonal antibodiesIL-21Patient PBMCsLymph nodesGPI antibodiesAntigenic challengeCommensal Ro60 Orthologs as Persistent Triggers of Human Lupus
Dehner C, Greiling T, Chen X, Renfroe S, Hughes K, Vieira S, Ruff W, Boccitto M, Sim S, Chen X, Kriegel C, Degnan P, Goodman A, Wolin S, Kriegel M. Commensal Ro60 Orthologs as Persistent Triggers of Human Lupus. The FASEB Journal 2017, 31 DOI: 10.1096/fasebj.31.1_supplement.55.3.Peer-Reviewed Original ResearchMesenteric lymph nodesSystemic lupus erythematosusT cell clonesLupus patientsSLE patientsTg miceAutoimmune diseasesMicrobial triggersCell clonesT cellsGerm-free (GF) C57BL/6 miceP. propionicumMemory CD4 T cellsHuman SLE seraPrototypical autoimmune diseaseCD4 T cellsHuman autoimmune diseasesGerm-free miceAnti-Ro60 antibodiesEarliest autoantibodiesRo60 antibodiesLupus modelsLupus erythematosusLymph nodesHuman lupus
2016
Lupus T and B cell cross-reactivity between the human Ro60 autoantigen and Ro60 orthologs from the human microbiota
Greiling T, Dehner C, Renfroe S, Chen X, Vieira S, Ruff W, Goodman A, Wolin S, Kriegel M. Lupus T and B cell cross-reactivity between the human Ro60 autoantigen and Ro60 orthologs from the human microbiota. The Journal Of Immunology 2016, 196: 124.16-124.16. DOI: 10.4049/jimmunol.196.supp.124.16.Peer-Reviewed Original ResearchLupus patientsAnti-Ro60 antibodiesB cellsP. propionicumGerm-free miceGut commensalsHuman lupus patientsHuman microbiotaT cell clonesNovel therapeutic approachesSubset of skinAutoimmune TEarliest autoantibodiesLupus TRo60 antibodiesIgA antibodiesChronic autoimmunityMemory TSystemic autoimmunityHealthy controlsT cellsTherapeutic approachesPatientsSusceptible individualsAutoimmunity
2015
Cutaneous Lymphoma International Consortium Study of Outcome in Advanced Stages of Mycosis Fungoides and Sézary Syndrome: Effect of Specific Prognostic Markers on Survival and Development of a Prognostic Model
Scarisbrick JJ, Prince HM, Vermeer MH, Quaglino P, Horwitz S, Porcu P, Stadler R, Wood GS, Beylot-Barry M, Pham-Ledard A, Foss F, Girardi M, Bagot M, Michel L, Battistella M, Guitart J, Kuzel TM, Martinez-Escala ME, Estrach T, Papadavid E, Antoniou C, Rigopoulos D, Nikolaou V, Sugaya M, Miyagaki T, Gniadecki R, Sanches JA, Cury-Martins J, Miyashiro D, Servitje O, Muniesa C, Berti E, Onida F, Corti L, Hodak E, Amitay-Laish I, Ortiz-Romero PL, Rodríguez-Peralto JL, Knobler R, Porkert S, Bauer W, Pimpinelli N, Grandi V, Cowan R, Rook A, Kim E, Pileri A, Patrizi A, Pujol RM, Wong H, Tyler K, Stranzenbach R, Querfeld C, Fava P, Maule M, Willemze R, Evison F, Morris S, Twigger R, Talpur R, Kim J, Ognibene G, Li S, Tavallaee M, Hoppe RT, Duvic M, Whittaker SJ, Kim YH. Cutaneous Lymphoma International Consortium Study of Outcome in Advanced Stages of Mycosis Fungoides and Sézary Syndrome: Effect of Specific Prognostic Markers on Survival and Development of a Prognostic Model. Journal Of Clinical Oncology 2015, 33: 3766-3773. PMID: 26438120, PMCID: PMC4979132, DOI: 10.1200/jco.2015.61.7142.Peer-Reviewed Original ResearchConceptsMF/Sézary syndromeAdvanced-stage MF/Sézary syndromeMedian overall survivalSézary syndromeIndependent prognostic markerOverall survivalPrognostic markerWorse survivalMycosis fungoidesAdvanced MF/SSSurvival rateAdvanced-stage mycosis fungoidesIdentical T-cell clonesStage IIB diseaseStage III diseaseStage IV diseaseSingle-center trialAdvanced-stage patientsIndependent prognostic valueSerum lactate dehydrogenasePrognostic index modelSpecific prognostic markersLarge cell transformationT cell clonesIIB diseaseThymic Selection: To Thine Own Self Be True
Kitz A, Hafler DA. Thymic Selection: To Thine Own Self Be True. Immunity 2015, 42: 788-789. PMID: 25992854, DOI: 10.1016/j.immuni.2015.05.007.Peer-Reviewed Original Research
2014
An atypical CD8 T‐cell response to Chlamydia muridarum genital tract infections includes T cells that produce interleukin‐13
Johnson RM, Kerr MS, Slaven JE. An atypical CD8 T‐cell response to Chlamydia muridarum genital tract infections includes T cells that produce interleukin‐13. Immunology 2014, 142: 248-257. PMID: 24428415, PMCID: PMC4008232, DOI: 10.1111/imm.12248.Peer-Reviewed Original ResearchConceptsGenital tract infectionCD8 T cellsCD8 T cell responsesCD8 T cell clonesT cell responsesTract infectionsT cell clonesT cellsProtective immunityInterleukin-13T helper type 1 cell responsesC. muridarum genital tract infectionChlamydia muridarum Genital Tract InfectionMHC class Ia moleculesCD4 T cellsRole of TNFAntigen-presenting cellsTumor necrosis factorReproductive tract epitheliumClass Ia moleculesCD8 clonesCD8 levelsChlamydia replicationNaive splenocytesIntracellular bacterial pathogen
2013
Vaccination with Single Chain Antigen Receptors for Islet-Derived Peptides Presented on I-Ag7 Delays Diabetes in NOD Mice by Inducing Anergy in Self-Reactive T-Cells
Gurr W, Shaw M, Herzog RI, Li Y, Sherwin R. Vaccination with Single Chain Antigen Receptors for Islet-Derived Peptides Presented on I-Ag7 Delays Diabetes in NOD Mice by Inducing Anergy in Self-Reactive T-Cells. PLOS ONE 2013, 8: e69464. PMID: 23894487, PMCID: PMC3722102, DOI: 10.1371/journal.pone.0069464.Peer-Reviewed Original ResearchConceptsSelf-reactive T cellsSingle chain receptorT cellsNOD miceB cellsReceptor repertoireSelf-reactive T cell clonesT cell receptor repertoireAnti-idiotypic vaccinationNormal NOD micePancreatic lymph nodesOnset of T1D.NOD-scid recipientsB cell receptor repertoireType 1 diabetesT cell clonesBDC2.5 TCRNOD recipientsProfound anergyLymph nodesSpecific autoantigensInducer cellsVaccination approachesMHC IVaccination
2012
PmpG303-311, a Protective Vaccine Epitope That Elicits Persistent Cellular Immune Responses in Chlamydia muridarum-Immune Mice
Johnson RM, Yu H, Kerr MS, Slaven JE, Karunakaran KP, Brunham RC. PmpG303-311, a Protective Vaccine Epitope That Elicits Persistent Cellular Immune Responses in Chlamydia muridarum-Immune Mice. Infection And Immunity 2012, 80: 2204-2211. PMID: 22431650, PMCID: PMC3370596, DOI: 10.1128/iai.06339-11.Peer-Reviewed Original ResearchConceptsGenital tract infectionAntigen-presenting cellsT cell clonesTract infectionsMonths postinfectionImmune responseChlamydia muridarum Genital Tract InfectionProtective CD4 T cell responsesVaccine developmentPrimary genital tract infectionTh1 T cell clonesCD4 T cell responsesCD4 T-cell clonesSplenic antigen-presenting cellsAntigen-presenting cell populationsCell clonesCD4 T cellsT cell responsesCellular immune responsesProtective immune responsePromising vaccine candidateImmune C57BL/6 miceInfected epithelial cellsIrradiated splenocytesUrogenital chlamydiaPlac8-Dependent and Inducible NO Synthase-Dependent Mechanisms Clear Chlamydia muridarum Infections from the Genital Tract
Johnson RM, Kerr MS, Slaven JE. Plac8-Dependent and Inducible NO Synthase-Dependent Mechanisms Clear Chlamydia muridarum Infections from the Genital Tract. The Journal Of Immunology 2012, 188: 1896-1904. PMID: 22238459, PMCID: PMC3303601, DOI: 10.4049/jimmunol.1102764.Peer-Reviewed Original ResearchConceptsGenital tract infectionCD4 T-cell clonesINOS-independent mechanismCD4 T cellsT cell clonesTract infectionsT cellsC. muridarum genital tract infectionCell clonesChlamydia muridarum infectionInducible NO synthase (iNOS) transcriptionT cell mechanismsT cell subsetsClearance of infectionGenital tract epitheliumT cell degranulationCytokine profileCell subsetsCell degranulationGenital tractClear infectionEffector functionsMouse modelNO productionVaccine development
2011
HLA-DR3 restricted T cell epitope mimicry in induction of autoimmune response to lupus-associated antigen SmD
Deshmukh U, Sim D, Dai C, Kannapell C, Gaskin F, Rajagopalan G, David C, Fu S. HLA-DR3 restricted T cell epitope mimicry in induction of autoimmune response to lupus-associated antigen SmD. Journal Of Autoimmunity 2011, 37: 254-262. PMID: 21868195, PMCID: PMC3372418, DOI: 10.1016/j.jaut.2011.07.002.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntibody FormationAutoantibodiesAutoantigensAutoimmunityEpitopes, T-LymphocyteFemaleHLA-DR3 AntigenHumansHybridomasImmunizationLupus Erythematosus, SystemicLymphocyte ActivationMiceMice, TransgenicMolecular MimicryPeptidesProtein BindingsnRNP Core ProteinsStreptococcus agalactiaeT-LymphocytesVibrio choleraeConceptsSystemic lupus erythematosusHLA-DR3 transgenic miceT cell epitopesHLA-DR3T cellsEpitope levelCell epitopesTransgenic miceMolecular mimicryPathogenesis of SLET cell epitope mimicryAutoreactive T cell clonesT hybridomasHLA-DR3 miceMicrobial peptidesAutoreactive T cellsProduction of autoantibodiesT cell responsesT cell clonesLupus erythematosusLupus autoantigensAutoimmune responseAutoimmune disordersImmunized miceEpitope mimicry
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply