2019
In vivo dynamics of T cells and their interactions with dendritic cells in mouse cutaneous graft-versus-host disease
Morin-Zorman S, Wysocki C, Zhu J, Li H, Zorman S, Matte-Martone C, Kisanga E, McNiff J, Jain D, Gonzalez D, Rothstein DM, Lakkis FG, Haberman A, Shlomchik WD. In vivo dynamics of T cells and their interactions with dendritic cells in mouse cutaneous graft-versus-host disease. Blood Advances 2019, 3: 2082-2092. PMID: 31296496, PMCID: PMC6650737, DOI: 10.1182/bloodadvances.2019000227.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBiomarkersCD11c AntigenCell CommunicationDendritic CellsDisease Models, AnimalFluorescent Antibody TechniqueGene ExpressionGenes, ReporterGraft vs Host DiseaseHematopoietic Stem Cell TransplantationHistocompatibility Antigens Class IImmunophenotypingLymphocyte DepletionMiceMice, TransgenicProtein BindingReceptors, Antigen, T-CellSkin DiseasesT-Lymphocyte SubsetsT-LymphocytesTransplantation, HomologousConceptsDonor dendritic cellsCD8 cellsT cellsGVHD lesionsHost diseaseCD4 cellsDendritic cellsAllogeneic hematopoietic stem cell transplantationHematopoietic stem cell transplantationMajority of CD4Dynamics of CD4Stem cell transplantationCutaneous graftAntibody infusionCell transplantationMyeloid cellsIntravital microscopyAcute deletionMajor causeLesionsTarget tissuesCD103CD4InfusionMHCII
2016
αvβ6 Integrin Promotes Castrate-Resistant Prostate Cancer through JNK1-Mediated Activation of Androgen Receptor
Lu H, Wang T, Li J, Fedele C, Liu Q, Zhang J, Jiang Z, Jain D, Iozzo RV, Violette SM, Weinreb PH, Davis RJ, Gioeli D, FitzGerald TJ, Altieri DC, Languino LR. αvβ6 Integrin Promotes Castrate-Resistant Prostate Cancer through JNK1-Mediated Activation of Androgen Receptor. Cancer Research 2016, 76: 5163-5174. PMID: 27450452, PMCID: PMC5012867, DOI: 10.1158/0008-5472.can-16-0543.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntigens, NeoplasmCell Line, TumorDisease Models, AnimalFlow CytometryFluorescent Antibody TechniqueGene Knockdown TechniquesHumansImmunohistochemistryIntegrinsMaleMiceMice, KnockoutMitogen-Activated Protein Kinase 8Prostatic Neoplasms, Castration-ResistantReceptors, AndrogenSignal TransductionConceptsΑvβ6 expressionAndrogen receptorProstate cancerΑvβ6 integrinCastrate-resistant prostate cancerProstate cancer mouse modelAbsence of androgenFurther clinical developmentProstate cancer therapyCancer mouse modelNormal prostatic epitheliumProstate cancer progressionΑv-containing integrinsMajor therapeutic targetUpregulation of survivinActivation of JNK1Androgen ablationDownstream kinase activationMechanisms of resistanceProstatic adenocarcinomaInvolvement of p38Preclinical resultsMouse modelProstatic epitheliumClinical development
2011
Enhancing alloreactivity does not restore GVHD induction but augments skin graft rejection by CD4+ effector memory T cells
Anderson BE, Tang AL, Wang Y, Froicu M, Rothstein D, McNiff JM, Jain D, Demetris AJ, Farber DL, Shlomchik WD, Shlomchik MJ. Enhancing alloreactivity does not restore GVHD induction but augments skin graft rejection by CD4+ effector memory T cells. European Journal Of Immunology 2011, 41: 2782-2792. PMID: 21660940, PMCID: PMC3517133, DOI: 10.1002/eji.201141678.Peer-Reviewed Original ResearchMeSH KeywordsAdoptive TransferAnimalsCD4-Positive T-LymphocytesDisease Models, AnimalGenes, T-Cell ReceptorGraft RejectionGraft vs Host DiseaseHematopoietic Stem Cell TransplantationHumansImmunologic MemoryIsoantigensLymphocyte ActivationMicePostoperative ComplicationsSkin TransplantationT-Cell Antigen Receptor SpecificityT-Lymphocyte SubsetsConceptsEffector memory T cellsMemory T cellsSkin graft rejectionLymphopenia-induced proliferationT cellsMild GVHDAlloreactive clonesGraft rejectionAllogeneic hematopoietic stem cell transplantationHematopoietic stem cell transplantationT cell receptor repertoireGVHD effector cellsDonor T cellsStem cell transplantationDiverse T cell receptor repertoireNaive T cellsRapid skin graft rejectionAlloreactive repertoireGVHD inductionLimited GVHDHost diseaseLeukemia effectEffector cellsCell transplantationSyngeneic recipients
2010
Dantrolene mitigates caerulein-induced pancreatitis in vivo in mice
Orabi AI, Shah AU, Ahmad MU, Choo-Wing R, Parness J, Jain D, Bhandari V, Husain SZ. Dantrolene mitigates caerulein-induced pancreatitis in vivo in mice. AJP Gastrointestinal And Liver Physiology 2010, 299: g196-g204. PMID: 20448143, PMCID: PMC2904115, DOI: 10.1152/ajpgi.00498.2009.Peer-Reviewed Original ResearchMeSH KeywordsAmylasesAnimalsApoptosisCalcium Channel BlockersCalcium SignalingCeruletideCytoprotectionDantroleneDisease Models, AnimalEnzyme ActivationFluorescent Antibody TechniqueIn Situ Nick-End LabelingMaleMiceMice, Inbred C57BLMicroscopy, ElectronPancreasPancreatitisRyanodine Receptor Calcium Release ChannelSeverity of Illness IndexTime FactorsTrypsinConceptsPancreatic trypsin activityCaerulein-induced pancreatitisRyanodine receptorAcinar cellsMouse pancreatic sectionsHigh-risk settingsTUNEL-positive cellsLater time pointsRyR inhibitor dantroleneDantrolene pretreatmentHistological severityAcute pancreatitisPancreatic acinar cellsInflammatory disordersProphylactic treatmentRyR inhibitionSerum amylasePancreatitis inductionPancreatic sectionsPancreatitisAdequate treatmentTrypsin activityEarly markerCaerulein hyperstimulationUltrastructural derangements
2009
Central Memory CD8+ T Cells Induce Graft-versus-Host Disease and Mediate Graft-versus-Leukemia
Zheng H, Matte-Martone C, Jain D, McNiff J, Shlomchik WD. Central Memory CD8+ T Cells Induce Graft-versus-Host Disease and Mediate Graft-versus-Leukemia. The Journal Of Immunology 2009, 182: 5938-5948. PMID: 19414745, PMCID: PMC9844260, DOI: 10.4049/jimmunol.0802212.Peer-Reviewed Original ResearchConceptsMemory T cellsT cellsHost diseaseAllogeneic hemopoietic stem cell transplantationChronic phase chronic myelogenous leukemiaFunctional T-cell memoryMultiple minor histocompatibility AgsBALB/c recipientsEffector memory T cellsHemopoietic stem cell transplantationCentral memory T cellsNonmalignant host tissuesCentral memory CD8Donor T cellsMinor histocompatibility AgT-cell reconstitutionStem cell transplantationT cell memoryNaive T cellsAlphabeta T cellsChronic myelogenous leukemiaC recipientsClinical GVHDHistological diseaseLeukemia effect
2008
CD8+ but not CD4+ T cells require cognate interactions with target tissues to mediate GVHD across only minor H antigens, whereas both CD4+ and CD8+ T cells require direct leukemic contact to mediate GVL
Matte-Martone C, Liu J, Jain D, McNiff J, Shlomchik WD. CD8+ but not CD4+ T cells require cognate interactions with target tissues to mediate GVHD across only minor H antigens, whereas both CD4+ and CD8+ T cells require direct leukemic contact to mediate GVL. Blood 2008, 111: 3884-3892. PMID: 18223170, PMCID: PMC2275040, DOI: 10.1182/blood-2007-11-125294.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCD4-Positive T-LymphocytesCD8-Positive T-LymphocytesDisease Models, AnimalGraft vs Host DiseaseGraft vs Leukemia EffectHistocompatibility Antigens Class IHistocompatibility Antigens Class IIHumansLeukemia, Myelogenous, Chronic, BCR-ABL PositiveMiceMice, KnockoutMinor Histocompatibility AntigensReceptors, Antigen, T-CellStem Cell TransplantationTransplantation ChimeraTransplantation, HomologousConceptsCD4 cellsT cellsT cell antigen receptorAllogeneic stem cell transplantationMajor histocompatibility complex class IDirect cytolytic actionDistinct effector mechanismsDonor CD4 cellsDonor T cellsStem cell transplantationHistocompatibility complex class IMinor H antigensClass II moleculesComplex class IHost diseaseBCR-ABL cDNAGVHDEffector mechanismsMouse modelCML cellsBone marrowCognate interactionNoncytolytic pathwaysCD8Cytolytic actionBiliary and Pancreatic Dysgenesis in Mice Harboring a Mutation in Pkhd1
Gallagher AR, Esquivel EL, Briere TS, Tian X, Mitobe M, Menezes LF, Markowitz GS, Jain D, Onuchic LF, Somlo S. Biliary and Pancreatic Dysgenesis in Mice Harboring a Mutation in Pkhd1. American Journal Of Pathology 2008, 172: 417-429. PMID: 18202188, PMCID: PMC2312372, DOI: 10.2353/ajpath.2008.070381.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBile DuctsBiliary TractBlotting, SouthernBlotting, WesternCiliaDisease Models, AnimalHumansImmunohistochemistryIn Situ HybridizationKidney Tubules, ProximalLiver DiseasesMiceMice, Mutant StrainsMutationPancreatic DiseasesPolycystic Kidney, Autosomal RecessiveReceptors, Cell SurfaceReverse Transcriptase Polymerase Chain ReactionConceptsPolycystic kidney diseaseAutosomal recessive polycystic kidney diseaseRecessive polycystic kidney diseaseKidney diseaseMouse modelCommon bile duct dilationBile duct dilationBile duct proliferationAutosomal dominant polycystic kidney diseaseProgressive cyst formationDistal nephron segmentsDominant polycystic kidney diseaseExtrahepatic manifestationsDuct dilationBiliary tractPeriportal fibrosisDuct proliferationBile ductFibrocystic diseaseOrthologous modelPancreatic cystsProximal tubulesMice harboringSusceptibility of tissuesNephron segments
2004
Distinct roles for donor- and host-derived antigen-presenting cells and costimulatory molecules in murine chronic graft-versus-host disease: requirements depend on target organ
Anderson BE, McNiff JM, Jain D, Blazar BR, Shlomchik WD, Shlomchik MJ. Distinct roles for donor- and host-derived antigen-presenting cells and costimulatory molecules in murine chronic graft-versus-host disease: requirements depend on target organ. Blood 2004, 105: 2227-2234. PMID: 15522961, DOI: 10.1182/blood-2004-08-3032.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntigen-Presenting CellsAntigens, CDB7-1 AntigenB7-2 AntigenBone Marrow TransplantationCD4-Positive T-LymphocytesCD8-Positive T-LymphocytesChronic DiseaseDisease Models, AnimalGraft vs Host DiseaseIntestinal DiseasesMembrane GlycoproteinsMiceMice, Inbred BALB COrgan SpecificitySkin DiseasesTransplantation, HomologousConceptsHost antigen-presenting cellsAntigen-presenting cellsDonor antigen-presenting cellsChronic GVHDAcute GVHDHost diseaseAPC requirementsHost-derived antigen-presenting cellsAllogeneic stem cell transplantationMurine chronic graftCD8 T cellsStem cell transplantationChronic graftGVHD therapyCell transplantationChronic formCostimulatory moleculesGVHDT cellsTarget organsAPC functionCD80/86Pathogenesis mechanismsCD4Graft