grant

The role of cytotoxic T cells in rheumatoid arthritis pathogenesis

Organization JOHNS HOPKINS UNIVERSITYLocation BALTIMORE, UNITED STATESPosted 1 Sept 2021Deadline 31 Aug 2026
NIHUS FederalResearch GrantFY2025APRF proteinAcute-Phase Response FactorAddressAllelesAllelomorphsAntibodiesAntigen PresentationAntigen TargetingAntigen-Presenting CellsAntigenic DeterminantsAntigensArthritisAtrophic ArthritisAutoantibodiesAutoantigensAutoimmuneAutoimmune StatusAutoimmunityAutologous AntigensB blood cellsB cellB cellsB-CellsB-LymphocytesB-cellBinding DeterminantsBlood NeutrophilBlood Polymorphonuclear NeutrophilBlood monocyteCD4 CellsCD4 Positive T LymphocytesCD4 T cellsCD4 helper T cellCD4 lymphocyteCD4+ T-LymphocyteCD4-Positive LymphocytesCD8 CellCD8 T cellsCD8 lymphocyteCD8+ T cellCD8+ T-LymphocyteCD8-Positive LymphocytesCD8-Positive T-LymphocytesCalciumCausalityCell BodyCell-Mediated Lympholytic CellsCellsCessation of lifeChronic T-Lymphocytic LeukemiaCitrullineClonal ExpansionClonalityClone CellsComplexCytolysisCytolytic T-CellCytoplasmic GranulesCytotoxic T CellCytotoxic T-LymphocytesCytotoxic cellDNA mutationDataDeathDendritic CellsDevelopmentDiseaseDisorderEnzyme GeneEnzymesEpitopesEtiologyGenerationsGeneticGenetic ChangeGenetic defectGenetic mutationGoalsGranzymeHLA-DRB1HLA-DRB1 antigenHumanIL6-response factorImmune TargetingImmune responseInflammationIsoenzymesIsozymesJoint DiseasesJointsK CellsK lymphocyteKiller CellsKnowledgeLGLLLIF-response factorLaboratoriesLarge Cell Granular Lymphogenous LeukemiaLarge Cell Granular Lymphoid LeukemiaLarge Granular Lymphocytic LeukemiaLarge Granular LymphocytosisLinkLymphatic cellLymphocyteLymphocyticLysisMaintenanceMarrow NeutrophilMarrow monocyteMediatingMethodsModelingModern ManMutationNK CellsNatural Killer CellsNeutropeniaNeutrophilic GranulocyteNeutrophilic LeukocytePathogenesisPathogenicityPathway interactionsPatientsPhenotypePolymorphonuclear CellPolymorphonuclear LeukocytesPolymorphonuclear NeutrophilsPreventative interventionProcessProtein-arginine deiminaseProteinsPublishingRheumatoid ArthritisRoleSelf-AntigensSeriesSerologyShapesSignal Transducer and Activator of Transcription 3SpecificityStat3 proteinSubgroupT-Cell CLLT-Cell Chronic Lymphocytic LeukemiaT-Cell Chronic Lymphogenous LeukemiaT-Cell Chronic Lymphoid LeukemiaT-Cell Large Granular LymphocyteT-Cell Large Granular Lymphocyte LeukemiaT-Cell Large Granular Lymphocytic LeukemiaT-Gamma Lymphoproliferative DisorderT-LGLT4 CellsT4 LymphocytesT8 CellsT8 LymphocytesTechnologyTestingTgamma Large Granular Lymphocyte LeukemiaTherapeutic InterventionUniversitiesVeiled CellsVirginiaWorkaccessory cellantigen processingarthriticarthropathicarthropathiesarthropathyautoimmune antibodyautoimmune reactivityautoreactive antibodyautoreactivitycausationchronic T-cell leukemiacitrullinated proteincohortcytotoxiccytotoxic CD8 T cellscytotoxic CD8 T lymphocytedevelopmentaldisease causationgenome mutationgranulehost responsehuman modelimmune system responseimmunogenimmunogenicimmunoresponseinnovateinnovationinnovativeinsightintervention for preventionintervention therapyjoint disorderkiller T celllarge granular lymphocyte leukemialeukemialymph celllymphocyte pore-forming proteinmodel of humanmonocyteneutrophilnew therapeutic approachnew therapeutic interventionnew therapeutic strategiesnew therapy approachesnew treatment approachnew treatment strategynovelnovel therapeutic approachnovel therapeutic interventionnovel therapeutic strategiesnovel therapy approachpathwaypatient subclasspatient subclusterpatient subgroupspatient subpopulationspatient subsetspatient subtypespeptidylarginine deiminaseperforinprevention interventionpreventional intervention strategypreventive interventionprotein-L-arginine iminohydrolaserheumatic arthritisself reactive antibodysocial role
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Full Description

PROJECT SUMMARY/ABSTRACT
Significant data implicate a role for autoantibodies to citrullinated proteins in RA pathogenesis, and
autoantibodies to the citrullinating enzyme peptidylarginine deiminase 4 (PAD4) are also found in a subset of
patients with the most severe joint disease. Citrullination is the calcium-dependent conversion of peptidyl-
arginine to citrulline by the PAD enzymes, but the mechanisms that initiate immune responses to citrullination-
associated autoantigens are poorly understood. While different several mechanisms have been proposed, our
published and preliminary data implicate cytotoxic lymphocyte-mediated killing of neutrophils in the generation
of citrullinated autoantigens and immunogenic PAD4 in a subset of patients with RA. A pathogenic role for
cytotoxic T lymphocytes (CTLs) in this process is strongly supported by our preliminary work on patients with T
cell large granular lymphocyte leukemia (T-LGLL), a rare form of leukemia in which 20-30% of patients develop
RA (T-LGLL/RA). This disease is characterized by clonal expansion of CD8+ T cells, neutropenia and somatic
activating mutations in STAT3. Interestingly, we have found striking autoimmune and genetic similarities between
T-LGLL/RA and the anti-PAD4 antibody positive subgroup of RA, suggesting a common pathogenic origin for
the development of arthritis in these two diseases. Importantly, these findings make T-LGLL/RA a powerful yet
simplified human model driven by pathogenic CTLs, in which to study novel pathogenic mechanisms in RA. In
this project, we will use unique cohorts of patients with RA and T-LGLL/RA, as well as innovative and state of
the art technologies, to examine the novel hypothesis that killing of neutrophils by pathogenic CTLs is a central
mechanism promoting the lack of tolerance to autoantigens in a unique serologically distinct RA subset. To
address this hypothesis we will define: 1) common pathogenic mechanisms linked to autoreactive CTL expansion
and serological profiles indicative of CTL-driven disease in RA and T-LGLL/RA; 2) how the cytotoxic lymphocyte
granule pathway shapes the repertoire of autoantigens presented from dying neutrophils to autoreactive CD4+
T cells by antigen presenting cells; and 3) the clonality, specificity and effector functions of autoreactive CD8+ T
cells in RA and T-LGLL/RA. Our long-term goal is to apply this knowledge to define precise mechanism-guided
preventive and therapeutic interventions in RA.

Grant Number: 5R01AR079404-05
NIH Institute/Center: NIH
Principal Investigator: Felipe Andrade

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