grant

New insights into the functional diversity of the hepatic antiviral T cell response during hepacivirus infection in vivo

Organization ALBERT EINSTEIN COLLEGE OF MEDICINELocation BRONX, UNITED STATESPosted 1 Jun 2022Deadline 31 May 2027
NIHUS FederalResearch GrantFY2025AcuteAddressAdoptive Cell TransfersAnimal ModelAnimal Models and Related StudiesAntigenic DeterminantsB cell growth factorB-Cell Differentiation Factor-1B-Cell Growth Factor-1B-Cell Growth Factor-IB-Cell Proliferating FactorB-Cell Stimulating FactorB-Cell Stimulating Factor-1B-Cell Stimulation Factor-1B-Cell Stimulatory Factor-1BCDF-1BCGFBCGF-1BCSF 1BSF-1BSF1Binding DeterminantsBinetrakinBiologicalBiologyBody TissuesCD4 CellsCD4 Positive T LymphocytesCD4 T cellsCD4 helper T cellCD4 lymphocyteCD4+ T-LymphocyteCD4-Positive LymphocytesCD8CD8 CellCD8 T cellsCD8 lymphocyteCD8+ T cellCD8+ T-LymphocyteCD8-Positive LymphocytesCD8-Positive T-LymphocytesCD8BCD8B1CD8B1 geneCell BodyCell-Mediated Lympholytic CellsCellsChronicChronic Hepatitis CChronic type C viral hepatitisChronic viral hepatitis CCirrhosisClass I GenesCytolytic T-CellCytotoxic T CellCytotoxic T-LymphocytesDataDevelopmentDisease ProgressionEpitopesEquilibriumFibrosisFlow CytofluorometriesFlow CytofluorometryFlow CytometryFlow MicrofluorimetryFlow MicrofluorometryGenerationsHBV infectionHCVHCV VaccinationHCV VaccineHCV infectionHepacivirusHepaticHepatic CellsHepatic DisorderHepatic Parenchymal CellHepatitis B InfectionHepatitis C ImmunizationHepatitis C VaccinationHepatitis C VaccineHepatitis C virusHepatitis C virus infectionHepatitis C-Like VirusesHepatocarcinomaHepatocellular CarcinomaHepatocellular cancerHepatocyteHepatomaHumanIL-13IL-4IL13IL4 ProteinImmuneImmune responseImmunesImmunityImmunochemical ImmunologicImmunocompetentImmunologicImmunologicalImmunologicallyImmunologicsImmunologyImmunomodulationImmunotherapeutic agentInfectionInflammationInflammatoryInjury to LiverInterleukin-13Interleukin-4Interleukin-4 PrecursorKO miceKineticsKnock-out MiceKnockout MiceLYT3LinkLiverLiver CellsLiver Cells CarcinomaLiver FibrosisLiver diseasesLong-term infectionLymphocyte Stimulatory Factor 1Lymphocyte SubpopulationsLymphocyte SubsetMCGF-2MHC Class IMHC Class I GenesMast Cell Growth Factor-2MediatingMediatorMemoryMetabolic stressMiceMice MammalsModelingModern ManMouse StrainsMurineMusNK T cellNKT cellNatural Killer T cellNorway RatsNull MousePathologyPatientsPhenotypePlayPredispositionPrimary carcinoma of the liver cellsPropertyRattus norvegicusRodentRodentiaRodents MammalsRoleSamplingSteatohepatitisSusceptibilityT cell responseT-Cell ActivationT-Cell Growth Factor 2T-Cell SubsetsT-CellsT-LymphocyteT-Lymphocyte SubsetsT4 CellsT4 LymphocytesT8 CellsT8 LymphocytesTestingTherapeuticTimeTissuesToxinTranslatingViralViral DiseasesViral hepatitisVirusVirus Diseasesactivate T cellsacute infectionadoptive cell therapyadoptive cellular therapybalancebalance functionbiologicchronic HCV infectionchronic hepatitis C infectionchronic hepatitis C virus infectionchronic infectionchronic infections with HCVchronic infections with hepatitis C viruschronic liver inflammationchronically infected with HCVchronically infected with hepatitis Ccirrhoticcompare to controlcomparison controlcytokinedevelopmentalend stage liver diseaseend stage liver failureexperimentexperimental researchexperimental studyexperimentsfibrotic liverflow cytophotometryglobal gene expressionglobal transcription profilehepatic body systemhepatic damagehepatic diseasehepatic fibrosishepatic injuryhepatic organ systemhepatitis B viral infectionhepatitis B virus infectionhepatitis C infectionhepatitis C virus vaccinationhepatitis C virus vaccinehepatitis virus infectionhepatopathyhigh dimensionalityhost responseimmune competentimmune drugsimmune modulationimmune regulationimmune system responseimmune-based therapeuticsimmunization strategyimmunologic reactivity controlimmunologic therapeuticsimmunomodulatoryimmunoregulationimmunoregulatoryimmunoresponseimmunotherapeuticsimmunotherapy agentin vivoinfected with HBVinfected with HCVinfected with hepatitis Binfected with hepatitis B virusinfected with hepatitis Cinfected with hepatitis C virusinfection by hepatitis c virusinfection with HBVinfection with HCVinfection with hepatitis B virusinfection with hepatitis Cinfection with hepatitis C virusinnovateinnovationinnovativeinsightkiller T cellliver carcinomaliver damageliver disorderliver injurymodel of animalmouse modelmurine modelnatural killer T lymphocytenew drug treatmentsnew drugsnew pharmacological therapeuticnew therapeuticsnew therapynext generation therapeuticsnovelnovel drug treatmentsnovel drugsnovel pharmaco-therapeuticnovel pharmacological therapeuticnovel therapeuticsnovel therapypersistent infectionpolarized cellrepairrepairedresponserestraintscRNA sequencingscRNA-seqsecondary infectionsingle cell RNA-seqsingle cell RNAseqsingle cell expression profilingsingle cell transcriptomic profilingsingle-cell RNA sequencingsocial rolethymus derived lymphocytetissue repairtranscriptomevaccination strategyvaccine strategyviral infectionvirus infectionvirus-induced disease
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Full Description

Inflammatory liver diseases such as chronic hepatitis C virus (HCV) infection can progress to liver fibrosis and
hepatocellular carcinoma (HCC). Hepatic T cell immunity is closely linked to liver diseases since T cells are not
only essential for the clearance of hepatotropic viruses like HCV but may also cause liver injury and contribute
to disease progression. However, the specific role of functionally distinct CD4+ and CD8+ T cell subsets or
innate-like T cells, such as natural killer T (NKT) cells, in mediating an effective antiviral immune response or
regulating liver damage during inflammation are not well understood. Thus, gaining new insights into the
functional biology of hepatic T cell subsets is a prerequisite for the development of HCV vaccine strategies and
immunotherapeutic options for the treatment of progressive liver diseases.
Limited access to human liver tissue and the lack of immune-competent small animal models has impeded
studies of hepatic antiviral immune mechanisms. However, we have recently developed an immune-competent
mouse model of an HCV-related virus, Norway rat hepacivirus (NrHV), which shares significant virological and
immunological similarities with HCV infection in humans. This advance now allows for in-depth mechanistic
studies of anti-hepaciviral immunity in vivo.
Our initial analysis of hepatic lymphocyte subsets during acute, chronic and secondary NrHV infection revealed
a significant induction of a diverse antiviral type 1 T cell response and T cell dependent viral clearance. However,
we also made the unexpected observation that subsets of hepatic CD8+ T cells and NKT cells are polarized
towards type 2 immunity and may contribute to immune-regulation. In this proposal, we will build on these
preliminary data and elucidate the functional properties and potential crosstalk of distinct hepatic type 1 T cells
and type 2 cytokine secreting lymphocyte subsets during NrHV infection. Specifically, we will use high-
dimensional flow cytometry, in vivo functional approaches and/or transcriptome analysis to 1) define the
functional role of different virus-specific effector and memory CD8+ T cell subsets, 2) determine the kinetic and
impact of CD4+ T cells on the generation of virus-specific CD8+ T cells and protective immunity, 3) delineate the
function of type 2 CD8+ and NKT cell subsets and define their impact on liver damage, virus-specific T cells and
other hepatic immune cells during different stages of infection. Finally, we aim to translate our main findings from
the mouse model to human HCV patients.
Our data will provide novel biological insight into the role and interplay of distinct hepatic type 1 and type 2 T cell
and NKT cell subsets in mediating viral clearance, protective immunity, tissue pathology or repair during a
hepatotropic virus infection in vivo.

Grant Number: 4R01AI170725-04
NIH Institute/Center: NIH
Principal Investigator: Eva Billerbeck

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