grant

Mechanisms of antibody-mediated control of repeated hepatitis C virus infection in humans

Organization JOHNS HOPKINS UNIVERSITYLocation BALTIMORE, UNITED STATESPosted 1 May 2021Deadline 31 Dec 2026
NIHUS FederalResearch GrantFY2025AffinityAnimal ModelAnimal Models and Related StudiesAnti-HCV AntibodiesAnti-Hepatitis C Virus AntibodiesAntibodiesAntibody ResponseAntibody titer measurementAntigen VariationAntigenic DeterminantsAntigenic VariabilityAntigenic VariationAntigensAssayAutologousAutomobile DrivingB blood cellsB cellB cell repertoireB cellsB-Cell ActivationB-CellsB-LymphocytesB-cellB-cell receptor repertoire sequencingB-cell receptor sequencingBCR repertoire sequencingBCR seqBCR sequencingBCRseqBindingBinding DeterminantsBinding SitesBioassayBiological AssayBlocking AntibodiesBlood PlasmaCD4 CellsCD4 Positive T LymphocytesCD4 T cellsCD4 helper T cellCD4 lymphocyteCD4+ T-LymphocyteCD4-Positive LymphocytesCD81CD81 geneCell BodyCellsChronicClinical Treatment MoabClone CellsCollaborationsCombining SiteComplexDevelopmentDisease OutcomeDysfunctionEnvelope ProteinEpitopesEvolutionExposure toFlow CytofluorometriesFlow CytofluorometryFlow CytometryFlow MicrofluorimetryFlow MicrofluorometryFunctional disorderHCVHCV AntibodiesHCV VaccineHCV infectionHIV-1HIV-IHIV1Hepatitis C AntibodiesHepatitis C VaccineHepatitis C Virus AntibodiesHepatitis C virusHepatitis C virus infectionHumanHuman Immunodeficiency Virus Type 1Human immunodeficiency virus 1Ig Somatic HypermutationImmuneImmune responseImmunesImmunoglobulin Somatic HypermutationIn VitroIndividualInfectionInfusionInfusion proceduresLinkLong-term infectionMeasuresMediatingModelingModern ManMolecular InteractionMonoclonal AntibodiesParticipantPhenotypePhysiopathologyPlasmaPlasma SerumPlayPrimary InfectionProbabilityProteinsReactive SiteResistanceReticuloendothelial System, Serum, PlasmaRoleSiteStimulusStudy SubjectT cell responseT-CellsT-LymphocyteT4 CellsT4 LymphocytesTAPA-1TAPA1TSPAN28TestingTimeVaccinesVariantVariationViralViral ActivityViral DiseasesViral FunctionViral PhysiologyViremiaVirusVirus DiseasesWorkactivated B cellsadaptive immunityantibody titeringchronic infectiondevelop a vaccinedevelop vaccinesdevelopment of a vaccinedevelopmentaldrivingenv Antigensenv Gene Productsenv Polyproteinsenv Proteinflow cytophotometryhepatitis C infectionhepatitis C virus vaccinehigh dimensionalityhost responsehuman subjectimmune system responseimmunogenimmunoresponsein vivoinfected with HCVinfected with hepatitis Cinfected with hepatitis C virusinfection by hepatitis c virusinfection with HCVinfection with hepatitis Cinfection with hepatitis C virusinfusionsmAbsmodel of animalmonoclonal Absneutralizing antibodynovelpathophysiologypersistent infectionpressureresistantresponsescRNA sequencingscRNA-seqsingle cell RNA-seqsingle cell RNAseqsingle cell expression profilingsingle cell transcriptomic profilingsingle-cell RNA sequencingsocial rolesomatic hypermutationthymus derived lymphocytevaccine candidatevaccine developmentvaccine responsevaccine responsivenessvaccine-induced responseviraemiaviral infectionviral sepsisvirus infectionvirus-induced diseasevirusemia
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Full Description

Project Summary
Broadly neutralizing antibodies (bNAbs) block infection by diverse HCV strains in vitro, and infusion of bNAbs
is protective against HCV infection in animal models. In contrast to some other chronic viral infections like HIV-
1 where bNAbs do not appear to influence disease outcome, early development of high plasma bNAb titers is
associated with spontaneous clearance of primary HCV infection in humans. Although it is clear that bNAbs
can play a critical role in clearance of primary HCV infection, detailed analysis of antibody titers, epitopes
targeted, and B cell phenotypes associated with clearance of infection are still lacking. Individuals who clear
multiple reinfections may be the ideal study subjects to further define protective antibody responses. Of those
who clear their first infection, 80% clear subsequent reinfections with a rapid rise in neutralizing antibody (NAb)
titers, shorter duration of infection, and lower peak viremia, demonstrating protective adaptive immunity that
can serve as a model for a desired vaccine response. It is not known which parameters of the B cell response
are most critical for repeated clearance of infection, or what antigenic stimuli are necessary for induction of
these responses.
In Aim 1 of this proposal, we will define plasma anti-HCV antibody binding and neutralizing activity associated
with repeated clearance of reinfection. In Aim 2, we will determine the mechanistic basis for changes in
neutralizing activity by characterizing the dynamic interplay between the circulating B cell repertoire and HCV
sequence changes during reinfection. In Aim 3, we will define phenotypes of HCV-specific B cells associated
with repeated clearance of reinfection.
Because reinfections are generally cleared very efficiently, these immune responses can serve as a model for
responses that should be induced by a vaccine. By characterizing plasma antibody responses, B cell
repertoires, viral antigenic variation, and B cell phenotypes in human subjects with repeated spontaneous
clearance of infection, we will inform HCV vaccine development.

Grant Number: 5U19AI159822-05
NIH Institute/Center: NIH
Principal Investigator: Justin Bailey

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