The Mycobacterium tuberculosis-specific CD4 T cell immune repertoire in rhesus macaques overlaps with human responses (MPF2P.752)

Abstract

Abstract Animal models to study the process of TB pathogenesis and vaccine development are of importance. NHP models, especially Rhesus macaques, are attractive because of available resources to evaluate their immunogenetic backgrounds and the aerosol model closely mimics the human infection route. In this study, we characterized the MHC immunogenetic background of a cohort of animals that have been vaccinated and/or infected with Mtb, defining 54 new immunodominant CD4 T cell epitopes using IFNγ ELISPOTs with antigens utilized in human clinical trials. Antigens which are immunodominant in humans are also immunodominant in rhesus macaques, including Rv3875 (ESAT-6) and Rv3874 (CFP10). Interestingly, the shared responses were not due to common ancestry or inbreeding upon identifying MHC alleles. Instead, the results indicate promiscuous binding, which is the first account of this phenomenon in the rhesus macaque TB model of infection. These results suggest that while the CD4 response of NHPs to TB is broad and heterogeneous, epitope sets can be defined to broadly follow and characterize these responses in genetically heterogeneous NHP animal cohorts. To our knowledge, this is the first comprehensive epitope identification effort for non-human primates. We reveal a profound repertoire overlap between epitopes recognized in NHPs and in humans. These findings have important implications for the evaluation of new vaccines and diagnostics in the setting of non-human primate model of TB.