Project description:Strain 68-1–derived Rhesus Cytomegalovirus (RhCMV) vectors expressing simian immunodeficiency virus (SIV) proteins (RhCMV/SIV) are able to elicit and maintain cellular immune responses that stringently control and subsequently clear a mucosal challenge with highly pathogenic SIV in 50-60% of vaccinated rhesus monkeys (RMs). Here, we utilize whole blood transcriptomic profiling to identify host responses correlated to RhCMV/SIV efficacy.
Project description:We investigated the effects of rhesus CMV (RhCMV) on composition and function of the immune system in young macaques. Within months of infection, RhCMV was associated with impressive changes in antigen presenting cells, T cells, and NK cells—and marked expansion of innate-memory CD8+ T cells. These cells express high levels of NKG2A/C and the IL-2- and IL-15-receptor beta chain, CD122. IL-15 was sufficient to drive differentiation of the cells in vitro and in vivo. Expanded NKG2A/C+CD122+CD8+ T cells in RhCMV-infected macaques, but not their NKG2-negative counterparts, were endowed with cytotoxicity against class I-deficient K562 targets and prompt IFN-ɣ production in response to stimulation with IL-12 and IL-18. Because RhCMV clone 68-1 forms the viral backbone of RhCMV-vectored SIV vaccines, we also investigated immune changes following administration of RhCMV 68-1-vectored SIV vaccines. These vaccines led to impressive expansion of NKG2A/C+CD8+ T cells with capacity to inhibit SIV replication ex vivo. Thus, CMV infection and CMV-vectored vaccination drive expansion of functional innate-like CD8 cells via host IL-15 production, suggesting that innate-memory expansion could be achieved by other vaccine platforms expressing IL-15.
Project description:Here we conducted a bulk RNA-seq analysis of whole blood samples collected from RMs administered with RhCMV vector vaccines using a prime-boost strategy. Two vaccines were used in this study, including 68-1 RhCMV/TB-6Ag (encoding 6 Mtb protein immunogens) and its attenuated variant, 68-1 RhCMV/Δpp71-TB-6Ag (a cell to cell spread-deficient vaccine vector lacking the Rh110 gene encoding the pp71 tegument protein).
Project description:Recombinant RhCMV was created to study super-infection of Rhesus macaques. These viruses (RhCMV Î178;RhCMV Î182-189;RhCMV Î178Î182-189) were co-hybridized with a wild-type BAC-derived RhCMV to a RhCMV tiling array to ensure that there were no additional mutations beyond the intended deleted regions. Comparison of wild-type BAC-derived RhCMV Î178, RhCMV Î182-189, and RhCMV Î178Î182-189
Project description:Recombinant RhCMV was created to study super-infection of Rhesus macaques. These viruses (RhCMV Δ178;RhCMV Δ182-189;RhCMV Δ178Δ182-189) were co-hybridized with a wild-type BAC-derived RhCMV to a RhCMV tiling array to ensure that there were no additional mutations beyond the intended deleted regions.
Project description:Rhesus macaques vaccinated by rhesus cytomegalovirus vectors expressing simian immunodeficiency virus proteins (RhCMV/SIV) activate gene expression signature associated with IL15. To examine the gene expression signature activated by IL15, we performed longitudinal examinations of rhesus macaques during IL15 treament.
Project description:The primary objective of this study was to evaluate response to a SIV DNA-based vaccine that was adminstered via vivo electroporation (EP) in rhesus macaques to further understand the molecular correlates of protection against SIV. In this study, rhesus macaques were immunized with a DNA vaccine including individual plasmids encoding SIV gag, env, and pol alone, or in combination with a molecular adjuvant, plasmid DNA expressing the chemokine ligand 5 (RANTES), followed by EP. At eight month post-vaccination, animals were challenged with SIV. Standard immunological assays, flow-based activation analysis without ex vivo restimulation and high-throughput gene expression analysis were performed to determine the host response to each vaccine regimen. The overall study was designed to evaluate the response to a SIV-DNA vaccination administered to animals via intramuscular electroporation. Chinese rhesus macaques were divided into three treatment groups (n=6 animals per group): Control (no vaccination), DNA vaccine alone (pCSIVgag, pCSIVpol, pCSIVenv), DNA vaccine with RANTES adjuvant (pCSIVgag, pCSIVpol, pCSIVenv, pmacRANTES). Eight months following the last vaccination, animals were infected with 25 MID of SIVmac251 and response to infection was monitored. RNA for microarray analysis was isolated from fresh PBMCs that were isolated from individual animals and treated overnight with a pool of overlapping SIV pol peptides or mock treated. Samples for microarray analysis were taken longitudinally at 8 months post-vaccination (pre-SIV challenge; biological n=5-6 per group for each treatment; technical n=2 for each sample) and at day 10 post-SIV challenge (n=5-6 per group for each treatment; technical n=2 for each sample).
Project description:The primary objective of this study was to evaluate response to a SIV DNA-based vaccine that was adminstered via vivo electroporation (EP) in rhesus macaques to further understand the molecular correlates of protection against SIV. In this study, rhesus macaques were immunized with a DNA vaccine including individual plasmids encoding SIV gag, env, and pol alone, or in combination with a molecular adjuvant, plasmid DNA expressing the chemokine ligand 5 (RANTES), followed by EP. At eight month post-vaccination, animals were challenged with SIV. Standard immunological assays, flow-based activation analysis without ex vivo restimulation and high-throughput gene expression analysis were performed to determine the host response to each vaccine regimen.
Project description:RhCMV-based TB vaccines are able to elicit and maintain immune effector responses that can control Mtb at the earliest stages of infection, and the protection afforded by this vaccine can be complete, if not sterilizing. To our knowledge, this is the first demonstration of complete prevention of TB disease in Rhesus Macaques (RM) by a long-acting vaccine after highly pathogenic (Erdman strain) Mtb challenge.
