The recent findings in the development of HIV broadly neutralizing antibodies with increased breadth and potency in immunized Llamas may provide winning anti-HIV vaccine combination strategies against virus replication and acquisition as well. These data clearly demonstrate that CAEV may provide key elements in the design of safe and efficacious HIV vaccine prototypes for the protection of human populations. The absence of vaccine-induced neutralizing antibody responses resulted in a lack of protection against virus acquisition. Antibody to the major capsid Gag and Env proteins was also repeatedly detected.4 Repeated low-dose challenge of vaccine and control animals with the heterologous highly pathogenic SIVmac251 showed efficient control of virus replication in all (6/6) vaccinated macaques. T cell responses contained effector, memory effector, and central and stem memory T cells with a high recall capacity. This novel lentivector vaccine was found to be highly immunogenic in PBL hu-SCID mice and induced potent and persistent CD4+ and CD8+ T cells in macaques immunized with a single dose (5 mg) of DNA in the absence of any boost. The naturally attenuated genome of CAEV is used as a source to isolate key sequences to generate a CAEV/HIV chimeric genome used as a lentivector. This design synergizes the advantages of both DNA and live-attenuated vaccines but lacks their associated inconvenience.ĭevelopment of a caprine arthritis encephalitis virus (CAEV)/HIV chimera as an anti-HIV vaccine for humans. This vaccine was designed to be delivered as DNA whose expression in in vivo-transfected cells produces viral proteins used either directly as antigen for immune stimulation or for assembly into released virions, and also used as another source of antigen or in mature infectious virions that infect only target cells without integration of the vaccine genome to amplify the vaccine's antigen further. We generated a simian human immunodeficiency virus (SHIV)-based replication-defective lentivector DNA vaccine whose antigen expression was driven by the 5′ CAEV LTR and found that this DNA vaccine induces potent immune responses both in mice and macaques.3 To augment the immunogenicity we engineered a novel nonintegrative one-cycle SHIV-based lentivector vaccine driven by both 5′ and 3′ LTRs of CAEV (Fig. Unlike HIV-1, we have demonstrated that the CAEV genome is driven by Tat-independent constitutive LTR promoters.1 We have shown that experimental CAEV infection of calves resulted in the total clearance of the virus following 2–4 months of productive replication.2 From these data and those from numerous experimental and natural studies of CAEV infection, we hypothesized that CAEV LTR driving constitutive expression of viral proteins might be one of the key factors of T cell-mediated virus clearance. CAEV replicates productively in macrophages but not in CD4+ T cells. In most naturally or experimentally CAEV-infected healthy goats the virus replicates only transiently in the periphery. Unlike HIV-1 in humans, the natural goat lentivirus caprine arthritis encephalitis virus (CAEV) does not cause AIDS-like disease in infected goats and some virus strains are totally nonpathogenic.
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