Chimeric primate lentiviruses composed of SIV and HIV genes may allow the analysis of the role of these discrete HIV genes in viral pathogenesis in macaque monkeys. We have constructed a chimeric virus in which the env, rev, tat, and vpu genes of HIV-1 Lai replace the env, rev, and tat genes of the SIVmac239 genome. This virus, SHIVsbg, replicates efficiently in rhesus (Indian and Chinese subspecies) and cynomolgus monkeys with viral loads in PBMC and lymph nodes of up to one infected cell per 30 cells during the acute phase of the infection. Sera from all monkeys recognize specific HIV-1 glycoproteins. The onset of lymphadenopathy in all animals was concurrent with a depletion of CD4 lymphocytes in peripheral blood. The virulence of this SHIV for rhesus and cynomolgus monkeys therefore closely parallels that of HIV-1 for human in the acute phase of the infection. Changes in the env and vpu genes of a molecular clone of HIV-1 can now be analyzed after passage in nonhuman primate species as the SHIVsbg replicates efficiently. The SHIVsbg-macaque model is an important step in the development of a readily available animal model for HIV-1 vaccine studies.
The infection of macaque monkeys by attenuated simian immunodeficiency virus can vaccinate against pathogenic molecular clones and isolates of the same virus. The correlates of this potent protective immunity are not fully understood but may be the key to an effective AIDS vaccine for humans. Aiming to determine whether host immune responses to envelope glycoprotein are an essential component of the immunity to primate lentiviruses, we have tried to superinfect SIVmac-infected macaque monkeys with SHIVsbg, a chimeric primate lentivirus constructed from the SIVmac239 genome with the env, rev, tat, and vpu genes from HIV-1 Lai. After inoculation of a large dose of SHIVsbg, the chimeric virus was isolated by coculture of mononuclear blood cells from four of five SIV-infected monkeys, but three animals were protected from extracellular SHIV viremia and did not seroconvert to HIV-1 glycoproteins. In the two SIV-infected monkeys that did develop SHIV viremia, cell-associated viral load was reduced at least 100-fold. These data indicate that an antiviral response capable of effectively controlling primate lentivirus replication might not necessarily involve the envelope glycoprotein.
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