Studies of the mechanism of cytolysis by HIV-1-specific CD4+ human CTL clones induced by candidate AIDS vaccines.

Vaccine-induced, virus-specific CTLs may rapidly eliminate the host cells that first become infected after virus exposure, thereby preventing disseminated infection. Thus, there is much interest in the ability of candidate AIDS vaccines to elicit CTLs. All HIV-1 envelope (env) protein-based vaccines tested to date in seronegative humans induce CTLs from the CD4+ subset. Because the mechanism of cytolysis by CD4+ CTLs is controversial, a detailed study of the cytolytic reactions mediated by vaccine-induced, HIV-1-specific human CD4+ CTL clones was conducted. CD4+ CTL clones induced rapid destruction of Ag-pulsed target cells. Lysis was readily detectable within 15 min. Lysis was not a result of syncytium formation between CD4+ effector cells and env-expressing targets. Target cell destruction was not dependent upon de novo RNA or protein synthesis in either the effector or the target cell. Expression of perforin mRNA was detected by Northern blotting and reverse-transcriptase-PCR in CD4+ CTL clones but not in autologous B lymphoblastoid cell lines. Immunohistochemical studies demonstrated perforin protein in cytoplasmic granules in CD4+ CTL clones. Lysis by CD4+ CTLs was strictly dependent upon extracellular Ca2+ and was highly specific, with no lysis of innocent bystander cells. DNA fragmentation was detectable in target cells, but did not precede 51Cr release. Taken together, these results provide a dramatically different view of cytolysis by human CD4+ CTLs. Target cells are lysed by a rapid and efficient mechanism that involves a preformed mediator and that is functionally similar to the mechanism used by CD8+ CTLs.

Cytokines from vaccine-induced HIV-1 specific cytotoxic T lymphocytes: effects on viral replication.

Cytolytic T lymphocytes (CTLs) specific for the human immunodeficiency virus (HIV-1) envelope glycoproteins have been cloned from HIV-1-seronegative human volunteers immunized with HIV-1 gp160-based candidate vaccines. Although vaccine-induced CTLs can potentially contribute to the antiviral response by direct lysis of infected cells, these CTLs may also produce cytokines that alter HIV-1 gene expression in other infected cells present in the microenvironment where CTL-target cell interactions occur. Vaccine-induced CTL clones were therefore examined for production of cytokines that affect HIV-1 gene expression in chronically infected T lymphocytic and promonocytic cell lines. Enhancement of HIV-1 gene expression was observed with supernatants from CD4+ CTL clones and with supernatants from a subset of CD8+ CTL clones. For each clone studied, upregulation of HIV-1 gene expression in chronically infected T cell lines resulted from the antigen-specific release by CTLs of tumor necrosis factor alpha (TNF-alpha). CD4+ and CD8+ CTLs that released TNF-alpha on antigen stimulation were also shown to express a biologically active 26-kDa transmembrane form of TNF-alpha, which was sufficient to induce upregulation of HIV-1 gene expression in chronically infected T cells placed in direct contact with the CTLs. Supernatants from antigen-activated, vaccine-induced CD4+ and CD8+ CTLs also caused upregulation of HIV-1 gene expression in chronically infected promonocytic cells. A subset of CD8+ CTL clones also produced a soluble factor(s) that inhibited HIV-1 replication in acutely infected autologous CD4+ blasts. Supernatants from CD4+ CTLs had no effect on HIV-1 replication in acutely infected CD4+ blasts. These results suggest that cytokine production as well as cytolytic activity should be evaluated in the analysis of the potential antiviral effects of vaccine-induced CTLs.