This study set out to determine whether T cell dysfunction associated with HTLV-I led to increased sensitivity of infected cells to apoptosis or, owing to their potential to develop ATL, if infected cells would become resistant to this process. To test this hypothesis we utilized the monoclonal antibody anti-APO-1, which has been demonstrated to induce apoptosis in human T cells. Human T cell lines expressing HTLV-I showed reduced susceptibility to anti-APO-1-induced apoptosis despite expression of high levels of cell surface APO-1. Cell-free supernatant of the Tax-expressing cell line C8166 and heat-inactivated supernatant of the HTLV-I-producing cell line MT2 transferred increased resistance to anti-APO-1 to susceptible Jurkat T cells. Susceptible T cells transfected with an HTLV-I Tax-expressing vector or treated with soluble Tax protein became less susceptible to anti-APO-1-induced cell death. Furthermore, primary human lymphocytes treated with soluble Tax were less susceptible to apoptosis induced by anti-APO-1. The protective effect of Tax in T cell lines and primary human lymphocytes was reversed by the addition of anti-Tax antibodies. Anti-APO-1-induced apoptosis was also found to be inhibited in Jurkat cells by the induction of protein kinase C (PKC) with 12-O-tetradecanoylphorbol-13-acetate (TPA). Resistance to apoptosis conferred by HTLV-I Tax and an active PKC pathway may be factors contributing to the survival of dysregulated HTLV-I-infected T cells prone to the development of adult T cell leukemia.
HIV Pr55gag has in the absence of other viral components the capacity to self assemble in budding noninfectious virus-like particles (VLP). The immunological spectrum of the HIV-1IIIB gag-derived VLP was expanded either by stable anchoring of chimeric modified gp 120 on the surface of the VLP (type 1) or by replacing sequences of the Pr55gag precursor by the V3 loop and a linear portion of the CD4 binding domain (type 2). This noninfectious antigen delivery system was evaluated for immunogenicity and efficacy in rhesus macaques without adjuvants. Intramuscular immunization with both types of VLP induced high titers of gag-specific antibodies ranging from 1/8000 to 1/510,000 for type 1 VLP and from 1/4000 to 1/16,000 for type 2 VLP. Only animals immunized with type 1 VLP developed substantial endpoint titers of env-specific antibodies (1/2000-1/32,000) with a neutralizing capacity at serum dilutions of 1/32-1/128. Gag- and env-specific cytotoxic T lymphocyte (CTL) activity was induced by both types of VLP at similar levels. Four weeks after the last immunization animals were challenged intravenously with 20 MID50 of the cell free homologous envelope simian/HIV-1IIIB chimeric challenge stock Despite HIV-1-specific neutralizing and CTL responses, all vaccinated animals became infected.
Human Jurkat T-cell clones containing stably integrated HIV-1 LTR or HTLV-1 LTR/lacZ vectors were studied to compare the responses of integrated LTRs to T-cell activation. Responses were compared also with those obtained in parallel with Jurkat cells stably expressing lacZ under the control of the cellular enhancer element NF-AT of the IL-2 promoter. Activation induced via the cell surface TCR/CD3 complex or the CD28 receptor elicited responses from the LTR of HIV-1; however, HTLV-1 LTR-directed expression was not observed following triggering of these cell surface pathways. Mitogenic activation by elevation of intracellular calcium (Ca2+) levels along with protein kinase C (PKC) signals was required for optimal expression of the HIV-1 LTR and the NF-AT element; however, increased intracellular Ca2+ was inhibitory to PKC-mediated expression from the HTLV-1 LTR. Time course experiments revealed a sustained PKC-mediated response by the HTLV-1 LTR, which was detectable in the absence of Ca2+ as early as 6 hr following stimulation. In contrast to the HTLV-1 LTR, in time course experiments the HIV-1 LTR responded to stimulation by mitogenic activation of PKC in the absence and presence of Ca2+ and by antiCD3 with lacZ expression beginning as early as 3 hr poststimulation. These results suggest that the HTLV-1 LTR appears to be refractory to several cellular pathways which are upregulatory to the HIV-1 LTR.
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