PRO 2000 gel (0.5%) is sufficiently bioavailable and retains substantial antiviral activity after intravaginal application. This strategy provides a mechanism for testing the efficacy of a microbicide before embarking on large-scale clinical trials.
Gonorrhea often occurs as a coinfection with human immunodeficiency virus (HIV). Lipooligosaccharide (LOS) is a component of the gonococcal outer membrane that induces innate immunity through engagement of Toll-like receptor 4 (TLR4). We investigated the effects that LOS from 5 different strains of Neisseria gonorrhoeae have on HIV infection and on HIV provirus in primary human macrophages. LOS-treated human primary macrophages developed resistance to new HIV infection as well as to HIV provirus. Gonococcal LOS from the 5 strains and lipopolysaccharide (LPS) from Escherichia coli showed no significant difference in their anti-HIV activities. Suppression of HIV provirus resulted from the induction of interferon (IFN)-beta and subsequent activation of signal transducer and activator of transcription 1. Neutralization of IFN-beta , but not IFN-alpha , via antibody significantly reduced the anti-HIV activity induced by LOS and LPS. We conclude that LOS expressed by various strains of N. gonorrhoeae induce specific innate immune responses through TLR4 signaling, resulting in anti-HIV activity in human primary macrophages in vitro.
The phenotype of HIV-1 gp120 envelope derived from renal epithelium and peripheral blood mononuclear cells (PBMC) of patients with HIV-associated nephropathy was investigated in vitro. Chimeric viruses were derived from kidney or blood and used to infect primary CD4+T cells, cell lines expressing single co-receptors and a renal epithelial cell line HPT-1. HIV-1 variants derived from renal epithelium were dual tropic whereas simultaneously derived viruses from PBMC were R5-tropic. Utilization of alternative co-receptors CCR3, BONZO and BOB, also differed.
Truncation of the envelope cytoplasmic tail has enabled FIV, SIV, and some laboratory HIV-1 strains to acquire broader cellular tropism and enhanced fusogenicity. Here we have characterized a primary CD4-independent HIV-1 isolate (92UG046-T8) with a truncated cytoplasmic tail that was able to infect and induce syncytia in primary lymphocytes from human, chimpanzee, and monkey, as well as CD4-negative cell lines from human and monkey. Increased syncytia were also noticeable with 293 cells expressing the cloned envelope from the 92UG046-T8 isolate suggesting envelope-mediated cellular fusion. Except pooled serum from HIV-1-infected individuals, monoclonal anti-envelope antibodies or antibodies/antagonists against CD4, CXCR4, and CCR5 were not able to prevent infection by the 92UG046-T8 isolate. This is the first report showing a primary HIV-1 variant with truncated cytoplasmic tail which is highly fusogenic and can infect a broad range of cells from human and non-human origins. In vivo evolution of similar HIV-1 mutants may have important implications in AIDS pathogenesis.
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