Pretreatment of human colon epithelial cells HT29 by recombinant gamma interferon (IFN)-gamma was found to protect the cells from infection with various isolates of human immunodeficiency virus (HIV)-1 and HIV-2, as assessed by co-cultivation with human T lymphoblastoid cells and gene amplification by polymerase chain reaction technique. Additionally, IFN-gamma induced a dose-dependent inhibition of HIV-1 and HIV-2 production in chronically infected HT29 cells. In situ hybridization studies demonstrated that IFN-treated cells were still able to synthesize viral messenger ribonucleic acid. However, the expression of the p24 product of the gag gene was markedly decreased after IFN treatment as demonstrated by radio-immunoprecipitation assay. Taken together, these data suggested that the cytokine acted at the post-translational level by inhibiting the processing of structural viral proteins. It is concluded from this study that IFN-gamma has a potent anti-HIV effect on epithelial gastrointestinal cells.
Lectins with specificity for terminal mannose residues and anti-mannan antibodies neutralize HIV-1 infection in vitro. This is assumed to be caused by binding of the agents to the viral glycoproteins. In this study we show that one such agent, the Galanthus nivalis lectin (GNA), also blocks infection at the target cell level. To explore the effect of GNA on HIV infection we used the two HIV-1 isolates LAV and NDK, representing in the first case a prototype virus and in the latter case a highly cytopathic virus, which spreads preferentially via cell-to-cell contact. MT-4 cells were used as target cells and infection was determined from the occurrence of syncytia. Cell-to-cell infection was studied with CEM cells persistently infected with the two virus isolates. GNA, at concentrations in the nanogram per milliliter range, neutralized the HIV-1 isolates LAV, NDK, and MN as well as HIV-2ROD. Pretreatment of cells with the lectin, before addition of virus, or of infected cells, also blocked infection. This effect was more pronounced with HIV-1NDK than with HIV-1LAV. Mannosidase treatment of the target cells abolished the GNA effect on HIV-1NDK infection. It is concluded that GNA inhibits infection of several HIV isolates. It neutralizes infection by binding to the virion but also blocks infection at the target cell level. The latter effect may be different for different virus isolates. Mannosyl residuals at the cell surface are targets for GNA modulation of infection with the cytopathic HIV-1NDK. These do not represent essential virus receptors.
The human colon epithelial line HT29 represents a semipermisive cellular system for human immunodeficiency virus type 1 (HIV-1). It could be productively infected with HIV-1 NDK, a Zairian virus isolate highly cytopathic for CD4 positive lymphocytes, whereas infection with the prototype virus HIV-1 LAV was nonproductive. Recombinant viruses derived from HIV-1 LAV and HIV-1 NDK were used to determine the genetic control, step of virus/cell cycle, and molecular mechanism responsible for productive versus nonproductive infection of intestinal cells. Both parental viruses and all recombinants retrotranscribed their genomes with a similar kinetics and were able to complete HIV-1 DNA synthesis, HIV-1 LAV provirus present in preintegration complexes could be rescued by cocultivation with T-lymphocytes. However, it was aborted during prolonged cultivation of HT29 cells. Our results suggest that (i) gag/pol region of HIV-1 genome (fragment BssHII255-EcoRI4183) genetically controlled productive infection of intestinal cells and that (ii) the difference between productive and abortive infection occurred before synthesis of HIV-1 mRNA, at the integration level.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.