Glucose oxidase and peroxidase (lactoperoxidase or myeloperoxidase) are virucidal to human immunodeficiency virus type 1 (HIV-1) in the presence of sodium iodide, as assessed by the loss of viral replication in a syncytium-forming assay or by the inhibition of cytopathic effects on infected cells. In the presence of low concentrations of sodium iodide, five HlV-1 isolates were equally susceptible to this virucidal system at enzyme concentrations of a few milliunits. The loss ofviral replication was linearly related to the time of incubation in the enzyme solutions, with an inactivation rate of 1 log unit every 30 min. These enzymes and this halide were also cytotoxic to chronically infected, but not to uninfected, cultured CEM cells. Protein conijugates were prepared by using the enzymes and murine antibody 105.34, which recognized the V3 loop of H1V-i LAT isolate surface glycoprotein, or recombinant human CD4. The protein conjugates inactivated free virus at rates similar to those of the free enzymes and were more effective than antibody or recombinant CD4 alone. These in vitro findings demonstrate that the peroxidase-H202-halide system provides potent virucidal activity against HIV-1.
Phosphate metabolism in Friend erythroleukemia cells undergoing DMSO-induced differentiation was studied. Thirty minutes after the cells were exposed to DMSO in medium a t pH 7, an inhibition of 39% in the incorporation of phosphate into phospholipids was observed. This decrease was not due to a change in the precursor pools since phosphate uptake and the phosphorylation of the organic soluble compounds were only inhibited 13%.Inhibition of phospholipid synthesis preceded inhibition of RNA and protein synthesis and reached a maximum after 24 hours of DMSO treatment. At this time, the phospholipid content of the cells was also decreased as compared to that of the control untreated cells. Phospholipid synthesis remained at a level significantly lower than in the controls over the 4-day ohservation period, at which time 85% of the treated cells were benzidine positive.Separation of the different phospholipids by chromatography on thin layer silicate gel plates showed that, after one hour of DMSO treatment, more than 80% of the radioactivity was in phosphatidylcholine, phosphatidylserine and phosphatidylethanolamine. Phosphatidylethanolamine was the most inhibited. Incorporation of inositol into phospholipid was also significantly decreased. However, there was little variation in the phospholipid composition of the treated and non-treated cells other than a decrease in the percent of sphingomyelin after 48 hours of DMSO treatment.These changes in phospholipid metabolism may initiate the first step in the complex differentiation process. The phospholipids are important components of membranes and the inducers are known to influence their fluidity.
SUMMARYIn vivo preinfection of chicks with rabies virus (RV) or vesicular stomatitis virus (VSV) ts 1026 inhibits tumour formation after superinfection with Rous sarcoma virus (RSV). The degree of inhibition depends on the titre of the infecting viruses and the interval between rhabdovirus and RSV infection. In vitro, cells preinfected with VSV ts 1026 under non-permissive conditions and superinfected with RSV, are not transformed as judged by cell morphology, serum requirement for growth or the capacity to form colonies in soft agar, all these being the same as in uninfected cells. Doubly infected cells take up less deoxyglucose than cells infected with RSV only and more than cells infected with VSV only. RSV multiplication is inhibited in doubly infected cells: the supernatant fluid of these cells contains fewer focus-forming units and less reverse transcriptase activity than that of cells infected with RSV only. Doubly infected cells contain both VSV and RSV internal antigens 15 days after infection. The supernatant fluid of cells infected with VSV and maintained under non-permissive conditions inhibits transformation by RSV and multiplication of RSV, but not of VSV. Under non-permissive conditions, the rhabdoviruses undergo at least part of the infectious cycle, but no infectious virus is produced. RV antigen can be detected in the brain of parenterally infected chicks and VSV antigen in cells infected 15 days previously. We conclude that the inhibition of RSV multiplication and expression is probably due to one or more processes linked to the persistence of rhabdovirus components and that it cannot be attributed exclusively to interferon.
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