Glutathione depletion by inhibition of its synthesis with buthionine sulfoximine (BSO) is a focus of the current research in antitumor therapy, BSO being used as chemosensitizer. We had previously shown that two human tumor cell lines (U937 and HepG2) survive to treatment with BSO: BSO can elicit an apoptotic response, but the apoptotic process is aborted after cytochrome c release and before caspase activation, suggesting the development of an adaptive response (FASEB J., 1999, 13, 2031-2036). Here, we investigate the mechanisms of such an adaptation. We found that following BSO, U937 up-regulate Bcl-2 mRNA and protein levels, by a mechanism possibly involving NF-kappaB transcription factor; the increase in protein level is limited by a rapid decay of Bcl-2 in BSO-treated cells, suggesting that redox imbalance speeds up Bcl-2 turnover. BSO-dependent Bcl-2 up-regulation is associated with the ability to survive to BSO. Indeed, 1) its abrogation by CAPE or protein synthesis inhibition sensitizes U937 to BSO; 2) in a panel of four tumor lines, BSO-resistant (U937, HepG2, and HGB1) but not BSO-sensitive (BL41) cells can up-regulate Bcl-2 following GSH depletion; remarkably, only the latter are chemosensitized by BSO.
We have investigated the effects of cystamine on the replication of human immunodeficiency virus (HIV) in human lymphocytes and macrophages, the natural targets of HIV in vivo. Treatment of chronically infected macrophages with cystamine, at a concentration (500 MM) that did not show any cytotoxic or cytostatic effects, strongly decreased (> 80%) HIVp24 antigen production and completely abolished the production of infectious viral particles. Cystamine does not affect viral transcription, translation or protein processing; indeed, all HIV proteins are present in a pattern similar to that of nontreated cells. Instead, cystamine interferes with the orderly assembly of HIV virions, as shown by electron microscopy analysis, that reveals only defective viral particles in treated cells. Moreover, suppression of HIV replication, due to the inhibition of proviral DNA formation was observed in acutely infected lymphocytes and macrophages pretreated with cystamine. These results show that cystamine potently suppresses HIV replication in human cells by contemporaneously blocking at least two independent steps of the viral life cycle, without affecting cell viability, suggesting that this compound may represent a new possibility towards the treatment of HIV-1 infection. (J. Clin. Invest. 1994Invest. . 93:2251Invest. -2257
Because of the importance of monocytes/macrophages (M/M) as an in vivo reservoir of human immunodeficiency virus (HIV), a study was done to investigate whether viral replication in chronically infected macrophages (HIV M/M) could be inhibited by various drugs, including U-75875, an inhibitor of HIV protease. HIV replication in M/M and in chronically infected T cells was dramatically decreased by U-75875, while other drugs, including zidovudine, interferon-alpha, and an antisense oligodeoxynucleotide against the rev gene, were effective antiviral agents only in de novo-infected cells. Virus titer in HIV M/M was reduced approximately 10(5)-fold by nontoxic concentrations of U-75875, while no effect on HIV DNA or virus antigen expression on cell membrane was achieved in M/M infected either chronically or de novo. Thus, U-75875 essentially worked against late stages of viral replication. These data support the use of protease inhibitors, alone or in combination, in the therapy of HIV-infected patients.
The effects of a soluble trimeric CD40 ligand (CD40L) agonist on the expression of CD4 and CCR5 and on human immunodeficiency virus (HIV) type 1 entry into and replication in human macrophages were investigated. CD40L increased the number of CD4 and CCR5 antibody-binding sites and the percentage of CD4- and CCR5-expressing cells. Infection of CD40L-stimulated macrophages with HIV-1 resulted in a marked increase of viral DNA with respect to controls, as demonstrated by polymerase chain reaction assay. HIV-1 p24 antigen analysis showed that peak viral production did not differ between CD40L-stimulated macrophages and controls. However, because of a prolonged life span, overall viral output was increased in CD40L-stimulated cultures. In addition, CD40L down-regulated the antiviral efficacy of compounds that inhibit HIV-1 reverse transcriptase. In conclusion, CD40L stimulation of macrophages can contribute to plasma virus load and favor the establishment of a pool of latently infected macrophages that can be reactivated to release virus.
Adriamycin (ADR) is an anticancer drug commonly used in the treatment of HIV-related cancers. Due to its effect on DNA metabolism, ADR might be able to modulate HIV replication in monocyte-macrophages (M/M), resting cells potentially less sensitive to the toxic effect of this drug. Thus, we assessed the efficacy of ADR against HIV replication in both lymphocytes and M/M. We further investigated the mechanism(s) of action of ADR and its potential synergistic activity with zidovudine (AZT) or alpha-interferon (IFN alpha). ADR consistently inhibited viral replication in M/M: 50% viral inhibition was obtained with 0.005 micrograms/ml ADR, while greater 90% viral inhibition was obtained with 0.05 micrograms/ml ADR. No cell toxicity was seen in M/M at concentrations up to 0.5 micrograms/ml. No anti-HIV activity was shown by ADR in lymphocytes at concentrations up to 0.05 micrograms/ml, that is also the toxic dose 50% (TCID50 for these cells). ADR neither inactivates HIV virions nor affects HIV binding with CD4 receptors. No inhibition of HIV reverse transcriptase by ADR was found at concentrations at least 2,000-fold greater than the 50% HIV inhibitory concentration in M/M. Molecular analysis by polymerase chain reaction (PCR) suggests that ADR substantially affects virus DNA production at concentrations that inhibit viral replication. Finally, late stages of HIV replication were not affected by ADR. At least additive effects of the association ADR + AZT and ADR + IFN alpha were obtained against de novo HIV infection of M/M.(ABSTRACT TRUNCATED AT 250 WORDS)
Introduction. The receptor activator of nuclear factor-kB (RANK), ligand (RANK-L) and osteoprotegerin (OPG) are implicated in the pathogenesis of acute Charcot neuroarthropathy (CN).Materials and Methods. This study aimed to investigate the expression of RANK-L and OPG in peripheral blood mononuclear cells (PBMC) from patients with acute CN.Results. We found that the expression of RANK-L was lower in patients with acute CN as compared with diabetic control subjects and healthy control participants; whereas OPG expression was not detected in patients and in both control groups. RANK-L expression at the onset of disease was inversely correlated with the index of polyunsaturation (PUI), a bone marrow MRS-derived measurable index that allows evaluation of disease activity in acute CN, and recovery time. Finally, the expression of RANK-L increased at the time of healing compared with the values found during the acute phase.Conclusions. In conclusion, our preliminary data provide a first step in applying analysis of RANK-L expression in peripheral blood cells to the diagnosis of acute CN. Based on our data we also suggest that analysis of RANK-L expression could be a complementary tool that can be employed to obtain quantitative parameters that may help clinicians to monitor disease activity in patients with acute CN.
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