Predictive value for survival of soluble tumor necrosis factor receptors p55 and p75 during zidovudine-containing treatment in symptomatic human immunodeficiency virus type 1 infection

Soluble tumor necrosis factor alpha receptors (sTNF-Rs) in HIV-1-infected intravenous drug users: change in circulating sTNF-R type II level and survival for AIDS patients

This study in intravenous drug users (IVDUs) investigated differences in serum soluble tumor necrosis factor types I and II (sTNFR-I and II) concentrations in HIV-1-infected IVDUs and controls. This study also investigated whether changes of sTNFRs concentration affect the risk of death among patients with AIDS. A cross-sectional study of 54 subjects with AIDS, 47 HIV-seropositive IVDUs, 47 HIV-seronegative IVDUs, and 21 healthy subjects showed that sTNFRs concentration increases from healthy controls to AIDS patients through HIV-seronegative and HIV-seropositive subjects (p < 0.01). sTNFR-I concentration, however, was shown to be similar in HIV-seronegative IVDUs and healthy controls. In the longitudinal study, serum concentration of sTNFRs was determined near AIDS diagnosis in 21 IVDUs and 1 year later (start for the survival study). Cox proportional hazards regression was performed to assess the prognostic value of percent change of sTNFR level alone and in combination with T lymphocyte subsets, HIV-p24 antigenemia and opportunistic infections for death within 240 days. Uni- and multivariate Cox modelling for dichotomised variables according to its median showed an increase of sTNFR-II by at least 30% to be single significant predictor of death: crude relative risk 3.69, p = 0.03; adjusted relative risk 5.67, p = 0.02. Mean survival was 126 days in 11 patients whose sTNFR-II level increased by at least 30%, and 176 days in 10 patients with less change in sTNFR-II (p = 0.02).

CONCLUSIONS

sTNFRs concentration is higher in IVDUs than in healthy controls and is highest in AIDS patients. Survival of patients with AIDS is associated with variation in the concentration of sTNFR-II.

Tumor necrosis factor beta and soluble APO-1/Fas independently predict progression to AIDS in HIV-seropositive patients

The relationship between serum concentration of different components of the nerve growth factor/tumor necrosis factor (TNF) receptor family, including soluble APO-1/Fas (sAPO-1/Fas) and progression of HIV infection, was analyzed in a case-control study of individuals selected from a cohort of HIV-seropositive patients who were progressing or not progressing to AIDS while being treated with nucleoside analogs. HIV-seronegative healthy controls were also analyzed. The results showed that, despite close matching for immunologic (CD4 cell count, beta2-microglobulin concentration) and virologic (p24 antigen, detection of HIV syncytium-inducing phenotype, plasma HIV viremia) parameters, the baseline serum concentrations of TNF-beta and sAPO-1/Fas were statistically different between progressing and nonprogressing patients. In addition, serum concentrations of TNF-beta and sAPO-1/Fas showed the strongest independent predictive power for progression to AIDS in a multivariate conditional logistic regression model. Because TNF-beta and Fas were suggested to be mediators of antigen-induced cell death (AICD) in HIV infection and sAPO-1/Fas was hypothesized to protect lymphocyte against AICD, these data suggest an important pathogenetic role for AICD in the progression of HIV infection.

Kinetics of tumor necrosis factor alpha and soluble TNFRII in HIV-infected patients treated with a triple combination of stavudine, didanosine, and hydroxyurea

TNF-alpha is involved in the pathogenesis of HIV, and is known to enhance HIV replication in vitro. In this report the kinetics of plasma TNF-alpha and sTNFRII in patients receiving aggressive antiretroviral therapy and their relationship to HIV plasma RNA and CD4 cell counts were examined. Eleven patients participating in an open label study for assessment of safety, and of virological and immunological effects of simultaneous treatment with d4T, ddI, and HU, were evaluated. The CD4 cell count of the patients before treatment ranged from 65 to 374/mm3 and their HIV plasma RNA ranged from 1.9 x 10(4) to 3.7 x 10(5) copies/ml. The viral load in eight patients decreased significantly (mean, 1.9 log10). TNF-alpha and sTNFRII plasma levels pretreatment and at 8 weeks into therapy directly correlated with HIV plasma RNA. Pretreatment circulating TNF-alpha levels of 25-114 pg/ml (mean, 56 pg/ml) decreased by more than twofold in seven patients. The change in TNF-alpha levels inversely correlated with the change in absolute CD4 cell number. Detailed kinetics of TNF-alpha and sTNFRII measured at weeks 0, 1, 2, 4, 6, 8, and 12 paralleled those of HIV plasma RNA. A rapid decline in these soluble markers was always observed at week 1 together with the HIV plasma RNA response. Three patients maintained a high viral load as well as high TNF-alpha and sTNFRII. These data suggest that (1) combination therapy with d4T, ddI, and HU decreased viral load and circulating levels of TNF-alpha/sTNFRII; (2) an association exists between the TNF-alpha/sTNFRII and HIV viral load; and (3) TNF-alpha/sTNFRII might be a useful surrogate marker for predicting efficacy of antiretroviral therapy.