Abstract
Oxidative stress has been suggested to be an important factor in the immunopathogenesis of human immunodeficiency virus (HIV) infection. Reduced plasma thiols may lead to production of reactive oxygen species, thus contributing to the oxidative stress. We quantified the total, reduced, and protein-bound forms of the thiols homocysteine, cysteine, cysteinylglycine, and methionine in plasma from 21 HIV-infected patients and 15 healthy control subjects and compared the results with clinical and immunologic indexes. The HIV-infected patients had significantly higher concentrations of reduced homocysteine in plasma compared with control subjects. No significant differences in reduced homocysteine concentrations were noted when asymptomatic and symptomatic HIV-infected patients were compared, and we did not find any relation between reduced homocysteine concentrations and other markers of immunodeficiency. The HIV-infected patients had normal total homocysteine concentrations. The reduced cysteinylglycine concentration tended to be elevated in the patient group. No differences between HIV-infected patients and control subjects were found for reduced or total cysteine. Compared with control subjects, the HIV-infected patients had lower concentrations of methionine in plasma, and a significant correlation was found between low concentrations of methionine and low CD4+ lymphocyte counts in blood. Elevated concentrations of reduced homocysteine could possibly contribute to formation of reactive oxygen species, leading to accelerated immunologic deterioration and increased HIV replication.
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