Triggering of apoptosis is not sufficient to induce human immunodeficiency virus gene expression.

We examined whether there is any causative link between apoptosis and HIV gene expression elicited in response to ultraviolet light (UV) and ionizing radiation (IR). We found that both UV and IR activate HIV gene expression in human T lymphoblastoid 1G5 (HIVluc) cells, but with different kinetics and magnitudes. Treatment with either type of radiation resulted in increased apoptosis, which correlated closely with HIV gene expression. The involvement of caspases in the IR response was demonstrated by using zVAD-FMK and zDEVD-FMK caspase inhibitors; both apoptosis and HIV gene expression were inhibited to similar extent. Surprisingly, treatment of 1G5 cells with FAS antibody triggered apoptosis but did not increase HIV gene expression. A correlation between increased apoptosis and gene expression was also demonstrated in human carcinoma HIVcat/A549 cells with UV whereas IR triggered apoptosis but did not activate HIV gene expression. Most significantly, UV activation of HIV gene expression, and NF-kappa-B and p38 MAP kinase, both important for efficient HIV gene expression, were not affected by treatment with the zVAD-FMK and zDEVD-FMK inhibitors. Treatment of HIVcat/A549 cells with staurosporine or scrape-loading of cells with cytochrome c resulted in apoptosis but no increase in HIV gene expression. Altogether, a direct correlation exists between apoptosis and HIV gene expression in T-cells in response to both UV and IR but this is not the case in carcinoma cells. Triggering of apoptosis per se in either cell type does not necessarily result in increased HIV gene expression. Most importantly, the apoptotic and HIV gene expression responses elicited by UV are different to some extent and can be separated.

Mood-enhancing antidepressant St. John's wort inhibits the activation of human immunodeficiency virus gene expression by ultraviolet light.

Ultraviolet (UV) radiation is a potent activator of the human immunodeficiency virus (HIV) gene expression in a HeLa cell clone with stably integrated copies of the HIVcat reporter construct. Recently, we have shown that activation of p38 MAP kinase and NF-kappaB is necessary but not sufficient for triggering efficient HIV gene expression in response to UV. Here we demonstrate that St. John's wort is a potent inhibitor of the UV-induced activation of HIV gene expression in HeLa cells. Stably transfected HIVcat/HeLa cells were preincubated with different amounts (25-100 microl) of St. John's wort or gingko biloba extracts for 30 min, then irradiated with UV (30 J/m2). In contrast to ginkgo biloba, St. John's wort inhibited the UV-induced HIV gene expression in a dose-dependent manner. Furthermore, preincubation with St. John's wort (10, 20, and 30 microl) for 30 min before UV (30 J/m2) irradiation, PMA- and UV-induced NF-kappaB activation was completely blocked, whereas ginkgo biloba did not affect the PMA- and UV-induced NF-kappaB activation in HeLa cells. UV activation of p38 MAP kinase was not inhibited by St. John's wort or by ginkgo biloba. However, we found that p38 MAP kinase and JNK1 and -2 were activated by St. John's wort, but p44/42 MAP kinase was not activated by St. John's wort in HeLa cells. Hypericin an active ingredient in St. John's wort also inhibited the UV activation of HIV gene expression in HeLa cells. These results firmly confirm that St. John's wort is a potent inhibitor of the UV-induced activation of HIV gene expression in HeLa cells.