Temporal gene regulation during HIV-1 infection of human CD4+ T cells.

CD4(+) T-cell depletion is a characteristic of human immunodeficiency virus type 1 (HIV-1) infection. In this study, modulation of mRNA expression of 6800 genes was monitored simultaneously at eight time points in a CD4(+) T-cell line (CEM-GFP) during HIV infection. The responses to infection included: (1) >30% decrease at 72 h after infection in overall host-cell production of monitored mRNA synthesis, with the replacement of host-cell mRNA by viral mRNA, (2) suppression of the expression of selected mitochondrial and DNA repair gene transcripts, (3) increased expression of the proapoptotic gene and its gene p53-induced product Bax, and (4) activation of caspases 2, 3, and 9. The intense HIV-1 transcription resulted in the repression of much cellular RNA expression and was associated with the induction of apoptosis of infected cells but not bystander cells. This choreographed host gene response indicated that the subversion of the cell transcriptional machinery for the purpose of HIV-1 replication is akin to genotoxic stress and represents a major factor leading to HIV-induced apoptosis.

HIV induces lymphocyte apoptosis by a p53-initiated, mitochondrial-mediated mechanism.

HIV-1 induces apoptosis and leads to CD4+ T-lymphocyte depletion in humans. It is still unclear whether HIV-1 kills infected cells directly or indirectly. To elucidate the mechanisms of HIV-1-induced apoptosis, we infected human CD4+ T cells with HIV-1. Enzymatic analysis with fluorometric substrates showed that caspase 2, 3, and 9 were activated in CD4+ T cells with peak levels 48 h after infection. Immunoblotting analysis confirmed the cleavage of pro-caspase 3 and 9, and of specific caspase substrates. Release of cytochrome c and apoptosis-inducing factor (AIF) from mitochondria was observed in HIV-infected cells. The cytochrome c and AIF release preceded the reduction of the mitochondrial transmembrane potential and nuclear chromatin condensation. H IV infection led to phosphorylation of p53 at the Ser15 residue, detectable as early as 24 h after infection. The p53 phosphorylation was followed by increased mRNA and protein expression of p21, Bax, HDM2, and p53. Up-regulation of surface FasL expression, accompanied by a down-regulation of Fas-associated proteins (FADD, DAXX, and RIP), was observed 72 h after infection. Our results suggest that HIV activates the p53 pathway, leading to cytochrome c and AIF release with ensuing caspase activation.

Modulation of CPP32 activity and induction of apoptosis in Human CEM X 174 lymphocytes by heptachlor, a chlorinated hydrocarbon insecticide.

Heptachlor is an organochlorine insecticide used worldwide for the control of pests both agriculturally and domestically. Its lipophilic structure allows it to bioaccumulate and pass through the food chain, exposing those who come in contact with it to its tumor promoting and possible carcinogenic effects. As a mechanism of tumor promotion, we explored the possibility of heptachlor suppressing the apoptotic process in human CEM x 174 lymphocytes. In this article, we describe the effect of heptachlor on the activity of the apoptosis protease CPP32. We show that heptachlor by itself was able to stimulate CPP32 activity at relatively high concentrations. When combined with the chemotherapeutic agent doxorubicin, a known CPP32 activator, a dual effect was observed. Low concentrations of heptachlor (5 microM-10 microM) suppressed doxorubicin-induced CPP32 activity, and high concentrations of heptachlor (80 microM-120 microM) augmented it. We also showed that heptachlor alone at relatively high concentrations induced apoptosis-associated changes in CEM x 174 cells including high molecular weight (HMW) DNA cleavage and chromatin condensation. From these results, it appears that heptachlor has tumor promoting-like effects at lower concentrations, and at higher concentrations induces apoptosis as a mechanism of cytotoxicity.

Detection of SIV DNA in rhesus macaque polymorphonuclear neutrophils.

The extent of infection of monkey polymorphonuclear neutrophils (PMN) by simian immunodeficiency virus (SIV) has not yet been determined. Using the polymerase chain reaction (PCR) technique, we detected the presence of SIVmac239 DNA in rhesus macaque-derived PMN after 24 hrs of in vitro incubation of the cells with SIVmac239. Infection by SIVmac239 also down-regulated the expression of the bcl-2 apoptosis-blocking gene in the infected PMN. These SIVmac239-induced PMN intracellular alterations were correlated with an accelerated decrease in PMN viability over a period of 120 hrs compared to non-infected PMN. Evidence of chromatin condensation characteristic of programmed cell death (apoptosis) was also observed in SIVmac239-infected PMN. The results of this study provide a mechanism for the reduced chemotaxis/phagocytosis activities of PMN of SIVmac239-infected macaques and suggest that PMN is one of the target cells for SIVmac239 infection.

Effect of the chlorinated hydrocarbons heptachlor, chlordane, and toxaphene on retinoblastoma tumor suppressor in human lymphocytes.

Organochlorine use over the past 50 years has resulted in the contamination of soil, water, plant and animal species. This contamination has created a long-lasting environmental problem, as the members of the organochlorine class of pesticides are resistant to degradation and have been labeled as persistent bioaccumulators. Studies have shown certain organochlorines to be tumor promoters, liver toxicants and to induce immune cell dysfunction in rats and mice. Our laboratory has shown that the organochlorines heptachlor and chlordane affect leukocytic gene expression and differentiation. In this study, experiments with CEM x 174 cells, a hybrid of human T and B cells, were performed to investigate the effects of the tumor promoter heptachlor and its congeners chlordane and toxaphene on retinoblastoma (Rb) gene expression. The results indicated that heptachlor, chlordane or toxaphene, in the range of 10-50 microM, were able to reduce Rb protein levels in a concentration-dependent manner. In the case of heptachlor, the reduction could be seen as early as 12 h and was time-dependent. Analysis of Rb mRNA levels revealed no detectable difference over the same concentration range. These results suggest that members of the organochlorine class are able to downregulate Rb expression at the post-transcriptional level, an effect similar to that on p53 tumor suppressor previously reported by our laboratory.

Differential regulation of the major cyclin-dependent kinases, cdk2 and cdc2, during cell cycle progression in human lymphocytes exposed to heptachlor.

Heptachlor, a chlorinated hydrocarbon insecticide, has been considered an environmental contaminant with potential adverse health effects. Exposure to heptachlor may impair immune functions including the inhibition of leukocyte chemotaxis, which causes defects in host defense mechanisms. This study addresses the effects of heptachlor on the cell cycle progression of human lymphocytes. It has been found that addition of heptachlor to cultured lymphocytic cells prevents the cells from progression into the S phase of the cell cycle, with a concomitant accumulation of cells in G1 phase. An accompanying decrease (deactivation) in cyclin-dependent kinase cdk2 and dephosphorylation (activation) of cdc2 was observed. The altered cell cycle progression may trigger the cell's apoptotic potential, as indicated by the reduced amount of Bcl-2 synthesized inside heptachlor-treated cells. The interference of cell cycle progression by heptachlor was also seen with chlordane and toxaphene, two other chlorinated hydrocarbon insecticides.

The effect of heptachlor, a chlorinated hydrocarbon insecticide, on p53 tumor suppressor in human lymphocytes.

Previous studies have shown that heptachlor, a chlorinated hydrocarbon insecticide, is a liver tumor promoter in rats and mice and induces tumor promoting-like alterations in human myeloblastic leukemia cells. The nature of tumor promotion is multifaceted and has recently been shown to include suppression of programmed cell death (apoptosis) as a mechanism by which a tumor promoter can prolong cell viability. The ability of tumor promoters to suppress apoptosis prompted us to address the question of whether heptachlor is capable of effecting the expression of genes involved in lymphocyte apoptosis, in particular, the p53 tumor suppressor gene. Experiments with a CEM x 174 cell line, a hybrid of human T and B cells, revealed that heptachlor downregulated p53 gene expression at the post-transcriptional level without changing levels of mRNA in the cells. The heptachlor-induced reduction in the basal levels of expression of this gene was both in a concentration and time-dependent manner.