Apoptosis is a form of cell death in which the cell "participates," such that metabolic energy and often protein synthesis are required for the death to occur. Once begun, the process of apoptosis proceeds in an ordered fashion. In the earliest phase DNA fragmentation occurs, accompanied by cell shrinkage and dilation of the endoplasmic reticulum. This is followed by cell fragmentation with the formation of sealed membrane vesicles, termed apoptotic bodies. In the present study we have demonstrated that the fungal metabolite cytochalasin B inhibits cell fragmentation and the formation of apoptotic bodies, probably by its ability to interfere with actin polymerization. This effect was seen when HL-60 cells were pretreated with cytochalasin B and then exposed to one of a number of apoptosis-inducing agents, including UV irradiation, camptothecin, aphidocholin, or PMA plus ionomycin. The observed effect was not peculiar to HL-60 cells, inasmuch as it was also seen for both Molt-4 and U-937 cell lines. Cytochalasin B had no effect on DNA fragmentation occurring in the earliest stage of apoptosis, and it appeared to have no inhibitory effects on nuclear fragmentation. Staurosporin had an effect similar to that seen with cytochalasin B, probably due to its ability to inhibit protein kinase C, which is a known potentiator of microfilament assembly. These data demonstrate that microfilament assembly is necessary for the formation of apoptotic bodies in the later stages of the apoptotic process.
ABSTRACT A number of human immunodeficiency type 1 (HIV-1)-based vectors have recently been shown to transduce nondividing cells in vivo as well as in vitro. However, if these vectors are to be considered for eventual clinical use, a major consideration is to reduce the probability of unintended generation of replication-competent virus. This can be achieved by eliminating viral genetic elements involved in the generation of replication-competent virus without impairing vector production. We have designed a system to transiently produce HIV-1-based vectors by using expression plasmids encoding Gag, Pol, and Tat of HIV-1 under the control of the cytomegalovirus immediate-early promoter. Our data show that the best vector yield is achieved in the presence of the Rev/Rev-responsive element (RRE) system. However, the constitutive transport element of Mason-Pfizer monkey virus can substitute for RRE and Rev at least to some extent, whereas the posttranscriptional regulatory element of human hepatitis B virus appeared to be inefficient. In addition, we show that high-titer virus preparations can be obtained in the presence of sodium butyrate, which activates the expression of both the packaging construct and the vector genome. Finally, our results suggest that efficient infectivity of vectors defective in the accessory proteins Vif, Vpr, Vpu, and Nef depends on the nature of the target cells.
Abstract Infection of human CD4-positive T lymphocytes by human immunodeficiency virus type 1 (HIV-1) is thought to lead to death of infected cells by apoptosis, although one recent report questions this conclusion. Here we demonstrate that HIV-1-induced apoptosis of the H9 human T cell line is blocked by peptide inhibitors of IL-1 beta converting enzyme (ICE)-family proteases, but not by the antagonistic M3 anti-Fas Ab. Apoptosis occurred in all phases of the cell cycle, not selectively in G2 as a consequence of vpr-mediated cell cycle arrest. We conclude that apoptosis accounts for all cell death related to HIV-1 infection of the human CD4-positive cell line H9, requires an ICE-like protease but is not Fas mediated, and occurs in all phases of the cell cycle.
Immature T cells and some T cell hybridomas undergo apoptotic cell death when activated through the T cell receptor complex, a phenomenon that is probably related to antigen induced negative selection of developing T cells. This activation-induced apoptosis depends on active protein and RNA synthesis in the dying cells, although none of the genes required for this process have previously been identified. Antisense oligonucleotides corresponding to c- myc block the constitutive expression of c-Myc protein in T cell hybridomas and interfere with all aspects of activation-induced apoptosis without affecting lymphokine production in these cells. These data indicate that c- myc expression is a necessary component of activation-induced apoptosis.
Epstein-Barr virus (EBV) transformed human B cells proliferate indefinitely in vitro, and it has been proposed that cytokine-mediated autocrine loops contribute to the maintenance of the lymphoblastoid phenotype. We used a novel multiprobe RNase protection assay to quantify cytokine mRNA species expressed by EBV-transformed lymphoblastoid cell lines (LCL), derived either by the transformation of B cells with B95-8 or wild-type EBV or by the in vitro outgrowth of EBV-associated B cell lymphomas to identify cytokines that are commonly expressed in all LCL and thus more likely to be essential for immortalization of B cells. All 16 LCL expressed high levels of tumor necrosis factor (TNF)α, TNFβ, and transforming growth factor (TGF)β1 mRNA, while interleukin (IL)-10 transcripts were detected in most LCL but at a lower level. Expression of IL-1α, IL-1β, IL-6, IL-12p35, IL-12p40, IL-13 and IFNγ mRNA was variable among the LCL tested. Granulocyte-macrophage colony-stimulating factor (GM-CSF), IL-2, IL-4, and IL-5 mRNA were undetectable in all LCL. Furthermore, we found that IL-10, TNFα, and TNFβ mRNA were induced in EBV-negative B cell lines after infection with EBV. These data define common versus idiosyncratic patterns of cytokine expression by LCL and, in the former case, such cytokines as TNFα, TNFβ, and IL-10 emerge as strong candidates that are essential for the autocrine regulation of EBV-immortalized B cells.
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