细胞培养中的程序性细胞死亡

许多在商业上广泛应用的细胞株,包括杂交瘤和骨髓瘤细胞,在细胞培养中都会发生程序性死亡,这使培养效率降低。本文简要介绍程序性细胞死亡的特征、与这一过程有关的基因、细胞培养中如何抑制程序性死亡以及常用的检测方法。     

巨噬细胞凋亡及其调控

巨噬细胞通过介导和调控自身及其他细胞凋亡而实现其免疫调节和效应细胞功能.引起巨噬细胞凋亡的原因有生物、化学、病理、自身等因素.不仅巨噬细胞自身凋亡和凋亡调控有其特点,更为有趣的是,巨噬细胞可根据需要：介导或抑制自身凋亡;介导或抑制其他细胞凋亡;抑制自身凋亡,介导其他细胞凋亡.这可能是巨噬细胞在免疫调节,特别是肿瘤免疫中发挥重要作用的基础.     

Glycochenodeoxycholic acid (GCDC) induced hepatocyte apoptosis is associated with early modulation of intracellular PKC activity

The effect of GCDC-induced apoptosis on PKC activity and PKC's role in GCDC-induced hepatocyte apoptosis is unclear. The specific aims of this study were to determine if GCDC-induced apoptosis changed intracellular PKC activity and if modulation of PKC activity affected GCDC-induced hepatocyte apoptosis.Apoptosis was induced in isolated hepatocytes using GCDC. PKC activity was measured and specific PKC and calpain inhibitors were used to study the effects of PKC and calpain modulation on GCDC-induced apoptosis.After 4 h exposure, 50 M GCDC induced apoptosis in 42% of hepatocytes. Intracellular PKC activity decreased to 44% of controls 2 h after exposure of hepatocytes to GCDC (p < 0.001). Pre-incubation of hepatocytes with the calpain protease inhibitor restored PKC activity in GCDC exposed hepatocytes to 91± 5% of control cells. Pre-incubation of hepatocytes with a calpain inhibitor decreased GCDC-induced apoptosis as did pre-incubation with the PKC activating phorbol ester, PMA. The combination of calpain inhibition and PMA further reduced GCDC-induced apoptosis but caused low level hepatic apoptosis. Inhibition of PKC with chelerythrine also substantially reduced GCDC-induced hepatocyte apoptosis.GCDC-induced apoptosis is associated with decreases in total cellular PKC activity, which appear to be dependent on intracellular calpain-like protease activity. The combination of protease inhibition and phorbol ester pretreatment preserved total cellular PKC activity and decreased GCDC-induced apoptosis but induced low level apoptosis in the absence of GCDC exposure. PKC inhibition also decreased GCDC-induced hepatocyte apoptosis highlighting the complex interactions of PKC and proteases during GCDC-induced apoptosis.     

Phenoptosis in yeasts

The current view on phenoptosis and apoptosis as genetic programs aimed at eliminating potentially dangerous organisms and cells, respectively, is given. Special emphasis is placed on apoptosis (phenoptosis) in yeasts: intracellular defects and a plethora of external stimuli inducing apoptosis in yeasts; distinctive morphological and biochemical hallmarks accompanying apoptosis in yeasts; pro- and antiapoptotic factors involved in yeast apoptosis signaling; consecutive stages of apoptosis from external stimulus to the cell death; a prominent role of mitochondria and other organelles in yeast apoptosis; possible pathways for release of apoptotic factors from the intermembrane mitochondrial space into the cytosol are described. Using some concrete examples, the obvious physiological importance and expediency of altruistic death of yeast cells is shown. Poorly known aspects of yeast apoptosis and prospects for yeast apoptosis study are defined.     

雷帕霉素对二种鳞翅目昆虫细胞自噬和凋亡的影响

以2种鳞翅目昆虫细胞为材料,采用雷帕霉素进行处理,初步研究自噬作用与昆虫细胞凋亡的关系。结果表明:雷帕霉素能够提高家蚕细胞系BMN-e细胞的自噬水平,并能诱导BMN-e细胞发生凋亡;自噬抑制剂3-甲基腺嘌呤能抑制雷帕霉素诱导的BMN-e细胞凋亡。相反,雷帕霉素虽能诱导斜纹夜蛾细胞系SL-HP细胞的自噬水平提高,但不能诱导斜纹夜蛾Spodoptera litura(Fabricius)细胞发生凋亡;雷帕霉素的预处理能抑制放线菌素D诱导的斜纹夜蛾细胞系SL-HP细胞发生凋亡;自噬抑制剂3-甲基腺嘌呤对放线菌素D诱导的细胞凋亡没有影响。因此家蚕Bombyx mori细胞自噬水平的提高与细胞凋亡具有正相关性,而斜纹夜蛾细胞自噬水平的提高与细胞凋亡不相关,相反还对细胞凋亡的诱导具有一定的抑制作用。     

Apoptosis and anticancer drug resistance.

Anticancer agents induce cancer cell death through apoptosis or necrosis. As anticancer agents at low and high concentrations cause apoptosis and necrosis, respectively, cancer cells may be merely injured by an anticancer agent in apoptosis, and cell death may result from an activation of the internal constituents to induce apoptosis. Therefore, an alternation of apoptotic pathway must change the efficacy of anticancer agents. As an escape of cancer cells from apoptosis seems to be closely associated with the development of anticancer resistance, this report focuses on mechanisms of apoptosis and its association with anticancer resistance. A Bax induces apoptosis mitochondria-dependently, whereas Fas can induce apoptosis mitochondria-independently. An interaction of Bax and Bcl-2 is very important to decide cell life or death, and Bcl-2 phosphorylation may control this interaction: Paclitaxel treatment induced Bcl-2 phosphorylation and typical apoptosis, whereas hyperthermia induced not Bcl-2 phosphorylation but nuclear translocation and failed to induce apoptosis. Moreover, Fas was localized in the cytoplasm of exponentially growing cells and on the cell membrane of confluent cells. We would like to emphasize that it is very important to check the localization of constituents of apoptosis in order to evaluate the susceptibility of cancer cells to apoptosis.     

TNF-related apoptosis-inducing ligand-induced apoptosis of melanoma is associated with changes in mitochondrial membrane potential and perinuclear clustering of mitochondria

Past studies have shown that TNF-related apoptosis-inducing ligand (TRAIL) induced apoptosis in a high proportion of cultured melanoma by caspase-dependent mechanisms. In the present studies we have examined whether TRAIL-induced apoptosis of melanoma was mediated by direct activation of effector caspases or whether apoptosis was dependent on changes in mitochondrial membrane potential (MMP) and mitochondrial-dependent pathways of apoptosis. Changes in MMP were measured by fluorescent emission from rhodamine 123 in mitochondria. TRAIL, but not TNF-alpha or Fas ligand, was shown to induce marked changes in MMP in melanoma, which showed a high correlation with TRAIL-induced apoptosis. This was associated with activation of proapoptotic protein Bid and release of cytochrome c into the cytosol. Overexpression of B cell lymphoma gene 2 (Bcl-2) inhibited TRAIL-induced release of cytochrome c, changes in MMP, and apoptosis. The pan caspase inhibitor z-Val-Ala-Asp-fluoromethylketone (zVAD-fmk) and the inhibitor of caspase-8 (z-Ile-Glu-Thr-Asp-fluoromethylketone; zIETD-fmk) blocked changes in MMP and apoptosis, suggesting that the changes in MMP were dependent on activation of caspase-8. Activation of caspase-9 also appeared necessary for TRAIL-induced apoptosis of melanoma. In addition, TRAIL, but not TNF-alpha or Fas ligand, was shown to induce clustering of mitochondria around the nucleus. This process was not essential for apoptosis but appeared to increase the rate of apoptosis. Taken together, these results suggest that TRAIL induces apoptosis of melanoma cells by recruitment of mitochondrial pathways to apoptosis that are dependent on activation of caspase-8. Therefore, factors that regulate the mitochondrial pathway may be important determinants of TRAIL-induced apoptosis of melanoma.     

Balance between autocrine interleukin-1beta and caspases defines life versus death of polymorphonuclear cells

The role of endogenous IL-1beta in regulating spontaneous and Fas-triggered apoptosis of human PMN has been studied in relation to the activity of the IL-1beta-generating enzyme ICE (caspase-1), an enzyme also involved in the mechanism of cell death. Upon in vitro culture, PMN undergo spontaneous apoptosis and express increasing levels of IL-1beta, caspase-1- and caspase-3-like enzymes. Endogenous IL-1beta protects PMN from apoptosis, since inhibition of either IL-1beta or caspase-1 activity can accelerate PMN apoptotic death. Thus, in spontaneous PMN apoptosis caspase-1 essentially plays an anti-apoptotic role by inducing maturation of protective IL-1beta, whereas other molecules are responsible of driving apoptosis. Upon Fas triggering, PMN apoptosis is greatly accelerated, in correlation with increased caspase activity, whereas IL-1beta production is not augmented. Inhibition of IL-1beta activity can increase Fas-induced apoptosis, whereas caspase-1 inhibitors are without significant effect. It is hypothesized that in Fas-induced PMN apoptosis caspase-1 has a double role: it can protect from apoptosis through generation of protective IL-1beta, as in spontaneous apoptosis, and it can also exert pro-apoptotic activity which counterbalances the protective effect and allows accelerated apoptosis.     

Enhanced apoptosis of peripheral CD5-negative B lymphocytes from chronically hepatitis C virus-infected patients: reversal after antiviral treatment

Whereas enhanced peripheral T-cell apoptosis and its association with autoimmunity have recently been reported, the apoptotic status of peripheral B cells in chronic hepatitis C virus (HCV) infection remains ambiguous. We therefore sought to investigate the sensitivity of peripheral B cells to apoptosis and to assess the possible benefits of antiviral treatment in mitigating these effects. Spontaneous apoptosis, the extent of apoptosis rescue, and NF-kappaB expression in peripheral B cells were studied in patients with chronic HCV infections (group 1), in sustained responders after antiviral treatment (group 2), and in healthy controls (group 3). For group 1, spontaneous B-cell apoptosis was increased (26% +/- 4.6%) and apoptosis rescue was altered (39%) compared to group 3 (18% +/- 5% and 50%, respectively; P = 0.001). In contrast, apoptosis and apoptosis rescue were similar for groups 2 and 3. Enhanced B-cell apoptosis was associated with decreased NF-kappaB expression and was found only in CD5-negative (CD5(neg)) B cells, whereas CD5(pos) cells were apoptosis resistant. Chronic HCV infection is associated with enhanced peripheral B-cell apoptosis and decreased apoptosis rescue. Successful antiviral treatment reverses these abnormalities to the levels seen in healthy individuals. The relative resistance of the CD5(pos) B-cell subpopulation to apoptosis may play a role in HCV-related autoimmunity and lymphoproliferation.     

Stochastic modeling of apoptosis tolerance distributions measured by multivariate flow analysis of human leukemia cells

BACKGROUND: Cytofluorometric analysis allows single-cell resolution of all-or-none programmed cell death (apoptosis) responses and permits direct measurement of cumulative frequency distributions (CFDs) of apoptosis sensitivity from which the median apoptosis tolerance can be estimated. Robust estimation of susceptibility to apoptosis within neoplastic cell populations provides a means of either accurately determining pharmacologically induced changes in apoptosis sensitivity or comparing cell population responses to different apoptosis inducers. METHODS: Experimentally determined CFDs for VP-16 (etoposide)-induced apoptosis were measured by phosphotidylserine surface expression and mitochondrial membrane potential dissipation (DeltaPsi(m)) in BV173 leukemia cells. CFDs were modelled by a modified Hill equation using a four-parameter nonlinear regression from which median apoptosis tolerance (K) was estimated. RESULTS: Median apoptosis tolerance (K) was estimated from nonlinear regression analysis of CFDs for DeltaPsi(m) collapse and loss of membrane asymmetry. The error distribution of K determined from nonlinear regression analysis of 100 simulated CFDs was shown to exhibit an asymmetrical distribution. The asymmetrical likelihood intervals for K were computed iteratively, thereby providing a measure of experimental error. CONCLUSIONS: A distribution-based approach to apoptosis assay using multivariate flow analysis offers a powerful, quantitative technique for investigating the phenotypical basis of neoplastic cell responsiveness to apoptosis therapy, permitting separation of cell populations on the basis of apoptosis susceptibility.     

Usefulness of R72H PCR assay for differentiation between Vibrio parahaemolyticus and Vibrio alginolyticus species: validation by DNA-DNA hybridization

Cell death by apoptosis is a common response to environmental stimuli and a frequent event in a multicellular organism. Not surprisingly, apoptosis is also found in microbial infections where it may contribute to progression and outcome. Perhaps less predictably, a number of bacteria have also been found to alleviate or even to inhibit apoptosis. Today we are at a point where our in some parts detailed knowledge of the molecular pathway to apoptosis allows us to probe situations in biology for the occurrence of apoptosis and to inquire into mechanisms of apoptosis induction and inhibition. In this brief article we will focus on anti-apoptotic activities exhibited by various bacteria. We will attempt to present the current knowledge on how the contact between mammalian and bacterial cell decrees resistance to apoptosis, what the respective contributions of the two partners are and how this interaction relates to the molecular path to apoptosis.     

Radiation-induced apoptosis and its relationship to loss of clonogenic survival

Ionizing radiation can be an effective inducer of apoptosis and studies of many aspects of the pathways and mechanisms involved in this apoptosis induction have been published. This review stresses two aspects: the relationship between apoptosis and loss of clonogenic ability in irradiated cells and the time course for the appearance of apoptosis after radiation exposure. Although it was initially assumed that apoptosis occurred relatively quickly (within hours) after irradiation, evidence is presented and discussed here showing that apoptosis can occur at long times after irradiation (out to 20 days) in some cell types. This late, or delayed, apoptosis occurs after the cells have divided once or several times. The impact of delayed apoptosis on loss of clonogenicity after irradiation remains unclear. It seems likely that in some cell types, e.g., fibroblasts, the occurrence of late apoptosis is minimal and may have little impact on long term cell survival of the population, but in at least one instance, with a cell line of hematopoietic origin, it appears that late apoptosis can account for all the loss of clonogenicity in irradiated cells. The role of p53 in radiation-induced apoptosis is also discussed, with data presented showing that both p53-dependent and independent pathways for radiation-induced apoptosis exist, depending on the cell type.     

A New Fungal Diterpene Induces VDAC1-dependent Apoptosis in Bax/Bak-deficient Cells

The pro-apoptotic Bax and Bak proteins are considered central to apoptosis, yet apoptosis occurs in their absence. Here, we asked whether the mitochondrial protein VDAC1 mediates apoptosis independently of Bax/Bak. Upon screening a fungal secondary metabolite library for compounds inducing apoptosis in Bax/Bak-deficient mouse embryonic fibroblasts, we identified cyathin-R, a new cyathane diterpenoid compound able to activate apoptosis in the absence of Bax/Bak via promotion of the VDAC1 oligomerization that mediates cytochrome c release. Diphenylamine-2-carboxilic acid, an inhibitor of VDAC1 conductance and oligomerization, inhibited cyathin-R-induced VDAC1 oligomerization and apoptosis. Similarly, Bcl-2 overexpression conferred resistance to cyathin-R-induced apoptosis and VDAC1 oligomerization. Silencing of VDAC1 expression prevented cyathin-R-induced apoptosis. Finally, cyathin-R effectively attenuated tumor growth and induced apoptosis in Bax/Bak-deficient cells implanted into a xenograft mouse model. Hence, this study identified a new compound promoting VDAC1-dependent apoptosis as a potential therapeutic option for cancerous cells lacking or presenting inactivated Bax/Bak.     

Caveolin-1 negatively regulates TRAIL-induced apoptosis in human hepatocarcinoma cells

The tumor necrosis factor-related apoptosis-inducing ligand (TRAIL/Apo2L) offers promising therapeutic potential based on its ability to induce apoptosis in various cancer cell lines without obvious adverse effect to normal cells. However, the mechanism of the differential sensitivity towards TRAIL-induced apoptosis remains unclear. Here, we demonstrate that caveolin-1 directly regulated TRAIL-induced apoptosis in HepG2 cells. ShRNA-mediated caveolin knockdown sensitized TRAIL-induced apoptosis and disruption of caveolae structure by the cholesterol-extracting reagent, methyl-β-cyclodextrin (MCD), enhanced TRAIL-induced apoptosis. Over-expression of caveolin-1 partially blocked TRAIL-induced apoptosis. The engagement of TRAIL with its receptor DR4 reduced the localization of DR4 in caveolae and resulted in its internalization. Blockade of caveolae-mediated internalization of DR4 by filipin III effectively enhanced TRAIL-induced apoptosis. Collectively, our results reveal a new mechanism by which caveolin-1 negatively regulates TRAIL-induced apoptosis in human hepatocarcinoma cells.     

Herpes Simplex Virus Inhibits Apoptosis through the Action of Two Genes, Us5 and Us3

Apoptosis of virus-infected cells occurs either as a direct response to viral infection or upon recognition of infection by the host immune response. Apoptosis reduces production of new virus from these cells, and therefore viruses have evolved inhibitory mechanisms. We previously showed that laboratory strains of herpes simplex virus type 1 (HSV-1) protect infected cells from apoptosis induced by cytotoxic T lymphocytes or ethanol. We have now evaluated the ability of HSV-1 and HSV-2 laboratory and clinical isolates to inhibit apoptosis induced by anti-Fas antibody or UV irradiation and explored the genetic basis for this inhibition. HSV-1 isolates inhibited apoptosis induced by UV or anti-Fas antibody. In contrast, HSV-2 clinical isolates failed to inhibit apoptosis induced by either stimulus, although the HSV-2 laboratory strain 333 had a partial inhibitory effect on UV-induced apoptosis. Inhibition of apoptosis by HSV was accompanied by marked reduction of caspase-3 and caspase-8 activity. Deletion of the HSV-1 Us3 gene markedly reduced inhibition of UV-induced apoptosis and partially abrogated inhibition of Fas-mediated apoptosis. Conversely, deletion of the HSV-1 Us5 gene markedly reduced protection from Fas-mediated apoptosis and partially abrogated protection from UV. The Us11 and Us12 genes were not necessary for protection from apoptosis induced by either stimulus. The differences between HSV-1 and HSV-2 in the ability to inhibit apoptosis may be factors in the immunobiology of HSV infections.     

Transmembrane Protein 214 (TMEM214) Mediates Endoplasmic Reticulum Stress-induced Caspase 4 Enzyme Activation and Apoptosis

Endoplasmic reticulum (ER) stress caused by excessive aggregation of misfolded proteins induces apoptosis. Although ER stress-induced apoptosis has been implicated in many diseases, the detailed mechanisms are not well understood. Here, we identified human transmembrane protein 214 (TMEM214) as a critical mediator of ER stress-induced apoptosis. Overexpression of TMEM214 induced apoptosis, whereas knockdown of TMEM214 inhibited ER stress-induced apoptosis. TMEM214 was localized on the outer membrane of the ER and constitutively associated with procaspase 4, which was also critical for ER stress-induced apoptosis. TMEM214-induced apoptosis was abolished by a dominant negative mutant of procaspase 4, whereas caspase 4-induced apoptosis was inhibited by knockdown of TMEM214. Furthermore, knockdown of TMEM214 inhibited the activation and cleavage of procaspase 4 by impairing its recruitment to the ER. Our findings suggest that TMEM214 is essential for ER stress-induced apoptosis by acting as an anchor for recruitment of procaspase 4 to the ER and its subsequent activation.     

Modified vaccinia virus Ankara protein F1L is a novel BH3-domain-binding protein and acts together with the early viral protein E3L to block virus-associated apoptosis

Infection with viruses often protects the infected cell against external stimuli to apoptosis. Here we explore the balance of apoptosis induction and inhibition for infection with the modified vaccinia virus Ankara (MVA), using two MVA mutants with experimentally introduced deletions. Deletion of the E3L-gene from MVA transformed the virus from an inhibitor to an inducer of apoptosis. Noxa-deficient mouse embryonic fibroblasts (MEF) were resistant to MVA-DeltaE3L-induced apoptosis. When the gene encoding F1L was deleted from MVA, apoptosis resulted that required Bak or Bax. MVA-DeltaF1L-induced apoptosis was blocked by Bcl-2. When expressed in HeLa cells, F1L blocked apoptosis induced by forced expression of the BH3-only proteins, Bim, Puma and Noxa. Finally, biosensor analysis confirmed direct binding of F1L to BH3 domains. These data describe a molecular framework of how a cell responds to MVA infection by undergoing apoptosis, and how the virus blocks apoptosis by interfering with critical steps of its signal transduction.     

哺乳动物卵母细胞凋亡的研究进展

细胞凋亡是发育过程中的基本生命现象,除各种体细胞凋亡外,生殖细胞的发生过程中也发生细胞凋亡。就雌性生殖系而言,细胞凋亡是其发育过程中的一个重要组成部分。在哺乳动物中,超过99．9％的雌性生殖细胞都会在卵子发生的不同阶段发生凋亡。有三种学说解释这一现象：1)被忽视死亡;2)因缺陷死亡;3)自我牺牲死亡。本文主要综述了哺乳动物卵母细胞凋亡的现象、卵母细胞凋亡学说、线粒体遗传与卵母细胞凋亡的关系以及凋亡的分子机理,同时还探讨了卵母细胞凋亡的生物学意义。