Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P10415 (Bcl-2)
 33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have described recently the prevention of apoptosis by CD2-soluble CD48 interaction on antigen B cell receptor occupancy. Here, we show that CD2 ligation is also able to interfere with B cell receptor-independent apoptosis pathways such as spontaneous death in spleen B cells or serum deprivation and hydrogen peroxide exposure in the BAL-17 cell line. In all cases, CD2 ligation induces a signal that prevents the downregulation of Bcl-2 expression. The specific CD2 signal pathway involved in this phenomenon is still unknown. As reported, CD2 did not appear to induce Ca2+ mobilization, phosphatidylinositol turnover, or PKC translocation in B cells. Nevertheless, we show that CD2 receptor ligation is coupled to the tyrosine phosphorylation pathway in B cells. These observations indicate that CD2 is functionally able to trigger at least an early signal that could play a role in apoptosis blockage B cells in addition to the adhesion one. The results suggest the participation of cellular membrane receptors other that CD40 in apoptosis rescue, not only in the antigen-dependent but also in the antigen-independent phases of B cell lymphopoiesis.
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PMID:CD2 ligation abrogates antigen-independent apoptosis in B cells. 866 Aug 37

The regulatory mechanism of Bcl-2 protein expression was investigated in SH-SY5Y cells, the human neuroblastoma cell line that expresses natively Bcl-2 proteins. WHen the cells were treated with 12-O-tetradecanoylphorbol 13-acetate (TPA) or retinoic acid, the level of Bcl-2 protein was increased compared with the control. These effects were inhibited by pretreatment with a protein kinase C (PKC) inhibitor, staurosporine or calphostin C. The level of Bcl-2 protein was also increased by treatment with carbachol, a muscarinic acetylcholine receptor (mAChR) agonist, and the effect were also inhibited by pretreatment with staurosporine or calphostin C. An addition, a carbachol-induced increase in Bcl-2 protein levels and a transient elevation of [Ca2+]i were inhibited by pretreatment with 4-DAMP (4-diphenylacetoxy-N-methylpiperidine), an m3 mAChR antagonist. In contrast, the level of Bcl-2 protein was decreased by treatment with dibutyryl cAMP (diBu-cAMP), forskolin, or cholera toxin, and the effects of diBu-cAMP were inhibited by pretreatment with a protein kinase A (PKA) inhibitor, H-89. From these results, we suggest that the expression of Bcl-2 proteins is regulated by PKC and PKA in positive and negative manners, respectively, in SH-SY5Y cells. Furthermore, the nucleosomal DNA fragmentation induced by serum depletion for 4 h was observed in SH-SY5Y cells when the level of Bcl-2 protein was down-regulated by treatment with 1 mM diBu-cAMP for 3 days, although the DNA fragmentation by serum depletion for 4 h was not observed in nontreatment cells, indicating that Bcl-2 proteins whose expression is regulated by PKC and PKA play important roles in serum depletion-induced apoptosis.
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PMID:Regulation of Bcl-2 protein expression in human neuroblastoma SH-SY5Y cells: positive and negative effects of protein kinases C and A, respectively. 866 83

The mechanism by which Bcl-2 inhibits apoptosis is unknown. The Bcl-2 protein is localized to intracellular membranes, including the endoplasmic reticulum (ER). The ER is the major intracellular reservoir of Ca2+ in non-muscle cells, sequestering Ca2+ for use in intracellular signaling, and is a prime target of oxidative damage. Because of the recent suggestion that Bcl-2 acts in an antioxidant pathway, we wondered whether Bcl-2 might protect the ER Ca2+ pool in cells exposed to reactive oxygen species. To test this hypothesis, we assessed the effect of hydrogen peroxide (H2O2) treatment on the ER Ca2+ pool in WEH17.2 cells, which do not express Bcl-2, and two stable transfectants, W.Hb13 and W.Hb12. The Bcl-2 level by Western blotting is 4-fold higher in W.Hb12 cells compared to W.Hb13 cells. The ER Ca2+ pool in H2O2-treated and untreated cells was measured according to the amount of Ca2+ mobilized from the ER lumen into the cytoplasm by thapsigargin (TG), a selective inhibitor of the ER (Ca2+)-ATPase. H2O2 treatment produced a significant reduction in the TG-mobilizable Ca2+ pool in WEH17.2 and W.Hb13 cells, but not in W.Hb12 cells, indicating that overexpression of Bcl-2 preserves the integrity of the ER Ca2+ pool in cells exposed to reactive oxygen species.
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PMID:Bcl-2 inhibits hydrogen peroxide-induced ER Ca2+ pool depletion. 866 30

Bcl-2, Bcl-xL, CrmA and tetrapeptide ICE inhibitor reduce the extent of necrotic cell death induced by cyanide, which primarily damages mitochondria. Although none of them affects the drastic decrease in ATP levels induced by cyanide, Bcl-2 and Bcl-xL but not CrmA or ICE inhibitor inhibit the cyanide-induced decrease in mitochondrial membrane potential. A similar blocking effect is observed on necrotic cell death induced by other respiration inhibitors, rotenone and antimycin A, and on apoptotic cell death induced by etoposide or calcium ionophore. These results indicate that Bc1-2 and Bcl-xL protect mitochondria against the loss of function during both apoptosis and at least some forms of necrotic cell death. The ICE family proteases act at a different step other than the loss of mitochondrial membrane potential.
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PMID:Bcl-2 blocks loss of mitochondrial membrane potential while ICE inhibitors act at a different step during inhibition of death induced by respiratory chain inhibitors. 870 May 49

Apoptosis is a form of programmed cell death that occurs under numerous developmental and physiological conditions that require the selective elimination of cells from tissues and organs without the production of an inflammatory response. The initiation of apoptosis is controlled by a regulation of the balance between death and life signals perceived by the cell. A typical response of cells to an apoptotic stimulus includes a reduction in cell volume, compaction of intracellular organelles, chromatin condensation, and the generation of apoptotic bodies which contain degraded cellular components. Apoptotic bodies are often engulfed by neighboring cells or macrophages, preventing the occurrence of an inflammatory response in the region of the dying cells. Although the molecular basis for this cellular suicide is poorly understood, evidence indicates that apoptosis is an active process, requiring energy for its effective completion. We have sought to define the catabolic "effector" molecules that carry out the apoptotic process using glucocorticoid-induced apoptosis in rodent and human lymphocytes as model systems. These cells respond to dexamethasone with an arrest of cell growth, chromatin condensation, cell shrinkage, and the selective degradation of DNA, RNA, and protein. These effects are dependent on the presence of functional glucocorticoid receptors and require gene expression. The fragmentation of DNA and its associated cell shrinkage has been a focus of our efforts, because these effects reflect an irreversible commitment to death. Accordingly, we have developed assays to study apoptosis at the single cell level and to identify, purify, and clone the nuclease(s) that cause DNA damage in apoptotic cells. Using these approaches, we have identified and characterized a novel low molecular weight nuclease (NUC18) whose activity correlates with the DNA degradation occurring during apoptosis. NUC18 requires calcium for optimal activity in vitro and is inhibited by zinc and aurintricarboxylic acid, two known inhibitors of apoptosis. The amino acid sequence of pure NUC18 reveals a surprising homology to the cyclophilin family of proteins. Furthermore, recombinant cyclophilins have biochemical and pharmacological properties identical to those of NUC18. We have also studied the molecular basis for the catabolism of RNA and proteins that occurs during lymphocyte apoptosis. Recent experiments have identified selective cleavage of 28S ribosomal RNA and a novel nonlysosomal protease, both of which contribute to the demise of the cell. In summary, we present an evolving model that unifies the activation of apoptosis in lymphocytes by glucocorticoids with the counter-balancing effect of inhibitors such as Bcl-2.
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PMID:The biochemistry and molecular biology of glucocorticoid-induced apoptosis in the immune system. 870 Oct 91

We investigated cytokine production and accessory cell function in human macrophage hybridoma cell lines and primary monocytes after infection with HIV-1. HIV-1 infection induced IL-10 production in the macrophage hybridoma cell line with loss of IL-12 1 wk after infection. There were also significant increases in production of IL-10 (537 +/- 521 vs 687 +/- 625 pg/ml) while there was a reduction in IL-12 (6.3 +/- 3.1 vs 1.2 +/- 1.0 pg/ml, p = 0.021) in the primary monocytes 5 days after HIV-1 infection. In addition, the hybridoma cell lines and primary monocytes failed to support PHA, Con A, PWM, or anti-CD3- induced T cell proliferation 1 wk after infection. The viability of the T cells cocultured with the HIV-1-infected macrophage cell lines or the primary monocytes as determined by propidium iodide staining was unaltered and there was no increase in apoptosis-specific DNA strand breaks or increased expression of Bcl-2 in the T cells. No soluble suppressor factor was present, since UV-inactivated supernatants from the hybridoma cell line and primary monocytes failed to inhibit mitogen- and anti-CD3-induced T cell proliferation. Early events in T cell activation, including calcium flux and phosphotyrosine kinase activity, were intact in the T cells cocultured with the HIV-1- infected hybridomas and monocytes but there was reduced IL-2 production. Addition of exogenous IL-2 restored the proliferative responses. Taken together, these data suggest that alteration of cytokine production and accessory cell function for mitogens and anti-CD3-induced T cell proliferation independent of induction of apoptosis, suppressor factor production, or inhibition of T cell signaling occurs very early after HIV-1 infection and may contribute to the global immunosuppression observed in AIDS.
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PMID:Altered cytokine production and accessory cell function after HIV-1 infection. 875 40

Expression of the human protooncogene bcl-2 protects neural cells from death induced by many forms of stress, including conditions that greatly elevate intracellular Ca2+. Considering that Bcl-2 is partially localized to mitochondrial membranes and that excessive mitochondrial Ca2+ uptake can impair electron transport and oxidative phosphorylation, the present study tested the hypothesis that mitochondria from Bcl-2-expressing cells have a higher capacity for energy-dependent Ca2+ uptake and a greater resistance to Ca(2+)-induced respiratory injury than mitochondria from cells that do not express this protein. The overexpression of bcl-2 enhanced the mitochondrial Ca2+ uptake capacity using either digitonin-permeabilized GT1-7 neural cells or isolated GT1-7 mitochondria by 1.7 and 3.9 fold, respectively, when glutamate and malate were used as respiratory substrates. This difference was less apparent when respiration was driven by the oxidation of succinate in the presence of the respiratory complex I inhibitor rotenone. Mitochondria from Bcl-2 expressors were also much more resistant to inhibition of NADH-dependent respiration caused by sequestration of large Ca2+ loads. The enhanced ability of mitochondria within Bcl-2-expressing cells to sequester large quantities of Ca2+ without undergoing profound respiratory impairment provides a plausible mechanism by which Bcl-2 inhibits certain forms of delayed cell death, including neuronal death associated with ischemia and excitotoxicity.
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PMID:Bcl-2 potentiates the maximal calcium uptake capacity of neural cell mitochondria. 879 Apr 27

The mechanism by which Bcl-2 inhibits apoptosis is unknown. One proposal is that Bcl-2 regulates intracellular Ca2+ fluxes thought to mediate apoptosis. In the present study, we investigated Bcl-2's mechanism of action by determining the effect of Bcl-2 on intracellular Ca2+ fluxes in the WEHI7.2 mouse lymphoma cell line, which does not express Bcl-2, and its stable transfectant, W.Hb12, which expresses a high level of Bcl-2. Treatment with the endoplasmic reticulum Ca(2+)-ATPase inhibitor thapsigargin produced marked alterations in intracellular Ca2+ homeostasis in both WEHI7.2 and W.Hb12 cells, including elevation of free cytosolic Ca2+, endoplasmic reticulum Ca2+ pool depletion, capacitative entry of extracellular Ca2+, and increased loading of Ca2+ into mitochondria. Similar changes in intracellular Ca2+ occurred spontaneously in both cell lines following exponential growth. In both situations, W.Hb12 cells maintained optimal viability despite marked alterations in intracellular Ca2+, whereas WEHI7.2 cells underwent apoptosis. Treatment with the glucocorticoid hormone, dexamethasone, induced apoptosis in WEHI7.2 cells, but not in W.HB12 cells, even though dexamethasone treatment did not alter intracellular Ca2+ homeostasis in either cell line. These findings indicate that Bcl-2 acts downstream from intracellular Ca2+ fluxes in a pathway where Ca(2+)-dependent and Ca(2+)-independent death signals converge.
Cell Calcium 1996 Jun
PMID:Bcl-2 acts subsequent to and independent of Ca2+ fluxes to inhibit apoptosis in thapsigargin- and glucocorticoid-treated mouse lymphoma cells. 884 14

Activation of the plasma membrane NADH-oxidoreductase (PMOR) system by addition of growth factors or extracellular electron acceptors stimulates cellular proliferation. We now show that the vanilloids capsaicin, dihydrocapsaicin, and resiniferatoxin are inhibitors of the NADH-oxidase activity of the PMOR system and that both these and two previously identified PMOR inhibitors (chloroquine and retinoic acid) induce apoptosis in human B-cell and mouse myeloid cell lines. At the optimal concentration, PMOR inhibitors can induce between 50 and 70% of apoptosis in mouse myeloid and human B-cell lines within 8-12 h, provided these cell lines do not express Bcl-2. The immunosuppressants cyclosporin A and fujimycin (tacrolimus) inhibit PMOR inhibitor-induced apoptosis. By using combinations of these immunosuppressants and excess amounts of their nonimmunosuppressive analogues, we demonstrate that in human B-cell lines the Bcl-2-sensitive apoptotic pathway triggered by PMOR inhibitors involves signaling through the protein phosphatase calcineurin. We suggest that the PMOR system is a redox sensor that can, depending on the ambient redox environment and the availability of growth factors, regulate plasma membrane calcium fluxes and signal for apoptosis through calcineurin. Bcl-2, a protein that is thought to inhibit apoptosis by regulating reactive oxygen species and calcium fluxes in the cell, inhibits this apoptotic pathway.
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PMID:Apoptosis induced by inhibitors of the plasma membrane NADH-oxidase involves Bcl-2 and calcineurin. 889 35

The role of interleukin-4 (IL-4) and CD40 signaling in negative regulation of apoptosis in human Ramos B cells induced in response to different agents was investigated. CD40 ligation protected cells from apoptosis induced by calcium ionophore through an initial, rapid and apparently Bcl-2-independent mechanism, associated with up-regulation of Bcl-XL. However, rescue from apoptosis induced by inhibition of macromolecular synthesis required several hours of prior stimulation with CD40 ligand/antibody and was accompanied by up-regulation of Bcl-2. In contrast, IL-4 did not up-regulate Bcl-2 or Bcl-XL and did not inhibit apoptosis induced by inhibitors of macromolecular synthesis. However, IL-4 did protect Ramos cells from apoptosis induced by calcium ionophore and this effect was accompanied by inhibition of ionophore-induced expression of an immediate early gene encoding a 36-kDa zinc-finger protein, Berg36. Antisense blockade of Berg36 expression partially inhibited ionophore-induced apoptosis to an extent commensurate with the level of IL-4 protection, implicating Berg36 function as a requirement for apoptosis induced through calcium signaling and as a target for IL-4 through which this cytokine inhibits apoptosis in Ramos B cells. These distinct mechanisms for rescue from apoptosis by CD40 and IL-4 may help explain the co-operative roles of these T cell-derived signals for B cell survival.
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PMID:Distinct mechanisms for rescue from apoptosis in Ramos human B cells by signaling through CD40 and interleukin-4 receptor: role for inhibition of an early response gene, Berg36. 889 45


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