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Query: UNIPROT:P10415 (Bcl-2)
 33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Here we examine a cell death process induced by reactive oxygen species (ROS) in the haemoflagellate Trypanosoma brucei brucei. Ca2+ distribution in cellular compartments was measured with stable transformants expressing aequorin targeted to the cytosol, nucleus or mitochondrion. Within 1.5 h of ROS production, mitochondrial Ca2+ transport was impaired and the Ca2+ barrier between the nuclear envelope and cytosol was disrupted. Consequently the mitochondrion did not accumulate Ca2+ efficiently in response to an extracellular stimulus, and excess Ca2+ accumulated in the nucleus. The terminal transferase deoxytidyl uridine end labelling assay revealed that, 5 h after treatment with ROS, extensive fragmentation of nuclear DNA occurred in over 90% of the cells. Permeability changes in the plasma membrane did not occur until an additional 2 h had elapsed. The intracellular Ca2+ buffer, EGTA acetoxymethyl ester, prevented DNA fragmentation and prolonged the onset of changes in cell permeability. Despite some similarities to apoptosis, nuclease activation was not a consequence of caspase 3, caspase 1, calpain, serine protease, cysteine protease or proteasome activity. Moreover, trypanosomes expressing mouse Bcl-2 were not protected from ROS even though protection from mitochondrial dysfunction and ROS have been reported for mammalian cells. Overall, these results demonstrate that Ca2+ pathways can induce pathology in trypanosomes, although the specific proteins involved might be distinct from those in metazoans.
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PMID:Reactive oxygen species activate a Ca2+-dependent cell death pathway in the unicellular organism Trypanosoma brucei brucei. 1022 56

Monocytes are precursors of tissue macrophages, which are major targets of human immunodeficiency virus type 1 (HIV-1) infection. Although few blood monocytes are infected, their resulting activation could play a key role in the pathogenesis of HIV disease by modulating their transendothelial migration and inducing the production of reactive oxygen species (ROS). ROS participate in chronic inflammation, HIV replication, and the apoptosis of immune system cells seen in HIV-infected subjects. Published data on monocyte activation are controversial, possibly because most studies have involved monocytes isolated from their blood environment by various procedures that may alter cell responses. We therefore used flow cytometry to study, in whole blood, the activation and redox status of monocytes from HIV-infected patients at different stages of the disease. We studied the expression of adhesion molecules, actin polymerization, and cellular levels of H2O2, Bcl-2, and thioredoxin. Basal H2O2 production correlated with viral load and was further enhanced by bacterial N-formyl peptides and endotoxin. The enhanced H2O2 production by monocytes from asymptomatic untreated patients with CD4(+) cell counts above 500/microliter was associated with a decrease in the levels of Bcl-2 and thioredoxin. In contrast, in patients with AIDS, Bcl-2 levels returned to normal and thioredoxin levels were higher than in healthy controls. Restoration of these antioxidant and antiapoptotic molecules might explain, at least in part, why monocyte numbers remain relatively stable throughout the disease. Alterations of adhesion molecule expression and increased actin polymerization could play a role in transendothelial migration of these activated monocytes.
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PMID:Redox and activation status of monocytes from human immunodeficiency virus-infected patients: relationship with viral load. 1023 14

Activated microglia have been implicated in the regulation of neuronal cell death. However, the biochemical mechanism for neuronal death triggered by activated microglia is still unclear. When treated with activated microglia, neuronal PC12 cells undergo apoptosis accompanied by caspase-3-like protease activation and DNA fragmentation. Apoptotic bodies formed were subsequently phagocytosed by neighboring activated microglia. Pretreatment of the cells with the caspase-3-like protease inhibitor N-acetyl-Asp-Glu-Val-Asp-aldehyde did not reverse this cell death. Although Bcl-2 overexpression in the cells caused the inhibition of caspase-3-like protease activity and DNA fragmentation and the effective interference of apoptosis induced by deprivation of trophic factors, it could not suppress the activated microglia-induced neuronal death. At the electron microscopic level, degenerating cells with high levels of Bcl-2 were characterized by slightly condensed chromatins forming irregular-shaped masses, severely disintegrated perikarya, and marked vacuolation. Various protease inhibitors tested did not inhibit this cell death, whereas the radical oxygen species scavenger N-acetyl-L-cysteine significantly suppressed this death. Altogether, our study provides an alternative death pathway for the activated microglia-induced neuronal death by blockage of the caspase-3 protease cascade.
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PMID:A predominant apoptotic death pathway of neuronal PC12 cells induced by activated microglia is displaced by a non-apoptotic death pathway following blockage of caspase-3-dependent cascade. 1033 72

We have recently reported that members of the bcl-2 gene family are expressed and estradiol regulated in rabbit luteal cells during corpus luteum (CL) regression, and that estradiol and hCG are effective inhibitors of apoptosis in the rabbit CL in vivo and in vitro. As Bcl-2 and related proteins are known to regulate levels of reactive oxygen species or their intermediates in cells as one possible mechanism to control apoptosis, the present studies were designed to examine if oxidative stress plays a role in luteal cell apoptosis during CL regression in the rabbit. In the first set of experiments, healthy CL obtained from day 11 pseudopregnant rabbits were incubated in serum-free medium for 2 h in the absence or presence of superoxide dismutase (SOD; 1.5-150 U/ml), ascorbic acid (1-100 mM), N-acetyl-L-cysteine (25 and 50 mM), or catalase (10-1000 U/ml). Cells within CL incubated in medium alone exhibited extensive apoptosis (examined by analysis of extracted DNA using 3'-end labeling), and this onset of apoptosis was blocked in a dose-dependent fashion by treatment with SOD, ascorbic acid, N-acetyl-L-cysteine, or catalase. In the second set of experiments, expression of bax and bcl-x in CL after in vitro treatment without and with 100 U/ml SOD was examined. Although SOD treatment did not alter the levels of bcl-x messenger RNA (mRNA) over the 2-h incubation period, this antioxidant enzyme significantly reduced the levels of bax mRNA in incubated CL. In the final set of experiments, we observed that expression of mitochondrial- or manganese-containing SOD was significantly increased by treatment of isolated CL with 1 microg/ml hCG in vitro, whereas bax mRNA levels were significantly reduced under the same culture conditions. Collectively, these data indicate that the gonadotropin-mediated inhibition of apoptosis in rabbit luteal cells involves enhanced expression of the oxidative stress response gene, manganese-containing SOD, whose protein product may then function to protect luteal cells directly from the damaging effect of reactive oxygen species and/or indirectly by acutely down-regulating expression of Bax, a prooxidant member of the Bcl-2 protein family.
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PMID:Antioxidants mimic the ability of chorionic gonadotropin to suppress apoptosis in the rabbit corpus luteum in vitro: a novel role for superoxide dismutase in regulating bax expression. 1034 42

The cause of neuronal death in Parkinson's, Alzheimer's, and other neurodegenerative diseases is not known, except in some hereditary forms of these disorders in which a mutated gene has been identified. Even in these cases, the molecular mechanisms that underlie the loss of specific populations of neurons have not been determined, although it is highly probable that apoptosis is involved. Some of the biochemical events that occur during apoptosis have been elucidated. We focus in this review on the role played by the proapoptotic caspases, the antiapoptotic proteins of the Bcl-2 family, and the apoptosis associated signal transducers such as ceramide, calcium, and reactive nitrogen or oxygen species. The role of the mitochondria and the possible implication of cell cycle regulators will also be addressed. Of particular interest are the endogenous inhibitory mechanisms and the pharmacologic agents that can be used to block apoptosis signaling cascades, because they offer models for the development of therapeutic strategies designed to prevent the evolution of pathologic neurodegeneration.
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PMID:Neuropharmacologic aspects of apoptosis: significance for neurodegenerative diseases. 1036 78

Mercurials have been shown to cause apoptosis in human T cells. The objective of this study was to evaluate and compare the relative susceptibility of resting versus activated T cells to methyl mercury chloride (MeHgCl)-induced cell death. Apoptosis was assessed by Hoechst 33258 and 7-AAD staining and annexin V binding. Our results show that activation of T cells by PHA, PMA, and ionomycin, or IL-2, reduces mercury-induced apoptosis by approximately 50%. We have previously shown that the underlying basis for these toxic effects involves perturbation of mitochondrial function leading to oxidative stress and the release of cytochrome c to the cytosol. Therefore, the ability of MeHgCl to alter the mitochondrial transmembrane potential (delta psi m) and to induce the generation of reactive oxygen species (ROS) was evaluated in activated T-cells. Both resting and activated cells treated with MeHgCl exhibited a decrease in delta psi m when compared to respective control cells. ROS production was elevated in resting cells following treatment with mercury; in contrast, fewer activated T cells exhibit increased levels of ROS in the presence of MeHgCl. Similarly, MeHgCl treatment resulted in the release of cytochrome c to the cytoplasm in non-activated T cells but failed to do so in the activated population. These results lead us to examine intracellular levels of bcl-2, a protein that has been shown to regulate apoptosis, presumably via its ability to associate with the mitochondrial membrane. Bcl-2 levels were found, in resting cells, to be low in the presence or absence of mercury. In comparison, activated T cells expressed elevated levels of bcl-2. The relationship between mercury-induced apoptosis in human T cells, mitochondrial dysfunction, and intracellular levels of bcl-2 are discussed.
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PMID:Activated human T lymphocytes exhibit reduced susceptibility to methylmercury chloride-induced apoptosis. 1036 43

The survival of type 2 alveolar epithelial cells (AEC2) in the lung after hyperoxic injury is regulated by signals from the cellular environment. Keratinocyte growth factor and Matrigel can ameliorate the hallmarks of apoptosis seen in hyperoxic AEC2 after 24-h culture on plastic [S. Buckley, L. Barsky, B. Driscoll, K. Weinberg, K. D. Anderson, and D. Warburton. Am. J. Physiol. 274 (Lung Cell. Mol. Physiol. 18): L714-L720, 1998]. We used the same model of in vivo short-term hyperoxia to characterize the protective effects of substrate attachment. Culture of hyperoxic AEC2 on various biological adhesion substrates showed reduced DNA end labeling in cells grown on all biological substrates compared with growth on plastic. In contrast, the synthetic substrate poly-D-lysine conferred no protection. Hyperoxic AEC2 cultured on laminin showed an increased ratio of expression of Bcl-2 to interleukin-1beta-converting enzyme compared with culture on plastic. Laminin also partially restored hyperoxia-depleted glutathione levels and conferred improved optimal mitochondrial viability as measured by the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. Conversely, attachment to the nonphysiological substrate poly-D-lysine afforded no such protection, suggesting that protection against hyperoxia-induced damage may be associated with integrin signaling. Increased activation of extracellular signal-regulated kinase (ERK), as detected by increased ERK tyrosine phosphorylation, was seen in hyperoxic AEC2 as soon as the cells started to attach to laminin and was sustained after 24 h of culture in contrast to that in control AEC2. To confirm that protection against DNA strand breakage and apoptosis was being conferred by ERK activation, the cells were also plated in the presence of 50 microM PD-98059, an inhibitor of the ERK-activating mitogen-activating kinase. Culture for 24 h with PD-98059 abolished the protective effect of laminin. We speculate that after hyperoxic lung injury, signals through the basement membrane confer specific protection against oxygen-induced DNA strand breakage and apoptosis through an ERK activation-dependent pathway.
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PMID:ERK activation protects against DNA damage and apoptosis in hyperoxic rat AEC2. 1040 43

Recent work has focused attention on the role of oxidative stress in various acute and chronic neurodegenerative diseases. Low concentrations of the powerful antioxidant glutathione (GSH) and impaired brain energy metabolism, particularly in the substantia nigra, are key features of Parkinson's disease (PD). The main goal of this study was to better characterize the deleterious effects of brain GSH depletion on mitochondrial function. We depleted GSH in the brains of newborn wild-type (WT) and transgenic (Tg) mice overproducing either human Cu/Zn-superoxide dismutase (h-CuZnSOD) or human Bcl2 (h-Bcl-2), by subcutaneous injection of l-buthionine sulfoximine (BSO), a specific inhibitor of gamma-glutamylcysteine synthetase. GSH was 97% depleted in brain homogenates and 90% depleted in brain mitochondria for both WT and Tg mice. This depletion of brain GSH led to a decrease in the activity of the GSH-dependent antioxidant enzyme glutathione peroxidase, both in WT and in Tg animals. BSO treatment decreased the activities of respiratory complexes I, II, and IV in the brain homogenates of WT mice. BSO-treated h-CuZnSOD or h-Bcl-2 Tg mice had no respiratory chain deficiencies. Thus, brain GSH depletion leads to the impairment of mitochondrial respiratory chain activity. The protection of mitochondrial respiratory function by overproduction of Bcl-2 may result from a decrease in the generation of reactive oxygen species (ROS) or lipid peroxidation. The protection of mitochondria by overproduction of CuZnSOD is consistent with the involvement of superoxide or superoxide-derived ROS in the mitochondrial dysfunction caused by brain GSH depletion. This study demonstrates that the antioxidant balance is critical for maintenance of brain mitochondrial function, and its disruption may contribute to the pathogenesis of PD.
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PMID:Overproduction of Cu/Zn-superoxide dismutase or Bcl-2 prevents the brain mitochondrial respiratory dysfunction induced by glutathione depletion. 1041 49

Ischemia and reperfusion injure the heart, as manifested by myocardial infarction, postischemic ventricular functional dysfunctions, arrhythmias, and cardiomyocyte apoptosis. Hearts can be adapted to ischemic-reperfusion injury by subjecting them to non-lethal cyclic episodes of short-term ischemia and reperfusion. The adapted myocardium becomes resistant to subsequent lethal ischemic injury. Reactive oxygen species and oxidative stress play crucial roles in the pathophysiology of ischemic-reperfusion injury. The adapted hearts, when subjected to subsequent ischemia and reperfusion, generate a reduced amount of oxygen free radicals compared to the nonadapted hearts. The number of cardiomyocytes undergoing apoptotic cell death is reduced in the adapted hearts subjected to ischemia and reperfusion. In concert, the adapted myocardium is associated with increased antioxidant gene Bcl-2, increased binding activity of the nuclear transcription factor NF kappa B, and reduced binding activity of AP-1 compared to nonadapted hearts. Yet when nonadapted hearts are subjected to ischemia and reperfusion, Bcl-2 is down-regulated while NF kappa B is moderately upregulated and AP-1 is significantly upregulated.
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PMID:Differential regulation of apoptosis by ischemia-reperfusion and ischemic adaptation. 1041 50

The generation of reactive oxygen species has been implicated in the neurotoxicity of amyloid beta-peptide, the main constituent of the senile plaques that accumulates in the brain of Alzheimer's disease victims. In this study, we have compared the toxicity of amyloid beta-peptide on cultured cortical neurons from control mice and transgenic mice expressing either human copper-zinc superoxide dismutase or human Bcl-2, two proteins that protect cells against oxidative damage. Copper-zinc superoxide dismutase overexpression failed to protect cortical neurons against the toxicity of amyloid beta-peptide(25-35) [the minimal cytotoxic fragment of amyloid beta-peptide(1-42)] as assessed by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide reduction and an enzyme-linked immunoabsorbent assay using an antibody directed against microtubule-associated protein-2 (a specific neuronal protein), ruling out a role for superoxide anion and peroxynitrite in amyloid beta-peptide-evoked neurotoxicity. On the contrary, cortical neurons expressing human copper-zinc superoxide dismutase exhibited increased apoptotic nuclei in both untreated and amyloid beta-peptide(25-35)-exposed neurons. Transgenic neurons expressing human Bcl-2 were partially protected against amyloid beta-peptide-induced neuronal death. This neuroprotection appears to be related to the complete inhibition of apoptosis induced by both amyloid beta-peptide(25-35) and amyloid beta-peptide(1-42). This study may be relevant for developing neuroprotective gene therapy to inhibit neuronal apoptosis in Alzheimer's disease.
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PMID:Transgenic murine cortical neurons expressing human Bcl-2 exhibit increased resistance to amyloid beta-peptide neurotoxicity. 1042 99


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