UNIPROT:P10415 - FACTA Search

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

Tamoxifen (Tam) is widely used in chemotherapy of estrogen receptor-positive breast cancer. It inhibits proliferation and induces apoptosis of breast cancer cells by estrogen receptor-dependent modulation of gene expression, but recent reports have shown that Tam (especially at pharmacological concentrations) has also rapid nongenomic effects. Here we studied the mechanisms by which Tam exerts rapid effects on breast cancer cell viability. In serum-free medium 5-7 microM Tam induced death of MCF-7 and MDA-MB-231 cells in a time-dependent manner in less than 60 min. This was associated with release of mitochondrial cytochrome c, a decrease of mitochondrial membrane potential and an increase in production of reactive oxygen species (ROS). This suggests that disruption of mitochondrial function has a primary role in the acute death response of the cells. Accordingly, bongkrekic acid, an inhibitor of mitochondrial permeability transition, was able to protect MCF-7 cells against Tam. Rapid cell death induction by Tam was not associated with immediate activation of caspase-9 or cleavage of poly (ADP-ribose) polymerase. It was not blocked by the caspase inhibitor z-Val-Ala-Asp-fluoromethylketone either. Diphenylene ionodium (DPI), an inhibitor of NADPH oxidase, was able to prevent Tam-induced cell death but not cytochrome c release, which suggests that ROS act distal to cytochrome c. The pure antiestrogen ICI 182780 (1 microM) could partly oppose the effect of Tam in estrogen receptor positive MCF-7 cells, but not in estrogen receptor negative MDA-MB-231 cells. Pre-culturing MCF-7 cells in the absence of 17beta-estradiol (E(2)) or in the presence of a low Tam concentration (1 microM) made the cells even more susceptible to rapid death induction by 5 or 7 microM Tam. This effect was associated with decreased levels of the anti-apoptotic proteins Bcl-X(L) and Bcl-2. In conclusion, our results demonstrate induction of a rapid mitochondrial cell death program in breast cancer cells at pharmacological concentrations of Tam, which are achievable in tumor tissue of Tam-treated breast cancer patients. These mechanisms may contribute to the ability of Tam therapy to induce death of breast cancer cells.
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PMID:Role of mitochondria in tamoxifen-induced rapid death of MCF-7 breast cancer cells. 1621 79

Angiotensin II stimulates NADPH oxidase activity in vascular cells. However, it is not fully understood whether angiotensin II, which plays an important role in heart failure, stimulates NADPH oxidase activation and expression in cardiac myocytes. Previous studies have shown that angiotensin II induces myocyte apoptosis, but whether the change is mediated via NADPH oxidase remains to be elucidated. In this study we proposed to determine whether angiotensin II stimulated NADPH oxidase activation and NADPH oxidase subunit p47-phox expression in H9C2 cardiac muscle cells. If so, we would determine whether the NADPH oxidase inhibitor apocynin prevented angiotensin II-induced apoptosis. The results showed that angiotensin II increased NADPH oxidase activity, p47-phox protein and mRNA expression, intracellular reactive oxygen species, and apoptosis in H9C2 cells. Angiotensin II elevated p38 mitogen-activated protein kinase (MAPK) activity, decreased Bcl-2 protein, and increased Bax protein and caspase-3 activity. Apocynin treatment inhibited angiotensin II-induced NADPH oxidase activation and increases in p47-phox expression, intracellular reactive oxygen species, and apoptosis. The effect of apocynin on apoptosis was associated with reduced p38 MAPK activity, increased Bcl-2 protein, and decreased Bax protein and caspase-3 activity. These results suggest that angiotensin II-induced apoptosis is mediated via NADPH oxidase activation probably through p38 MAPK activation, a decrease in Bcl-2 protein, and caspase activation.
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PMID:NADPH oxidase is involved in angiotensin II-induced apoptosis in H9C2 cardiac muscle cells: effects of apocynin. 1641 6

Stroke-induced neurological deficits and mortality are often associated with timing of treatment after the onset of stroke. We showed that local delivery of the human tissue kallikrein gene into rat brain immediately after middle cerebral artery occlusion (MCAO) exerts neuroprotection. In this study, we investigated the effect of systemic delivery of the kallikrein gene 8 hr after MCAO. Expression of recombinant human tissue kallikrein after gene transfer was identified in the ischemic brain region and blood vessels. Intravenous injection of adenovirus encoding the kallikrein gene significantly reduced neurological deficit scores 2 and 7 days after gene transfer. Kallikrein gene transfer also reduced ischemia-reperfusion (I/R)-induced cerebral infarction and promoted the survival and migration of glial cells from penumbra to the ischemic core from 3 to 14 days after gene delivery. Kallikrein reduced I/R-induced apoptosis of neuronal cells and inhibited inflammatory cell accumulation in the ischemic brain. These effects were blocked by the kinin B2 receptor antagonist icatibant. In addition, kallikrein enhanced angiogenesis and promoted neurogenesis after I/R and the stimulatory effect of kinin on neuronal cell proliferation was confirmed in primary cultured neuronal cells. The protective effects of kallikrein, through the kinin B2 receptor, were accompanied by increased cerebral nitric oxide and Bcl-2 levels, Akt phosphorylation, and reduced NAD(P)H oxidase activity, superoxide production, Bax levels, and caspase-3 activity. These results indicate that delayed systemic administration of the kallikrein gene after onset of stroke protects against ischemic brain injury by inhibiting apoptosis and inflammation and by promoting angiogenesis and neurogenesis.
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PMID:Kallikrein protects against ischemic stroke by inhibiting apoptosis and inflammation and promoting angiogenesis and neurogenesis. 1645 54

A recent study documented reactive oxygen species (ROS), generated through NADPH oxidase by angiotensin II (Ang II) with the activation of NADPH oxidase subunits, p22phox and gp91phox, to be responsible for the preconditioning effect of Ang II. The present study was designed to determine if similar to ischemic preconditioning (PC), mitogen-activated protein (MAP) kinases are also involved in Ang II PC of the heart. Isolated working rat hearts were perfused for 15 min with KHB (Krebs-Henseleit bicarbonate) buffer containing Ang II in the absence or presence of an Erk (1/2) inhibitor, PD 098059, a p38MAPK inhibitor, SB 202190, a JNK inhibitor, SP 600125 or a ROS scavenger, N-acetyl cysteine (NAC). All hearts were subsequently subjected to 30 min global ischemia followed by 2 h reperfusion with KHB buffer only. Cardioprotection was examined by determining infarct size, cardiomyocyte apoptosis and ventricular recovery. Redox and MAP kinase regulation were studied by determining the survival signaling mediated by Akt and Bcl-2. In consistent with previous results, Ang II preconditioned the heart as evidenced by improved postischemic ventricular recovery and reduced infarct size and decreases cardiomyocyte apoptosis. Ang II phosphorylated both Akt, Bcl-2 and Bad, which was blocked by NAC, PD 098059 or SP 600125, but not by SB 202190. NAC, PD 098059 and SP600125, but not SB202190, also abolished the cardioprotective effect of Ang II preconditioning. The results indicate that Ang II preconditioning is potentiated through MAP kinases that are regulated by redox signaling.
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PMID:Redox regulation of angiotensin II preconditioning of the myocardium requires MAP kinase signaling. 2323 Jun 3

This study demonstrates that Ca2+ stimulates mitochondrial energy metabolism during spleen lymphocyte activation in response to the ascitic Walker 256 tumor in rats. Intracellular Ca2+ concentrations, phosphorylated protein kinase C (pPKC) levels, Bcl-2 protein contents, interleukin-2 (IL-2) levels, mitochondrial uncoupling protein-2 (UCP-2) contents and reactive oxygen species (ROS) were significantly elevated in these activated lymphocytes. Mitochondria of activated lymphocytes exhibited high free Ca2+ concentrations in the matrix and enhanced oligomycin-sensitive oxygen consumption, indicating an increased rate of oxidative phosphorylation. The production of ROS was largely decreased by diphenylene iodinium in the activated lymphocytes, suggesting that NADPH oxidase is the prevalent source of these species. Accumulation of UCP-2 and the anti-apoptotic protein Bcl-2 is probably important to prevent mitochondrial dysfunction and cell death elicited by the sustained high levels of intracellular Ca2+ and ROS and may explain the observed higher resistance from activated lymphocytes against the opening of the mitochondrial membrane permeability pore (MPT). All these changes were blocked by pretreatment of the rats with verapamil, an L-type Ca2+ channel antagonist. These data demonstrate a central role of Ca2+ in the control of mitochondrial bioenergetics in spleen lymphocytes during the immune response to cancer.
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PMID:Role of mitochondria in the immune response to cancer: a central role for Ca2+. 1677 55

Hyperoxia causes cell injury and death associated with reactive oxygen species formation and inflammatory responses. Recent studies show that hyperoxia-induced cell death involves apoptosis, necrosis, or mixed phenotypes depending on cell type, although the underlying mechanisms remain unclear. Using murine lung endothelial cells, we found that hyperoxia caused cell death by apoptosis involving both extrinsic (Fas-dependent) and intrinsic (mitochondria-dependent) pathways. Hyperoxia-dependent activation of the extrinsic apoptosis pathway and formation of the death-inducing signaling complex required NADPH oxidase-dependent reactive oxygen species production, because this process was attenuated by chemical inhibition, as well as by genetic deletion of the p47(phox) subunit, of the oxidase. Overexpression of heme oxygenase-1 prevented hyperoxia-induced cell death and cytochrome c release. Likewise, carbon monoxide, at low concentrations, markedly inhibited hyperoxia-induced endothelial cell death by inhibiting cytochrome c release and caspase-9/3 activation. Carbon monoxide, by attenuating hyperoxia-induced reactive oxygen species production, inhibited extrinsic apoptosis signaling initiated by death-inducing signal complex trafficking from the Golgi apparatus to the plasma membrane and downstream activation of caspase-8. We also found that carbon monoxide inhibited the hyperoxia-induced activation of Bcl-2-related proteins involved in both intrinsic and extrinsic apoptotic signaling. Carbon monoxide inhibited the activation of Bid and the expression and mitochondrial translocation of Bax, whereas promoted Bcl-X(L)/Bax interaction and increased Bad phosphorylation. We also show that carbon monoxide promoted an interaction of heme oxygenase-1 with Bax. These results define novel mechanisms underlying the antiapoptotic effects of carbon monoxide during hyperoxic stress.
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PMID:Carbon monoxide protects against hyperoxia-induced endothelial cell apoptosis by inhibiting reactive oxygen species formation. 1713 72

Lysosomal membrane permeabilization (LMP) is emerging as an important regulator of cell apoptosis. Human neutrophils are highly granulated phagocytes, which respond to pathogens by exhibiting increased production of reactive oxygen species (ROS) and lysosomal degranulation. In a previous study, we observed that intracellular, nonphagosomal generation of ROS triggered by adherent bacteria induced ROS-dependent neutrophil apoptosis, whereas intraphagosomal production of ROS during phagocytosis had no effect. In the present study, we measured lysosomal membrane stability and leakage in human neutrophils and found that adherent, noningested, Type 1-fimbriated Escherichia coli bacteria induced LMP rapidly in neutrophils. Pretreatment with the NADPH oxidase inhibitor diphenylene iodonium markedly blocked the early LMP and apoptosis in neutrophils stimulated with Type 1-fimbriated bacteria but had no effect on the late LMP seen in spontaneously apoptotic neutrophils. The induced lysosomal destabilization triggered cleavage of the proapoptotic Bcl-2 protein Bid, followed by a decrease in the antiapoptotic protein Mcl-1. Involvement of LMP in initiation of apoptosis is supported by the following observations: Bid cleavage and the concomitant drop in mitochondrial membrane potential required activation of cysteine-cathepsins but not caspases, and the differential effects of inhibitors of cysteine-cathepsins and cathepsin D on apoptosis coincided with their ability to inhibit Bid cleavage in activated neutrophils. Together, these results indicate that in microbe-induced apoptosis in neutrophils, ROS-dependent LMP represents an early event in initiation of the intrinsic apoptotic pathway, which is followed by Bid cleavage, mitochondrial damage, and caspase activation.
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PMID:Cathepsin-cleaved Bid promotes apoptosis in human neutrophils via oxidative stress-induced lysosomal membrane permeabilization. 1726 6

The aim of this study was to verify the hypothesis that beta-carotene may prevent 7-ketocholesterol (7-KC)-induced apoptosis in human macrophages. Therefore, THP-1 macrophages were exposed to 7-KC (5-50 microM) alone and in combination with beta-carotene (0.25-1 microM). 7-KC inhibited the growth of macrophages in a dose- and a time-dependent manner by inducing an arrest of cell cycle progression in the G0/G1 phase and apoptosis. Concomitantly, p53, p21, and Bax expressions were increased by 7-KC, whereas the levels of AKT, Bcl-2, and Bcl-xL were decreased. beta-Carotene prevented the growth-inhibitory effects of 7-KC in a dose- and time-dependent manner as well as the effects of 7-KC on the expression of cell cycle- and apoptosis-related proteins. 7-KC also enhanced reactive oxygen species (ROS) production through an increased expression of NAD(P)H oxidase (NOX-4). The effects of 7-KC were counteracted by the addition of the NAD(P)H oxidase inhibitor DPI or by cotransfection of siNOX-4 mRNA. beta-Carotene prevented 7-KC-induced increase in ROS production and in NOX-4 expression, as well as the phosphorylation of p38, JNK, and ERK1/2 induced by 7-KC. These data suggest a possible antiatherogenic role of beta-carotene through the prevention of 7-KC toxicity in human macrophages.
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PMID:Redox regulation of 7-ketocholesterol-induced apoptosis by beta-carotene in human macrophages. 2537 21

Increases in NADPH oxidase activity, oxidative stress, and myocyte apoptosis coexist in failing hearts. In cardiac myocytes in vitro inhibition of NADPH oxidase reduces apoptosis. In this study, we tested the hypothesis that NADPH oxidase inhibition reduces myocyte apoptosis and improves cardiac function in heart failure after myocardial infarction (MI). Rabbits with heart failure induced by MI and sham-operated animals were randomized to orally receive apocynin, an inhibitor of NADPH oxidase (15 mg per day) or placebo for 4 weeks. Left ventricular (LV) dimension and function were assessed by echocardiography and hemodynamics. Myocardial NADPH oxidase activity was measured by superoxide dismutase-inhibitable cytochrome c reduction assay, NADPH oxidase subunit p47phox expression by Western blot and immunofluorescence analysis, myocardial oxidative stress evaluated by 8-hydroxydeoxyguanosine (8-OHdG) and 4-hydroxy-2-nonenal (4-HNE) using immunohistochemistry, and myocyte apoptosis by TUNEL assay. MI rabbits exhibited LV dilatation and systolic dysfunction measured by LV fractional shortening and the maximal rate of LV pressure rise (dP/dt). These changes were associated with increases in NADPH oxidase activity, p47phox protein expression, 8-OHdG expression, 4-HNE expression, myocyte apoptosis, and Bax protein and a decrease in Bcl-2 protein. Apocynin reduced NADPH oxidase activity, p47phox protein, oxidative stress, myocyte apoptosis, and Bax protein, increased Bcl-2 protein, and ameliorated LV dilatation and dysfunction after MI. The results suggest that inhibition of NADPH oxidase may represent an attractive therapeutic approach to treat heart failure.
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PMID:Inhibition of NADPH oxidase reduces myocardial oxidative stress and apoptosis and improves cardiac function in heart failure after myocardial infarction. 1760 36

Angiotensin II (Ang II) has been found to exert preconditioning (PC)-like effect in mammalian hearts. The present investigation reported for the first time a unique mitogen activated protein (MAP) kinase signalling in Ang II PC of the heart involving lipid rafts, which generated a survival signal by differentially associating MAP kinases with caveolin. A group of rat hearts was treated with Ang II in the absence or presence of NADPH oxidase inhibitor, apocynin or a cell permeable reactive oxygen species (ROS) scavenger, N-acetyl-cysteine (NAC). Ang II pre-treatment improved post-ischaemic ventricular recovery, myocardial infraction and decreased the number of cardiomyocyte apoptosis indicating PC effect of Ang II. Both apocynin and NAC abolished the PC ability of Ang II. In Ang II treated heart, there was a decreased association of p38MAPKbeta & extracellular-signal regulated kinase (ERK) 1/ 2 (anti-death signalling component) with caveolin while there was an increased association of p38MAPKalpha & Jun N-terminal kinase (JNK) (death signalling component) indicating reduced amount of death signal components and increased amount of anti-death signalling components being available to the Ang II treated heart to generate a survival signal, which was reversed with NAC or apocynin. The survival signal was also demonstrated by increased phosphorylation of serine/threonine-protein kinase B (AKT) and enhanced induction of expression of Bcl-2 during Ang II PC and its reversal with NAC & apocynin treated heart.
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PMID:Caveolin and MAP kinase interaction in angiotensin II preconditioning of the myocardium. 2318 34

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