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)

cAMP response element-binding protein (CREB) and activating transcription factor 1 (ATF-1), members of the CREB/ATF family, have been implicated in cAMP- and calcium-induced transcriptional activation. We have previously demonstrated that quenching of CREB-associated proteins in metastatic melanoma cells by a dominant-negative CREB (KCREB) that is mutated within its DNA-binding domain decreased their radiation resistance, and their tumorigenic and metastatic potential in nude mice. As the induction of apoptosis by diverse exogenous signals is dependent on the elevation of intracellular Ca2+, the purpose of this study was to determine the role of CREB and its associated proteins in apoptosis using KCREB. We used thapsigargin (Tg), which inhibits endoplasmic reticulum-dependent Ca2+-ATPase and thereby increases cytosolic Ca2+, to induce apoptosis. MeWo human melanoma cells were transfected with the KCREB expression vector and subsequently analyzed for their susceptibility to Tg-induced apoptosis. Here we demonstrate that expression of KCREB in MeWo cells rendered them susceptible to Tg-induced apoptosis. Tg treatment induced phosphorylation of CREB and possibly ATF-1 transcription factors. Treatment with Tg induced CRE-dependent transcription in parental cells, whereas this activation was reduced in the KCREB-transfected cells. In addition, CAT activity driven by the CRE-dependent promoter was inhibited in parental MeWo cells cotransfected with increasing concentrations of KCREB in a dose-dependent manner. We did not observe any changes in Bcl-2 or Bcl-2-related proteins (Bcl-x, Bax, and Bad) in control or KCREB-transfected cells before or after treatment with Tg. Collectively, these data indicate that CREB and its associated proteins act as survival factors for human melanoma cells, and hence contribute to the acquisition of the malignant phenotype.
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PMID:CREB and its associated proteins act as survival factors for human melanoma cells. 973 94

Apoptosis is a morphologically distinct form of programmed cellular death that plays a central role during embryogenesis, tissue homeostasis, and to remove not necessary or potentially dangerous cells. Moreover, disregulation of genes mediating or modulating apoptosis contributes to the pathogenesis of a number of human diseases, including cancer, autoimmune diseases, neurodegenerative disorders, viral infections and acquired immunodeficiency syndrome. A number of genes and molecules promoting or protective against cell death is at present-day known and an important information about the external and internal signals involved in stimulation and suppression of apoptosis is also emerging. In the intracellular pathway of the death deregulation of [Ca2+](i) plays a pivotal role. Increased ionized intracellular calcium stimulates both the activation of enzymes (protein kinases, endonucleases, proteases and phospholipases) and plasma membrane K+ channels. This calcium-mediated activation leads to morphostructural changes, such as cell shrinkage, cytoplasmatic blebbing, nuclear chromatin condensation and DNA degradation into oligonucleosomal fragments. At least some genes of the cell death pathway have been conserved throughout animal evolution; ced-3 e ced-9 that regulate the initiation of cellular suicide in the nematode Caenorhabditis elegans are homologous to genes that in mammalian cells are thought to play a similar role (interleukin-1 beta converting enzyme [ICE] family, Bcl-2). It is possible to suppose that these regulators could constitute a target for treatment of disorders related with disregulation of apoptosis.
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PMID:[Genes, molecules, and mechanisms regulating programmed cell death]. 973 54

Increased apoptosis has been demonstrated in various forms of human and experimental cardiovascular disease. The role of this phenomenon in the vasculature in different models of hypertension is unclear. In hypertension, regression of vessel wall hypertrophy/hyperplasia or remodeling in response to various antihypertensive drugs may be mediated in part by apoptosis. This study examined vascular smooth muscle apoptosis in spontaneously hypertensive rats (SHR), in which it may presumably counterbalance vascular wall growth. Angiotensin converting enzyme (ACE) inhibitors and calcium channel blockers induce regression of the vascular wall in hypertension. Therefore, we investigated the effect of the ACE inhibitor enalapril and the dihydropyridine calcium channel blocker amlodipine on apoptosis in blood vessels of SHR to determine whether part of the growth inhibitory effect of these drugs is mediated by apoptosis. This was performed by detection and measurement of DNA fragmentation using DNA laddering and examining aortic histologic sections with in situ end-labeling (terminal deoxynucleotide transferase-mediated dUTP-nick labeling [TUNEL]). Ten-week-old SHR were treated for 12 weeks with 10 mg/kg per day of enalapril and 20 mg/kg per day of amlodipine. Blood pressure was significantly reduced by enalapril and amlodipine (P < .01). Cross-sectional area of aorta was significantly increased (3.34+/-0.15 mm2) in SHR compared to that of Wistar-Kyoto (WKY) control rats (1.17+/-0.07 mm2, P < .01). The cross-sectional area of the aorta was significantly smaller in enalapril-treated SHR (2.42+/-0.12 mm2, P < .05) compared to untreated SHR, and almost normalized by amlodipine (1.65+/-0.31 mm2, P < .01). Apoptosis characterized using terminal deoxynucleotidyl transferase to radiolabel 3'-OH ends of fragmented DNA extracted from aorta, showed presence of fragmented labeled DNA as "DNA laddering," a hallmark of apoptosis. SHR had increased apoptosis (341+/-25 pixels/microg DNA) compared to WKY controls (206+/-13 pixels/microg DNA, P < .01). Apoptosis was six- to eightfold greater in aorta of enalapril and amlodipine-treated SHR (P < .01). These results were confirmed by in situ end-labeling of fragmented DNA in aortic histologic sections. Western blot quantification of Bax and Bcl-2 (pro- and antiapoptotic gene products, respectively) showed higher Bax and lower Bcl-2 expression, and accordingly increased the Bax-to-Bcl-2 ratio in aorta from SHR treated with enalapril or amlodipine in comparison to untreated SHR. In conclusion, enhanced apoptosis is present in aorta of SHR, possibly as a homeostatic mechanism counterbalancing growth. Antihypertensive agents such as the ACE inhibitor enalapril and the calcium antagonist amlodipine may cause regression or inhibition of vascular wall growth in SHR partly through enhanced apoptosis, which may contribute to the antihypertensive effects of these drugs.
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PMID:Apoptosis in vasculature of spontaneously hypertensive rats: effect of an angiotensin converting enzyme inhibitor and a calcium channel antagonist. 975 97

Bcl-2 family members either promote or repress programmed cell death. Bax, a death-promoting member, is a pore-forming, mitochondria-associated protein whose mechanism of action is still unknown. During apoptosis, cytochrome C is released from the mitochondria into the cytosol where it binds to APAF-1, a mammalian homologue of Ced-4, and participates in the activation of caspases. The release of cytochrome C has been postulated to be a consequence of the opening of the mitochondrial permeability transition pore (PTP). We now report that Bax is sufficient to trigger the release of cytochrome C from isolated mitochondria. This pathway is distinct from the previously described calcium-inducible, cyclosporin A-sensitive PTP. Rather, the cytochrome C release induced by Bax is facilitated by Mg2+ and cannot be blocked by PTP inhibitors. These results strongly suggest the existence of two distinct mechanisms leading to cytochrome C release: one stimulated by calcium and inhibited by cyclosporin A, the other Bax dependent, Mg2+ sensitive but cyclosporin insensitive.
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PMID:Bax-induced cytochrome C release from mitochondria is independent of the permeability transition pore but highly dependent on Mg2+ ions. 976 33

The proto-oncogene Bcl-2 rescues cells from a wide variety of insults. Recent evidence suggests that Bcl-2 protects against free radicals and that it increases mitochondrial calcium-buffering capacity. The neurotoxicity of 1-methyl-4-phenyl-1,2,3, 6-tetrahydropyride (MPTP) is thought to involve both mitochondrial dysfunction and free radical generation. We therefore investigated MPTP neurotoxicity in both Bcl-2 overexpressing mice and littermate controls. MPTP-induced depletion of dopamine and loss of [3H]mazindol binding were significantly attenuated in Bcl-2 overexpressing mice. Protection was more profound with an acute dosing regimen than with daily MPTP administration over 5 d. 1-Methyl-4-phenylpyridinium (MPP+) levels after MPTP administration were similar in Bcl-2 overexpressing mice and littermates. Bcl-2 blocked MPP+-induced activation of caspases. MPTP-induced increases in free 3-nitrotyrosine levels were blocked in Bcl-2 overexpressing mice. These results indicate that Bcl-2 overexpression protects against MPTP neurotoxicity by mechanisms that may involve both antioxidant activity and inhibition of apoptotic pathways.
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PMID:1-Methyl-4-phenyl-1,2,3,6-tetrahydropyride neurotoxicity is attenuated in mice overexpressing Bcl-2. 976 61

The anti-apoptotic molecule Bcl-2 is located in the mitochondrial and endoplasmic reticulum membranes as well as the nuclear envelope. Although its location has not been as rigorously defined, the pro-apoptotic molecule Bax appears to be mainly a cytosolic protein which translocates to the mitochondria upon induction of apoptosis. Here we identify a protease activity in mitochondria-enriched membrane fractions from HL-60 cells capable of cleaving Bax which is absent from the cytosolic fraction. Bax protease activity is blocked in vitro by cysteine protease inhibitors including E-64 which distinguishes it from all known caspases and granzyme B, both of which are involved in apoptosis. Protease activity is also blocked by inhibitors against the calcium-activated neutral cysteine endopeptidase calpain. Partial purification of the Bax protease activity from HL-60 cell membrane fractions by column chromatography revealed that a calpain-like activity was the protease responsible for Bax cleavage. In addition, purified calpain enzymes cleaved Bax in a calcium-dependent manner. Pretreatment of HL-60 cells with the specific calpain inhibitor calpeptin effectively blocked both drug-induced Bax cleavage and calpain activation, but not PARP cleavage or cell death. These results suggest that calpains and caspases are activated during drug-induced apoptosis and that calpains, along with caspases, may be involved in modulating cell death by acting selectively on cellular substrates.
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PMID:Bax cleavage is mediated by calpain during drug-induced apoptosis. 976 17

The murine TS1alphabeta T cell line expresses the anti-apoptotic protein Bcl-2 upon IL-2 stimulation, whereas IL-4-mediated growth of this cell line proceeds in the absence of Bcl-2 expression. In addition, IL-4 stimulation inhibits Bcl-2 expression and modulates its mRNA level. IL-2-induced DNA binding activity for these transcription factors is sensitive to phosphatidylinositol 3 kinase inhibitor wortmannin and to Rho inhibitor Clostridium difficile toxin B, which inhibit IL-2-induced Bcl-2 expression. NF-AT transcription factor appears to be the most important in the control Bcl-2 expression, since inhibition of the calcium-calmodulin-dependent phosphatase calcineurin, which regulates NF-AT activity, downregulates Bcl-2 expression in IL-2-stimulated cells. Constitutive expression of this phosphatase also upregulates Bcl-2 expression in IL-4-stimulated cells. In addition, a dominant negative NF-AT expression vector downregulates Bcl-2 expression in IL-2-stimulated cells. These results suggest that IL-2 induction of Bcl-2 expression may be directly or indirectly mediated by NF-AT.
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PMID:The Bcl-2 gene is differentially regulated by IL-2 and IL-4: role of the transcription factor NF-AT. 977 66

Members of the bcl-2 gene family encode proteins that function either to promote or to inhibit apoptosis. Despite numerous efforts, the mechanism of action of Bcl-2, an anti-apoptotic protein, is still not clear. In particular, the relation between Bcl-2 and the endoplasmic reticulum (ER) calcium store is not well-understood. In the present work, we examined the effect of Bcl-2 on the ER store. We demonstrate that overexpression of Bcl-2 in breast epithelial cells modulates ER store by upregulating calcium pump (SERCA) expression without affecting the release channel (IP3R). The steady state levels of SERCA2 mRNA and protein were both increased in Bcl-2 expression clones. The increase in SERCA2 protein leads to accelerated calcium uptake and enhanced Ca2+ loading. In addition, we also show the detection of intracellular interaction between Bcl-2 and SERCA molecules by co-immunoprecipitation. Since high lumenal Ca2+ concentration of ER is essential for normal cell functions, the results suggest that Bcl-2 preserves the ER Ca2+ store by upregulating SERCA gene expression as well as by a possible interaction with the pump.
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PMID:Modulation of endoplasmic reticulum calcium pump by Bcl-2. 978 33

Lectins induce apoptosis in a wide variety of cell types but the mechanisms of apoptotic induction are unknown. We examined the role of mitochondrial membrane potential (Psi m) in concanavalin A-induced apoptosis in human diploid fibroblasts. Cells were treated with Con A for 0.5, 1, 3, 5, and 24 h. Con A induced a time-dependent increase of the proportion of TUNEL+ ve cells over 24 h. Psi m was examined by staining cells with the mitochondria-specific fluorescent cationic dye JC-1. Comparison of JC-1 fluorescence within mitochondria by flow cytometry showed that after 3 h, Con A reduced Psi m in a subpopulation of apoptotic cells with smaller cell volume and with apoptotic nuclear morphology. In contrast, Psi m was unchanged in a separate population of viable cells with normal volume and normal nuclear morphology. Cyclosporin A protected cells against reduction of Psi m and also against nuclear condensation and morphological apoptosis. Measurement of intracellular calcium ion concentration ([Ca2+]i) by ratio fluorimetry of fura 2-loaded cells showed that Con A did not affect [Ca2+]i in viable cells but induced a progressive depletion of [Ca2+]i with generation of calcium oscillations in apoptotic cells. Assessment of Bcl-2 in Con A-treated cells demonstrated an initially strong increase in Bcl-2 protein and mRNA but the appearance of degraded Bcl-2 protein at 3 and 5 h after treatment, indicating an inadequate protective response to the Con A stimulation. Collectively, these data indicate that lectin-induced apoptosis in fibroblasts is associated with breakdown of Psi m, loss of [Ca2+]i homeostasis, and induced Bcl-2 expression.
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PMID:Role of mitochondrial membrane potential in concanavalin A-induced apoptosis in human fibroblasts. 982 13

Cytochrome c release and the mitochondrial permeability transition (PT), including loss of the transmembrane potential (Deltapsi), play an important role in apoptosis. Using isolated mitochondria, we found that recombinant Bax and Bak, proapoptotic members of the Bcl-2 family, induced mitochondrial Deltapsi loss, swelling, and cytochrome c release. All of these changes were dependent on Ca2+ and were prevented by cyclosporin A (CsA) and bongkrekic acid, both of which close the PT pores (megachannels), indicating that Bax- and Bak-induced mitochondrial changes were mediated through the opening of these pores. Bax-induced mitochondrial changes were inhibited by recombinant Bcl-xL and transgene-derived Bcl-2, antiapoptotic members of the Bcl-2 family, as well as by oligomycin, suggesting a possible regulatory effect of F0F1-ATPase on Bax-induced mitochondrial changes. Proapoptotic Bax- and Bak-BH3 (Bcl-2 homology) peptides, but not a mutant BH3 peptide nor a mutant Bak lacking BH3, induced the mitochondrial changes, indicating an essential role of the BH3 region. A coimmunoprecipitation study revealed that Bax and Bak interacted with the voltage-dependent anion channel, which is a component of PT pores. Taken together, these findings suggest that proapoptotic Bcl-2 family proteins, including Bax and Bak, induce the mitochondrial PT and cytochrome c release by interacting with the PT pores.
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PMID:Bax interacts with the permeability transition pore to induce permeability transition and cytochrome c release in isolated mitochondria. 984 49

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