Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The oncogenic protein Bcl-2 which is expressed in membranes of different subcellular organelles protects cells from apoptosis induced by endogenic stimuli. Most of the results published so far emphasise the importance of Bcl-2 at the mitochondria. Several recent observations suggest a role of Bcl-2 at the endoplasmic reticulum (ER). Bcl-2 located at the ER was shown to interfere with apoptosis induction by Bax, ceramides, ionising radiation, serum withdrawal and c-myc expression. Although the detailed functions of Bcl-2 at the ER remain elusive, several speculative mechanisms may be supposed. For instance, Bcl-2 at the ER may regulate calcium fluxes between the ER and the mitochondria. In addition, Bcl-2 is able to interact with the endoplasmic protein Bap31 thus avoiding caspase activation at the ER. Bcl-2 may also abrogate the function of ER located pro-apoptotic Bcl-2 like proteins by heterodimerization. Current data on the function of Bcl-2 at the ER, its role for the modulation of calcium fluxes and its influence on caspase activation at the ER are reviewed.
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PMID:New insights in the role of Bcl-2 Bcl-2 and the endoplasmic reticulum. 1220 77

Apoptosis, a molecularly regulated form of cell death, is essential for the normal functioning and homeostasis of most multicellular organisms, and can be induced by a range of environmental, physical, and chemical stresses. As the cellular decision to live or to die is made by the coordinated action and balancing of many different pro- and antiapoptotic factors, defects in control of this coordination and balance may contribute to a variety of human diseases, including cancer and autoimmune and neurodegenerative conditions. In recent years, multiple factors associated with the execution of apoptosis, such as caspases and Bcl-2 family members, have been discovered and their complicated signaling and molecular interactions have been demonstrated; however, the precise mechanistic basis for intracellular and/or extracellular stress-induced apoptosis remains to be fully characterized. Protein kinases contribute to regulation of life and death decisions made in response to various stress signals, and the actions of pro- and antiapoptotic factors are often affected by modulation of the phosphorylation status of key elements in the execution of apoptosis. Apoptosis signal-regulating kinase 1 (ASK1) is a member of the mitogen-activated protein (MAP) kinase kinase kinase family, which activates both the MKK4/MKK7-JNK and MKK3/MKK6-p38 MAP kinase pathways and constitutes a pivotal signaling pathway in various types of stress-induced apoptosis. We have recently shown through ASK1 gene ablation in mice that ASK1 plays essential roles in oxidative stress- and endoplasmic reticulum (ER) stress-induced apoptosis. These stresses are closely linked to physiological phenomena in the control of cell fate, and the resultant apoptosis is implicated in the pathophysiology of a broad range of human diseases. This article reviews our new findings on the physiological roles of ASK1-mediated signal transduction in stress responses and the molecular mechanisms by which ASK1 determines cell fate such as survival, differentiation, or apoptosis, with special focus on the regulatory mechanisms of ASK1-mediated apoptosis induced by oxidative stress and ER stress.
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PMID:Physiological roles of ASK1-mediated signal transduction in oxidative stress- and endoplasmic reticulum stress-induced apoptosis: advanced findings from ASK1 knockout mice. 1221 9

Photodynamic therapy using the photosensitizer Pc 4 and red light photochemically destroys the antiapoptotic protein Bcl-2 and induces apoptosis. To characterize the requirements for photodamage, we transiently transfected epitope-tagged Bcl-2 deletion mutants into DU-145 cells. Using confocal microscopy and Western blots, wild-type Bcl-2 and mutants with deletions near the N terminus were found in mitochondria, endoplasmic reticulum, and nuclear membranes and were photodamaged. A mutant missing the C terminus, including the transmembrane domain, spread diffusely in cells and was not photodamaged. Bcl-2 missing alpha-helices 5/6 was also not photodamaged. Bcl-2 missing only one of those alpha-helices, with or without substitutions of the singlet oxygen-targeted amino acids, behaved like wild-type Bcl-2 with respect to localization and photodamage. Using green fluorescent protein (GFP)-tagged Bcl-2 or mutants in live cells, no change in either the localization or the intensity of GFP fluorescence was observed in response to Pc 4 photodynamic therapy. Western blot analysis of either GFP- or Xpress-tagged Bcl-2 revealed that the photodynamic therapy-induced disappearance of the Bcl-2 band was accompanied by the appearance of bands indicative of heavily cross-linked Bcl-2 protein. Therefore, the alpha(5)/alpha(6) region of Bcl-2 is required for photodamage and cross-linking, and domain-dependent photodamage to Bcl-2 offers a unique mechanism for activation of apoptosis.
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PMID:Domain-dependent photodamage to Bcl-2. A membrane anchorage region is needed to form the target of phthalocyanine photosensitization. 1237 60

Mutations in the presenilin-1 (PS1) gene cause early onset familial Alzheimer's disease (FAD) by a mechanism believed to involve perturbed endoplasmic reticulum (ER) function and altered proteolytic processing of the amyloid precursor protein. We investigated the molecular mechanisms underlying cell death and ER dysfunction in cultured cells and knock-in mice expressing FAD PS1 mutations. We report that PS1 mutations cause a marked increase in basal protein levels of the pro-apoptotic transcription factor Gadd153. PS1 mutations increase Gadd153 protein translation without affecting mRNA levels, while decreasing levels of the anti-apoptotic protein Bcl-2. Moreover, an exaggerated Gadd153 response to stress induced by ER stress agents was observed in PS1 mutant cells. Cell death in response to ER stress is enhanced by PS1 mutations, and this endangering effect is attenuated by anti-sense-mediated suppression of Gadd153 production. An abnormality in the translational regulation of Gadd153 may sensitize cells to the detrimental effects of ER stress and contribute to the pathogenic actions of PS1 mutations in FAD.
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PMID:Involvement of Gadd153 in the pathogenic action of presenilin-1 mutations. 1239 May 29

Bcl-2 family members have been shown to be key mediators of apoptosis as either pro- or anti-apoptotic factors. It is thought that both classes of Bcl-2 family members act at the level of the mitochondria to regulate apoptosis, although the founding anti-apoptotic family member, Bcl-2 is localized to the endoplasmic reticulum (ER), mitochondrial, and nuclear membranes. In order to better understand the effect of Bcl-2 localization on its activity, we have utilized a Bcl-2 mutant that localizes only to the ER membrane, designated Bcl-2Cb5. Bcl-2Cb5 was expressed in MDA-MB-468 cells, which protected against apoptosis induced by the kinase inhibitor, staurosporine. Data presented here show that Bcl-2Cb5 inhibits this process by blocking Bax activation and cytochrome c release. Furthermore, we show that Bcl-2Cb5 can inhibit the activation of a constitutively mitochondrial mutant of Bax, indicating that an intermediate between Bcl-2 on the ER and Bax on the mitochondria must exist. We demonstrate that this intermediate is likely a BH3-only subfamily member. Data presented here show that Bcl-2Cb5 can sequester a constitutively active form of Bad (Bad3A) from the mitochondria and prevent it from activating Bax. These data suggest that Bcl-2 indirectly protects mitochondrial membranes from Bax, via BH3-only proteins.
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PMID:Bcl-2 on the endoplasmic reticulum regulates Bax activity by binding to BH3-only proteins. 1247 29

The mechanism of endoplasmic reticulum (ER)-mediated apoptosis in neurons was examined. Using primary cortical neurons, we show that nordihydroguaiaretic acid (NDGA) and brefeldin A (BFA), two ER stressors, induce early ER stress as shown by Western blotting of the eukaryotic initiation factor-2alpha (eIF2alpha), an ER stress marker. This event was associated with an enhancement of neuronal apoptosis as demonstrated by the time-dependent increase in caspase-3 activity and by nuclear fragmentation. The study of the apoptotic signaling showed the translocation of cytochrome c from the mitochondrial matrix to the cytosol. Further evaluation of the apoptotic process revealed that NDGA and BFA induced a rapid dephosphorylation of BAD and decrease expression of Bcl-2. Altogether, our results indicate that neuronal ER stress is associated with an apoptotic cascade involving the mitochondria.
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PMID:BAD and Bcl-2 regulation are early events linking neuronal endoplasmic reticulum stress to mitochondria-mediated apoptosis. 1253 34

The endoplasmic reticulum (ER) is a multifunctional signaling organelle that controls a wide range of cellular processes such as the entry and release of Ca(2+), sterol biosynthesis, apoptosis and the release of arachidonic acid (AA). One of its primary functions is as a source of the Ca(2+) signals that are released through either inositol 1,4,5-trisphosphate (InsP(3)) or ryanodine receptors (RYRs). Since these receptors are Ca(2+)-sensitive, the ER functions as an excitable system capable of spreading signals throughout the cell through a process of Ca(2+)-induced Ca(2+) release (CICR). This regenerative capacity is particularly important in the control of muscle cells and neurons. Its role as an internal reservoir of Ca(2+) must be accommodated with its other major role in protein synthesis where a constant luminal level of Ca(2+) is essential for protein folding. The ER has a number of stress signaling pathways that activate various transcriptional cascades that regulate the luminal content of the Ca(2+)-dependent chaperones responsible for the folding and packaging of secretory proteins.Another emerging function of the ER is to regulate apoptosis by operating in tandem with mitochondria. Anti-apoptotic regulators of apoptosis such as Bcl-2 may act by reducing the ebb and flow of Ca(2+) through the ER/mitochondrial couple. Conversely, the presenilins that appear to increase the Ca(2+) content of the ER lumen make cells more susceptible to apoptosis.
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PMID:The endoplasmic reticulum: a multifunctional signaling organelle. 1254 86

Mutations on presenilins are responsible for most of familial forms of Alzheimer's disease. These holoproteins undergo rapid maturation by presenilinase mainly in the endoplasmic reticulum, leading to the production of N- and C-terminal fragments. We show first that overexpression of the presenilinase-derived maturation product of presenilin 2 (CTF-PS2) increases Abeta recovery, the production of which is almost abolished by a caspase 3 inhibitor and increased by staurosporine. This and the observation that the apoptotic inducer staurosporine enhances CTF-PS2 degradation clearly link CTF-PS2 to apoptotic cascade effectors. This prompted us to analyze the putative ability of CTF-PS2 to modulate cell death. CTF-PS2 overexpression decreases cell viability and augments both caspase 3 activity and immunoreactivity. This is accompanied by lowered bcl2-like immunoreactivity and increased poly(ADP-ribose) polymerase cleavage and cytochrome c translocation into the cytosol. Interestingly, CTF-PS2-induced caspase 3 activation is prevented by pifithrin-alpha, a selective blocker of p53 transcriptional activity. On line with the latter data, CTF-PS2 drastically increases p53 immunoreactivity and transcriptional activity. Of most interest is our observation that CTF-PS2 expression also triggers increased caspase 3 activity and immunoreactivity in fibroblasts in which presenilins had been deleted. Therefore, CTF-PS2 could modulate cell death out of the NTF/CTF heterodimeric complex thought to correspond to the biologically functional entity. This is the first direct demonstration that CTF-PS2 could exhibit some of its functions in the absence of the presenilin 2 N-terminal fragment (NTF-PS2) counterpart derived from the presenilinase cleavage.
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PMID:The C-terminal fragment of presenilin 2 triggers p53-mediated staurosporine-induced apoptosis, a function independent of the presenilinase-derived N-terminal counterpart. 1255 43

Cellular Ca2+ signals are crucial in the control of most physiological processes, cell injury and programmed cell death through the regulation of a number of Ca2+-dependent enzymes such as phospholipases, proteases, and nucleases. Mitochondria along with the endoplasmic reticulum play pivotal roles in regulating intracellular Ca2+ content. Mitochondria are endowed with multiple Ca2+ transport mechanisms by which they take up and release Ca2+ across their inner membrane. During cellular Ca2+ overload, mitochondria take up cytosolic Ca2+, which in turn induces opening of permeability transition pores and disrupts the mitochondrial membrane potential (deltapsim). The collapse of deltapsim along with the release of cytochrome c from mitochondria is followed by the activation of caspases, nuclear fragmentation and cell death. Members of the Bcl-2 family are a group of proteins that play important roles in apoptosis regulation. Members of this family appear to differentially regulate intracellular Ca2+ level. Translocation of Bax, an apoptotic signaling protein, from the cytosol to the mitochondrial membrane is another step in this apoptosis signaling pathway.
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PMID:Mitochondria, calcium and pro-apoptotic proteins as mediators in cell death signaling. 1256 19

Evidence in the literature implicating both Ras-like Ras (R-Ras) and intracellular Ca(2+) in programmed cell death and integrin-mediated adhesion prompted us to investigate the possibility that R-Ras alters cellular Ca(2+) handling. Chinese hamster ovary cells expressing the cholecystokinin (CCK)-A receptor were loaded with indo-1 to study the effects of constitutively active V38R-Ras and dominant negative N43R-Ras on the kinetics of the thapsigargin (Tg)- and CCK(8)-induced Ca(2+) rises using high speed confocal microscopy. In the absence of extracellular Ca(2+), both 1 microm Tg, a potent and selective inhibitor of the Ca(2+) pump of the intracellular Ca(2+) store, and 100 nm CCK(8) evoked a transient rise in Ca(2+), the size of which was decreased significantly after expression of V38R-Ras. At 0.1 nm, CCK(8) evoked periodic Ca(2+) rises. The frequency of these Ca(2+) oscillations was reduced significantly in V38R-Ras-expressing cells. In contrast to V38R-Ras, N43R-Ras did not alter the kinetics of the Tg- and CCK(8)-induced Ca(2+) rises. The present findings are compatible with the idea that V38R-Ras expression increases the passive leak of Ca(2+) of the store leading to a decrease in Ca(2+) content of this store, which, in turn, leads to a decrease in frequency of the CCK(8)-induced cytosolic Ca(2+) oscillations. The effect of V38R-Ras on the Ca(2+) content of the intracellular Ca(2+) store closely resembles that of the antiapoptotic protein Bcl-2 observed earlier. Together with reports on the role of dynamic Ca(2+) changes in integrin-mediated adhesion, this leads us to propose that the reduction in endoplasmic reticulum Ca(2+) content may underlie the antiapoptotic effect of R-Ras, whereas the decrease in frequency of stimulus-induced Ca(2+) oscillations may play a role in the inhibitory effect of R-Ras on stimulus-induced cell detachment and migration.
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PMID:R-Ras alters Ca2+ homeostasis by increasing the Ca2+ leak across the endoplasmic reticular membrane. 1258 30


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