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Query: UNIPROT:P10415 (
Bcl-2
)
33,771
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The oncogene bcl-2 encodes a 26-kD protein localized to intracellular membranes, including the ER, mitochondria, and perinuclear membrane, but its mechanism of action is unknown. We have been investigating the hypothesis that
Bcl-2
regulates the movement of
calcium
ions (
Ca2+
) through the ER membrane. Earlier findings in this laboratory indicated that
Bcl-2
reduces
Ca2+
efflux from the ER lumen in WEHI7.2 lymphoma cells treated with the Ca2+-ATPase inhibitor thapsigargin (TG) but does not prevent capacitative entry of extracellular
calcium
. In this report, we show that sustained elevation of cytosolic
Ca2+
due to capacitative entry is not required for induction of apoptosis by TG, suggesting that ER
calcium
pool depletion may trigger apoptosis.
Bcl-2
overexpression maintains
Ca2+
uptake in the ER of TG-treated cells and prevents a TG-imposed delay in intralumenal processing of the endogenous glycoprotein cathepsin D. Also,
Bcl-2
overexpression preserves the ER
Ca2+
pool in untreated cells when extracellular
Ca2+
is low. However, low extracellular
Ca2+
reduces the antiapoptotic action of
Bcl-2
, suggesting that cytosolic
Ca2+
elevation due to capacitative entry may be required for optimal ER pool filling and apoptosis inhibition by
Bcl-2
. In summary, the findings suggest that
Bcl-2
maintains
Ca2+
homeostasis within the ER, thereby inhibiting apoptosis induction by TG.
...
PMID:Maintenance of calcium homeostasis in the endoplasmic reticulum by Bcl-2. 929 78
Animal models of motor neurone disease (MND) are being increasingly used for screening molecules with clinical potential. A number of different treatments to decrease the progression of neuronal cell loss have been proposed; these include:
Bcl-2
(B-cell leukaemia oncogene-2), neurotrophic factors, glutamate receptor inhibitors and
Ca2+
channel antagonists. In this review Yves Sagot, Richard Vejsada and Ann C. Kato focus on the effects of neurotrophic factors and
Bcl-2
, both of which have been shown to prevent cell death in various experimental paradigms. Studies performed in animal models of MND have confirmed the potential of these molecules to support motoneurone survival. Some of them have been shown to act in synergy and these results are discussed in the context of molecular mechanisms leading to collaborative and synergistic activities, and also with respect to presumptive subpopulations of motoneurones, which express diverse receptors for neurotrophic factors. Finally, the current status of clinical trials for amyotrophic lateral sclerosis using neurotrophic factors will be discussed, as well as recent reports that neurotrophic factors can exert adverse effects on neuronal survival.
...
PMID:Clinical and molecular aspects of motoneurone diseases: animal models, neurotrophic factors and Bcl-2 oncoprotein. 934 52
The aim of this study was to determine the mechanisms responsible for the growth inhibitory effect of hyperthermia and verapamil in human colon cancer cell line HT-29. Apoptotic cell death was verified by flow cytometry analysis. The effect of treatment with hyperthermia and verapamil on the expression of apoptosis-associated proteins including
Bcl-2
, p53, bax, and c-Myc was studied by Western blot analysis. Changes in intracellular
calcium
homeostasis was analysed by fluorescence microscopy. The combination of 42 degrees C hyperthermia and verapamil caused a significant delay of human colon cancer cell proliferation as a result of apoptosis. Administration of these agents alone did not cause any cell inhibitory effect. Our experiments have shown that HT-29 cells constitutively express apoptosis-promoting proteins, such as Bax and c-Myc, while they fail to produce
Bcl-2
. Therefore, we hypothesize that HT-29 cells must have
Bcl-2
independent pathways to protect cells against death-inducing signals. Also, apoptosis of HT-29 cells produced by hyperthermia in the presence of verapamil is a p53-independent process. Verapamil, when it did not act as a calcium channel blocker or inhibitor of release from intracellular storages under hyperthermic conditions, accelerated the increase of [
Ca2+
]i in HT-29 cells which resulted in programmed cell death (apoptosis).
...
PMID:Apoptosis induced by hyperthermia and verapamil in vitro in a human colon cancer cell line. 935 39
Apoptosis and survival of diverse cell types are under hormonal control, but intracellular mechanisms regulating cell death are unclear. The
Bcl-2
/Ced-9 family of proteins contains conserved
Bcl-2
homology regions that mediate the formation of homo- or heterodimers important for enhancing or suppressing apoptosis. Unlike most other members of the
Bcl-2
family, BAD (Bcl-xL/
Bcl-2
associated death promoter), a death enhancer, has no C-terminal transmembrane domain for targeting to the outer mitochondrial membrane and nuclear envelope. We hypothesized that BAD, in addition to binding Bcl-xL and
Bcl-2
, may interact with proteins outside the
Bcl-2
family. Using the yeast two-hybrid system to search for BAD-binding proteins in an ovarian fusion cDNA library, we identified multiple cDNA clones encoding different isoforms of 14-3-3, a group of evolutionally conserved proteins essential for signal transduction and cell cycle progression. Point mutation of BAD in one (S137A), but not the other (S113A), putative binding site found in diverse 14-3-3 interacting proteins abolished the interaction between BAD and 14-3-3 without affecting interactions between BAD and
Bcl-2
. Because the S137A BAD mutant presumably resembles an underphosphorylated form of BAD, we used this mutant to screen for additional BAD-interacting proteins in the yeast two-hybrid system. P11, a nerve growth factor-induced neurite extension factor and member of the
calcium
-binding S-100 protein family, interacted strongly with the mutant BAD but less effectively with the wild type protein. In Chinese hamster ovary (CHO) cells, transient expression of wild type BAD or its mutants increased apoptotic cell death, which was blocked by cotransfection with the baculovirus-derived cysteine protease inhibitor, P35. Cotransfection with 14-3-3 suppressed apoptosis induced by wild type or the S113A mutant BAD but not by the S137A mutant incapable of binding 14-3-3. Furthermore, cotransfection with P11 attenuated the proapoptotic effect of both wild type BAD and the S137A mutant. For both 14-3-3 and P11, direct binding to BAD was also demonstrated in vitro. These results suggest that both 14-3-3 and P11 may function as BAD-binding proteins to dampen its apoptotic activity. Because the 14-3-3 family of proteins could interact with key signaling proteins including Raf-1 kinase, protein kinase C, and phosphatidyl inositol 3 kinase, whereas P11 is an early response gene induced by the neuronal survival factor, nerve growth factor, the present findings suggest that BAD plays an important role in mediating communication between different signal transduction pathways regulated by hormonal signals and the apoptotic mechanism controlled by
Bcl-2
family members.
...
PMID:Interference of BAD (Bcl-xL/Bcl-2-associated death promoter)-induced apoptosis in mammalian cells by 14-3-3 isoforms and P11. 936 53
Transient elevation of cytosolic
Ca2+
induces the expression of a variety of genes involved in cell growth and transformation, including the early response gene c-fos. Previously, we reported that
Bcl-2
inhibits the transient elevation of cytosolic
Ca2+
induced by thapsigargin (TG), a selective inhibitor of the endoplasmic reticulum-associated Ca2+-ATPase. Therefore, to determine if the effect of
Bcl-2
on cytosolic
Ca2+
elevation modulates
Ca2+
signaling, we investigated the induction of c-fos by TG in WEHI7.2 mouse lymphoma cells, control transfectants (WEHI7.2-neo), and transfectants that stably express a high level of
Bcl-2
(W.Hb12 and W.Hb15). TG induced 20-fold elevation of c-fos mRNA in WEHI7.2 and WEHI7.2-neo cells, but c-fos mRNA induction by TG was only fivefold in W.Hb12 and W.Hb15 cells. In contrast, phorbol 12-myristate acetate induced marked c-fos mRNA elevation in both WEHI7.2 and W.Hb12 cells, indicating that the inhibitory effect of
Bcl-2
is selective for induction of c-fos by
Ca2+
. To measure c-fos promoter activity, WEHI7.2 and W.Hb12 cells were transiently transfected with a c-fos promoter-luciferase reporter plasmid. TG induced c-fos promoter activity in WEHI7.2 cells, but not in W.Hb12 cells. In WEHI7.2 cells, the signal for c-fos induction by TG was cytosolic
Ca2+
elevation, as the increase in both c-fos mRNA level and promoter activity were prevented by lowering extracellular
Ca2+
concentration, a condition that inhibits cytosolic
Ca2+
elevation by reducing the TG-mobilizable
Ca2+
pool. In summary, the findings indicate that
Bcl-2
regulates
Ca2+
signaling.
...
PMID:Bcl-2 inhibits c-fos induction by calcium. 941 76
Valinomycin is a potassium ionophore, and is well known to cause the collapse of the mitochondrial membrane potential. It has been reported that loss of mitochondrial membrane potential is observed in the early stages of apoptosis induced by various agents. Thus, the effects of valinomycin on tumor cells were examined. Valinomycin induced uncoupling of respiration and depolarization of isolated mitochondria. Depolarization of intact mitochondria in AH-130 rat ascites hepatoma cells was also induced by valinomycin. Valinomycin induced apoptosis revealing the typical apoptotic characteristics such as fragmentation and ladder formation of DNA, shrinkage of cells, and formation of pycnotic nucleus. There was a correlation between the depolarization of mitochondria and DNA fragmentation. After depolarization of mitochondria, the activity of caspase-3-like protease but not caspase-1-like protease increased markedly. In contrast, this apoptosis did not involve the release of reactive oxygen species from mitochondria, increase in intracellular
calcium
concentration, or protein synthesis. In addition, anti-apoptotic members of the
Bcl-2
family (Bcl-xL and
Bcl-2
) were not correlated with apoptosis. These results indicate that valinomycin might induce apoptosis through degradation of the mitochondrial membrane potential. Taken together, these observations suggest that there may be a mechanism that transmits the signal from mitochondrial depolarization to subsequent apoptosis execution steps.
...
PMID:Valinomycin induces apoptosis of ascites hepatoma cells (AH-130) in relation to mitochondrial membrane potential. 943 61
Resistance to apoptosis is a frequent characteristic of cancer cells and participates both in the initial phase of carcinogenesis and in the development of chemotherapy resistance. Recently, it has become clear that a disruption in mitochondrial membrane function is a decisive event of the apoptotic process leading to the disposal of chemotherapy-treated cells. Opening of the mitochondrial megachannel (also called permeability transition pore) is at least in part responsible for the disruption of mitochondrial membrane integrity in apoptosis. The megachannel is regulated by numerous endogenous effectors including members of the
Bcl-2
/Bax family, the redox status of the cell, cytosolic
Ca2+
levels, ceramide, and amphipathic peptides. Chemotherapeutic agents may induce opening of the megachannel by modulating some of these endogenous effectors. The disruption of mitochondrial membrane integrity involves a loss of metabolic functions and the liberation of intermembrane proteins into the cytosol. Such proteins, which normally are well secluded in mitochondria, include cytochrome c and AIF (apoptosis inducing factor), which both activate caspases and endonucleases upon release into the cytosol. Strategies for the development of chemotherapeutic agents acting on mitochondria are discussed.
...
PMID:Mitochondria in chemotherapy-induced apoptosis: a prospective novel target of cancer therapy (review). 945 98
The human Burkitt lymphoma Ramos B cell line can be induced to undergo apoptosis in response to a variety of different agents, including
calcium
ionophores, anti-immunoglobulin (Ig) and macromolecular synthesis inhibitors. In addition, following up-regulation of the Fas (CD95) surface receptor by CD40 ligation, these cells also become susceptible to apoptosis induction by Fas ligation. We have previously shown that protection from
calcium
ionophore- and macromolecular synthesis inhibitor-induced apoptosis by CD40 ligation is associated with a rapid up-regulation of Bcl-xL followed by a more moderate and delayed up-regulation of
Bcl-2
. We show here that overexpression of Bcl-xL, like
Bcl-2
, protects Ramos cells from apoptosis induction in response to
calcium
ionophore, anti-Ig and macromolecular synthesis inhibition. However, in contrast to
Bcl-2
, ectopic overexpression of Bcl-xL does not rescue from Fas-mediated apoptosis. Thus, in Ramos B cells, the Fas apoptotic pathway exhibits differential sensitivity to inhibition by
Bcl-2
family members. These findings also suggest that CD40 signaling provides a switch which renders the cells susceptible to Fas-ligand mediated apoptosis through up-regulation of Fas whilst affording protection from anti-Ig-induced apoptosis through up-regulation of Bcl-xL.
...
PMID:Ectopic expression of Bcl-2, but not Bcl-xL rescues Ramos B cells from Fas-mediated apoptosis. 946 38
We and others have recently shown that loss of the mitochondrial membrane potential (Deltapsi) precedes apoptosis and chemical-hypoxia-induced necrosis and is prevented by
Bcl-2
. In this report, we examine the biochemical mechanism used by
Bcl-2
to prevent Deltapsi loss, as determined with mitochondria isolated from a cell line overexpressing human
Bcl-2
or from livers of
Bcl-2
transgenic mice. Although
Bcl-2
had no effect on the respiration rate of isolated mitochondria, it prevented both Deltapsi loss and the permeability transition (PT) induced by various reagents, including
Ca2+
, H2O2, and tert-butyl hydroperoxide. Even under conditions that did not allow PT,
Bcl-2
maintained Deltapsi, suggesting that the functional target of
Bcl-2
is regulation of Deltapsi but not PT.
Bcl-2
also maintained Deltapsi in the presence of the protonophore SF6847, which induces proton influx, suggesting that
Bcl-2
regulates ion transport to maintain Deltapsi. Although treatment with SF6847 in the absence of
Ca2+
caused massive H+ influx in control mitochondria, the presence of
Bcl-2
induced H+ efflux after transient H+ influx. In this case,
Bcl-2
did not enhance K+ efflux. Furthermore,
Bcl-2
enhanced H+ efflux but not K+ flux after treatment of mitochondria with
Ca2+
or tert-butyl hydroperoxide. These results suggest that
Bcl-2
maintains Deltapsi by enhancing H+ efflux in the presence of Deltapsi-loss-inducing stimuli.
...
PMID:Bcl-2 prevents apoptotic mitochondrial dysfunction by regulating proton flux. 946 36
The bacterial alkaloid staurosporine is widely employed as an inducer of apoptosis in many cell types including neurons. The intracellular cascades that mediate staurosporine-induced apoptosis are largely unknown. Exposure of cultured PC12 cells to staurosporine resulted in a rapid (min) and prolonged (1-6 hr) elevation of intracellular free
calcium
levels [
Ca2+
]i, accumulation of mitochondrial reactive oxygen species (ROS), and decreased mitochondrial 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) reduction (1-4 hr). These early events were followed by membrane lipid peroxidation, loss of mitochondrial transmembrane potential, and nuclear apoptotic changes. Treatment of cells with serum or nerve growth factor within 1-2 hr of staurosporine exposure resulted in recovery of [
Ca2+
]i and ROS levels, and rescued the cells from apoptosis. The increased [
Ca2+
]i and ROS production were required for staurosporine-induced apoptosis because the intracellular
calcium
chelator BAPTA and uric acid (an agent that scavenges peroxynitrite) each protected cells against apoptosis. The caspase inhibitor zVAD-fmk and the anti-apoptotic gene product
Bcl-2
prevented the sustained [
Ca2+
]i increase and ROS accumulation induced by staurosporine indicating that caspases act very early in the apoptotic process. Our data indicate that a [
Ca2+
]i increase is an early and critical event in staurosporine-induced apoptosis that engages a cell death pathway involving ROS production, oxidative stress, and mitochondrial dysfunction.
...
PMID:Calcium and reactive oxygen species mediate staurosporine-induced mitochondrial dysfunction and apoptosis in PC12 cells. 948 65
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