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)

Permeabilization of the outer mitochondrial membrane is the point of no return in most programmed cell deaths. This critical step is mainly regulated by the various protein-protein and protein-membrane interactions of the Bcl-2 family proteins. The two main models for regulation of mitochondrial outer membrane permeabilization, direct activation and displacement do not account for all of the experimental data and both largely neglect the importance of the membrane. We propose the embedding together model to emphasize the critical importance of Bcl-2 family protein interactions with and within membranes. The embedding together model proposes that both pro- and anti-apoptotic Bcl-2 family proteins engage in similar dynamic interactions that are governed by membrane dependent conformational changes and culminate in either aborted or productive membrane permeabilization depending on the final oligomeric state of pro-apoptotic Bax and/or Bak.
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PMID:Embedded together: the life and death consequences of interaction of the Bcl-2 family with membranes. 1745 59

The plasma membrane as well as the mitochondrial outer and inner membranes contain a number of ion channels that are responsible not only for existence of cells under physiological conditions but they also participate directly in apoptosis. In the apoptotic cells the activated K+, Cl- channels of plasma membrane control the cell volume and mediate the regulation of protease and nuclease activities. The mitochondrial channels are involved in the ionic movements and leakage of apoptogenic factors from the intermembrane space to cytosol. During apoptosis, an important role in the permeabilization of the outer mitochondrial membrane play Bcl-2 family proteins. In this review the recent findings on the function of ion channels in apoptotic cells and the role played by Bcl-2 proteins in the control of apoptosis are discussed.
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PMID:[The role of ion channels in apoptosis]. 1753 6

In the present study, the effect of vitamin E (alpha-tocopherol) on mice skeletal muscle mitochondrial dysfunction and oxidative damage induced by an in vivo acute and severe hypobaric hypoxic insult (48 h at a barometric pressure equivalent to 8500 m) has been investigated. Male mice (n=24) were randomly divided into the following four groups (n=6): control (C), hypoxia (H), vitamin E (VE; 60 mg/kg of body weight intraperitoneally, three times/week for 3 weeks) and hypoxia+VE (HVE). A significant increase in mitochondrial protein CGs (carbonyl groups) was found in the H group compared with the C group. Confirming previous observations from our group, hypoxia induced mitochondrial dysfunction, as identified by altered respiratory parameters. Hypoxia exposure increased Bax content and decreased the Bcl-2/Bax ratio, whereas Bcl-2 remained unchanged. Inner and outer mitochondrial membrane integrity were significantly affected by hypoxia exposure; however, vitamin E treatment attenuated the effect of hypoxia on mitochondrial oxidative phosphorylation and on the levels of CGs. Vitamin E supplementation also prevented the Bax and Bcl-2/Bax ratio impairments caused by hypoxia, as well as the decrease in inner and outer mitochondrial membrane integrity. In conclusion, the results suggest that vitamin E prevents the loss of mitochondrial integrity and function, as well as the increase in Bax content, which suggests that mitochondria are involved in increased cell death induced by severe hypobaric hypoxia in mice skeletal muscle.
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PMID:Vitamin E prevents hypobaric hypoxia-induced mitochondrial dysfunction in skeletal muscle. 1757 96

Cytochrome c release from mitochondria is a key event in apoptosis signaling that is regulated by Bcl-2 family proteins. Cleavage of the BH3-only protein Bid by multiple proteases leads to the formation of truncated Bid (tBid), which, in turn, promotes the oligomerization/insertion of Bax into the mitochondrial outer membrane and the resultant release of proteins residing in the intermembrane space. Bax, a monomeric protein in the cytosol, is targeted by a yet unknown mechanism to the mitochondria. Several hypotheses have been put forward to explain this targeting specificity. Using mitochondria isolated from different mutants of the yeast Saccharomyces cerevisiae and recombinant proteins, we have now investigated components of the mitochondrial outer membrane that might be required for tBid/Bax-induced cytochrome c release. Here, we show that the protein translocase of the outer mitochondrial membrane is required for Bax insertion and cytochrome c release.
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PMID:The mitochondrial TOM complex is required for tBid/Bax-induced cytochrome c release. 1763 12

Opening of the permeability transition pore (PTP) is a key event in ischemia-reperfusion injury and several ligands of the peripheral benzodiazepine receptor (PBR), a mitochondrial outer membrane protein possibly associated with PTP, have been demonstrated as potent cardioprotective agents. Here, we investigated the mechanisms by which the specific PBR ligand 4'-chlorodiazepam (CDZ) protected the myocardium against ischemia-reperfusion. In either global or regional models of myocardial ischemia-reperfusion in rats, CDZ reduced infarct size in a dose-dependent manner (e.g., 11 +/- 1% of the area at risk at 10 mg/kg versus 31 +/- 3% in control; p < 0.05) and to a similar extent as ischemic or diazoxide-induced preconditioning. CDZ (10 mg/kg) reduced apoptosis (terminal deoxynucleotidyl transferase dUTP nick-end labeling staining), restored mitochondrial recovery, improved oxidative phosphorylation parameters, and reduced mitochondrial membrane permeabilization with inhibition of cytochrome c and apoptosis-inducing factor releases. CDZ increased the resistance of mitochondria to Ca2+-induced PTP opening. All these cardioprotective effects of CDZ were associated with an improved stabilization of the association of Bcl-2 with the mitochondrial membrane and inhibition of the association of a cytosolic fragment of Bax, occurring during ischemia-reperfusion, with the outer mitochondrial membrane. In addition, the PTP opener atractyloside (20 microM) and the Bcl-2 inhibitor ethyl-2-amino-6-bromo-4-(1-cyano-2-ethoxy-2-oxoethyl)-4H-chromene-3-carboxylate (HA14-1) (20 microM) abrogated CDZ-induced reduction of infarct size. These results demonstrate that PBR occupancy by CDZ renders the heart more resistant to ischemia-reperfusion injury by limiting mitochondrial membrane permeabilization. This is due to a reorganization of the balance between pro- and antiapoptotic proteins of the Bcl-2 family proteins at the level of mitochondrial membranes.
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PMID:Peripheral benzodiazepine receptor-induced myocardial protection is mediated by inhibition of mitochondrial membrane permeabilization. 1764 Sep 50

Apoptosis serves to remove excess or damaged cells and its dysregulation may lead to a number of pathological disorders including cancer. Studies during the last 20 years have unravelled much of the molecular mechanisms that control apoptosis. Whether a cell dies in response to diverse apoptotic stimuli, including DNA-damaging agents, is determined largely by interactions between proteins of the Bcl-2 family. A death signal is transmitted through the BH3-only proteins to Bax and Bak which in turn permeabilise the outer mitochondrial membrane allowing the release of apoptogenic factors, which triggers activation of cell-deathpromoting caspases. These proteolytic enzymes are tightly controlled by members of the inhibitor of apoptosis (IAP) family. Activation of the caspase cascade via cell death receptors also represents a key apoptotic pathway in both normal and tumour cells. Basic knowledge of these apoptosis regulators provides the basis for novel therapeutic strategies aimed at promoting tumour cell death or enhancing susceptibility to apoptotic inducers. This review focuses on these strategies.
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PMID:Apoptosis regulators as targets for cancer therapy. 1792 Nov 2

Most defective and unwanted cells die by apoptosis, an exquisitely controlled genetic programme for removing such cells without damaging the surrounding tissue. Once a cell has committed to apoptosis, the process is remarkably efficient, and is completed within a few minutes of initiation. This point of no return for an apoptotic cell is commonly held to be the point at which the outer mitochondrial membrane is permeabilised, a process regulated by the Bcl-2 family of proteins. How these proteins regulate this decision point is central to diseases such as cancer where apoptotic control is lost. In this review, we will discuss apoptotic signalling and how a cell makes the irreversible decision to die. We will focus on one set of survival signals, those derived by cell adhesion to the extracellular matrix (ECM), and use these to highlight the complexities of apoptotic signalling. In particular, we will illustrate how multiple signalling pathways converge to determine critical cell fate decisions.
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PMID:Apoptosis commitment--translating survival signals into decisions on mitochondria. 1807 67

In response to many apoptotic stimuli, Bcl-2 family pro-apoptotic members, such as Bax and Bak, are activated. This results in their oligomerization, permeabilization of the outer mitochondrial membrane, and release of many proteins that are normally confined in the mitochondrial inter-membrane space. Among these proteins are cytochrome c, Smac/DIABLO, OMI/HtrA2, AIF and endonuclease G. Mitochondrial outer membrane permeabilization (MOMP) is also associated with fragmentation of the mitochondrial network. The mechanisms that lead to the oligomerization of proapoptotic members of the Bcl-2 family and to MOMP are still unclear and the role of mitochondrial fission in these events remains elusive.
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PMID:Mechanisms of mitochondrial outer membrane permeabilization. 1807 38

Since the discovery of the key role of cytochrome C in the activation of caspase 9, intense interest has focused on the role of mitochondria in apoptosis/programmed cell death. Mitochondria undergo two major alterations during apoptosis. The first is the permeabilization of the outer mitochondrial membrane. This event is tightly regulated by members of the Bcl-2 family and involves the conformational change of pro-apoptotic family members such as Bax. Second, the electrochemical gradient that is normally present across the inner mitochondrial membrane is lost (membrane depolarization). This event is sometimes mediated by the permeability transition pore (PTP). The order in which these events occur and whether one causes the other has been hotly debated in the literature. Nonetheless, the majority of reports suggest that mitochondria outer membrane permeabilization (MOMP) precedes membrane depolarization. In this chapter, methods that examine membrane depolarization and the conformational change in Bax are described.
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PMID:Mitochondria potential, bax "activation," and programmed cell death. 1817 15

The regulative BH4 domain of human Bcl-2 protein exerts its anti-apoptic activity via the mitochondrion. In the present study, we investigated the molecular interactions of this domain with negatively charged liposomes mimicking the outer mitochondrial membrane. To model the overproduction of Bcl-2 found in cancer processes, we studied the impact of elevated concentrations of its regulative BH4 segment on these mitochondrial membranes from the peptide and lipid perspective. Combined solid state (2)H-NMR and differential scanning calorimetry revealed the coexistence of small sized fluid and rigid membrane domains over a large temperature range, which is confirmed by (31)P-NMR at 30 degrees C. The latter are stabilized, in a cholesterol-like manner, by the presence of a BH4 peptide. In the same time scale, the reduction of the headgroup order is seen in the static (14)N and (31)P-NMR spectra when BH4 inserts into the bilayers. Indeed, attenuated total reflection spectroscopy indicated a dominant aggregated beta-sheet secondary structure of BH4 with a 42 degrees tilt relative to the membrane surface. These results are discussed in terms of membrane stabilization versus apoptotic mechanisms at the outer mitochondrial membrane location.
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PMID:Restriction of lipid motion in membranes triggered by beta-sheet aggregation of the anti-apoptotic BH4 domain. 1819 86


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