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)

Apoptosis is a tightly regulated and evolutionally conserved suicide mechanism. Proteases encoded by ced-3 and ice gene family appear to play a key role in driving apoptosis. On the other hand, Bcl-2 and its relatives have the ability to inhibit apoptosis induced by a variety of stimuli, indicating that Bcl-2 family negatively regulates a key event in a common pathway of apoptosis in which different apoptotic signals finally converge, although the biochemical basis of the function remains unknown. Here, I overview Bcl-2 gene family, and discuss the molecular basis of anti-apoptotic activity of Bcl-2, focusing on our recent findings on Bcl-2 function in mitochondria.
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PMID:[Prevention of cell death by Bcl-2 family genes]. 874 84

Cell death is an important physiological process, but it can be triggered by both physiological and nonphysiological stimuli. The product of the bcl-2 gene has the ability to inhibit a physiological cell death process that can be activated by a variety of physiological signals, such as growth factor deprivation. This report describes the use of electron microscopy to examine the effects of two cytotoxic drugs on factor-dependent cells that constitutively express the human bcl-2 gene. Although all cells treated with sodium azide showed changes typical of necrosis, in the absence of Bcl-2 the cells died more rapidly and also displayed features of apoptosis. The fact that Bcl-2 could delay cell death argues that cells can activate internal cell death mechanisms to commit suicide before they are killed by a cytotoxin. Northern analysis showed that growth factor did not preserve viability of the cells through induction of bcl-2. However, growth factor may prevent activation of the physiological cell death mechanisms that bcl-2 can control. This process may constitute a primitive defense response, and blocking it may provide a means of limiting damage caused by otherwise sublethal injuries.
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PMID:Activation of physiological cell death mechanisms by a necrosis-causing agent. 874 13

Murine AIDS (MAIDS) induced by infection of C57BL/6 mice with a mixture of retroviruses known as LP-BM5 is characterized by lymphadenopathy, splenomegaly, and T and B cell dysfunction. By labeling with bromodeoxyuridine in vivo, we found vigorous CD4 T cell proliferation during the initial stages of infection, yet a loss in their ability to function both in vivo and in vitro. In addition, a significant fraction of the CD4 T cell population in infected mice undergoes spontaneous apoptosis in vivo. Upon in vitro stimulation with anti-CD3 plus PMA, anergic CD4 T cells from mice with MAIDS fail to progress through the cell cycle (G0/G1 arrest), and a fraction of the cells undergoes apoptosis. The addition of IL-2 along with TCR-mediated stimulation not only fails to rescue CD4 T cells from apoptosis, but enhances activation-induced cell death. To further understand the regulation of the suicide pathway(s) of anergic CD4 T cells vs the cytokine synthesis pathway(s) of normal CD4 T cells, we evaluated their expression of Bcl-2 protein. As infection progresses, the expression of Bcl-2 among CD4 T cells declines and drops further when CD4 T cells are restimulated through the TCR in vitro. These results suggest that this CD4 T cell immunodeficiency in MAIDS includes a TCR-induced program of activation-induced cell death and an uncoupling from cytokine synthesis pathways and proliferation of CD4 T cells. The decline in Bcl-2 expression may be in part responsible for this reprogramming.
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PMID:TCR triggering of anergic CD4 T cells in murine AIDS induces apoptosis rather than cytokine synthesis and proliferation. 875 10

Fas is a cell-surface protein belonging to the tumor necrosis factor (TNF) receptor family, whereas the Fas ligand (FasL) is a member of the TNF family. FasL binds to Fas, which results in target cell apoptosis. A family of cysteine proteases is sequentially activated to proceed the Fas-induced apoptosis, whereas Bcl-2 inhibits the process. FasL is expressed in activated T cells and natural killer (NK) cells, and works as an effector of these cytotoxic cells to remove the cells infected by virus, or cancer cells. The Fas system is also involved in peripheral clonal deletion, and/or the activation-induced suicide of T cells to down-regulate the immune reaction. Mouse mutations of lymphoproliferation (lpr) and generalized lymphoproliferative disease (gld), which cause lymphadenopathy and splenomegaly, and accelerate autoimmune disease, are loss-of-function mutations in the Fas and FasL genes, respectively. Moreover, the Fas-null mice established by gene targeting showed hyperplasia in the liver, suggesting that the Fas system is involved in turn-over of senescent hepatocytes.
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PMID:A death factor--the other side of the coin. 895 Apr 63

The homeostasis of normal tissues is a balance between cell proliferation and cell death. Alterations of both pathways contribute to a clonal expansion of cancer cells. Bcl-2 and its family play an important role in the regulation of the apoptotic pathway. Apoptosis or programmed cell death is an active form of cell suicide that is characterized by specific morphological and biochemical events. These include cleavege of genomic DNA into oligonucleosome-length DNA fragments by endonucleases, chromatin condensation and marginalization, nuclear fragmentation, plasma membrane blebbing, and cell shrinkage. Though the role of apoptosis is clearly defined in the maintaining of physiological tissue homeostasis, several pathological conditions and external factors cause apoptosis. Anticancer drugs and radiation, two of the most important tools in the cancer treatment, cause apoptotic cell death. The understanding of the mechanisms underlying the regulation of the apoptosis in response to different types of DNA damage might provide relevant information to improve cancer treatment. In this review we mainly discuss bcl-2 and its partners in human cancers and how their disregulation might contribute to the development and the difficult treatment of cancer.
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PMID:BCL-2: the pendulum of the cell fate. 914 53

The prognostic value of various molecular markers, which adequately account for the tumor biology and disease behaviour of ovarian cancer, is still unclear. Recent studies have focused on the role of genes regulating the balance between proliferation and cellular suicide, apoptosis. In the present study, tumor tissue from 215 patients with ovarian cancer was immunohistochemically analysed for Bax- and Bcl-2-expression. There was an association between Bcl-2-expression (30%) and factors of favourable prognosis. In contrast, Bax-expression (47%) was related to bad clinical outcome, especially in cases without concomitant Bcl-2-expression. In patients with Bcl-2-positive/Bax-negative tumors, overall survival was significantly longer (p = 0.0379) than in patients with Bcl-2- and Bax-negative tumors. Respectively, expression of Bax without Bcl-2-expression was correlated with bad clinical outcome (p = 0.033). The difference in overall survival was most striking (p = 0.0007) between patients with Bax-positive/Bcl-2-negative and Bcl-2-positive/Bax-negative tumors. This could also be demonstrated for the various subgroups of different tumor grade and stage. It may be speculated, that alteration of the Bax/Bcl-2-balance may influence the clinical course by deregulation of programmed cell death and altered sensitivity to chemotherapy.
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PMID:Differential expression of apoptosis associated genes bax and bcl-2 in ovarian cancer. 921 94

Programmed cell death (PCD) characteristically involves chromatin condensation, membrane blebbing, and DNA oligonucleosomal fragmentation. These events, collectively referred to as apoptosis, represent an active cell suicide mechanism that eliminates cellular threats including potentially cancerous or virus-infected cells. Various types of programmed cell death can be blocked by the proto-oncogene Bcl-2. Levels of this protein are consistently low or undetectable in human endothelial cells (EC), which are important for immunoregulation through their interactions with circulating lymphocytes and are potential targets for infection by virus-bearing T-cells. Accumulating evidence suggests that EC may be infected in vivo to play an important role in HTLV-I-associated neuromyelopathy. In the present study, we report the establishment and characterization of human endothelial cell lines stably transfected with an HTLV-I-derived molecular clone. We observed constitutive expression of HTLV-I genes coinciding with activated Bcl-2 expression. Transient transfection of EC with the viral transactivator Tax and a reporter construct Bcl-2 promoter-CAT did not result in a significant increase in CAT activity and suggests that, in EC, expression of a second viral protein might be required for Bcl-2 activation. Further, Tax-induced apoptosis in rat fibroblasts has been shown to be blocked by Bcl-2 expression. Thus, HTLV-I-mediated induction of Bcl-2 expression in EC may provide protection against viral-induced apoptosis or extend cellular survival and create a reservoir for viral gene expression.
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PMID:Activation of Bcl-2 expression in human endothelial cells chronically expressing the human T-cell lymphotropic virus type I. 929 16

Induction of apoptosis by oncogenes like c-myc may be important in restraining the emergence of neoplasia. However, the mechanism by which c-myc induces apoptosis is unknown. CD95 (also termed Fas or APO-1) is a cell surface transmembrane receptor of the tumor necrosis factor receptor family that activates an intrinsic apoptotic suicide program in cells upon binding either its ligand CD95L or antibody. c-myc-induced apoptosis was shown to require interaction on the cell surface between CD95 and its ligand. c-Myc acts downstream of the CD95 receptor by sensitizing cells to the CD95 death signal. Moreover, IGF-I signaling and Bcl-2 suppress c-myc-induced apoptosis by also acting downstream of CD95. These findings link two apoptotic pathways previously thought to be independent and establish the dependency of Myc on CD95 signaling for its killing activity.
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PMID:Requirement for the CD95 receptor-ligand pathway in c-Myc-induced apoptosis. 941 52

Nearly all anticancer drugs presently available to clinicians kill tumor cells by activating an endogenous biochemical pathway for cell suicide, known as programmed cell death or apoptosis. However, many malignant cells develop defects in the regulation of genes that control apoptosis, rendering them resistant to the induction of apoptosis by a wide variety of stimuli, including chemotherapeutic drugs and radiotherapy. The BCL-2 family of proto-oncogenes are critical regulators of apoptosis whose expression frequently becomes altered in human cancers, including some of the most common types of lymphomas and leukemias. The first member of this gene family to be identified was BCL-2, by virtue of its involvement in t(14;18) chromosomal translocations commonly found in B-cell non-Hodgkin's lymphoma (NHL). Subsequently, however, overexpression of Bcl-2 has been reported in a wide variety of cancers, without associated chromosomal translocations. A variety of experiments have provided conclusive evidence that elevations in Bcl-2 expression cause resistance to chemotherapeutic drugs, while decreases in Bcl-2 expression promote apoptotic responses to anticancer drugs. Information about the biochemical mechanisms of action of the Bcl-2 protein and other members of the Bcl-2 family is beginning to suggest strategies for overcoming the cytoprotective effects of Bcl-2 overexpression in lymphomas, leukemias, and other types of cancer.
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PMID:Bcl-2 family proteins: regulators of apoptosis and chemoresistance in hematologic malignancies. 940 56

Programmed cell death or apoptosis is an active physiological process that permits the removal of unwanted or damaged cells from the body through an intrinsic cell-suicide program. Apoptosis is characterized by condensation of the nucleus and cytoplasm without loss of membrane integrity. The occurrence of apoptosis in the vasculature and myocardium has recently been described. Inappropriate loss of myocardial cells is suggested to contribute to conduction defects and ventricular remodelling after injury. The molecular mechanisms that regulate programmed cell death in cardiac muscle cells are poorly defined. However, recent evidence has suggested that specific genes can either provoke or prevent apoptosis. In this regard, the tumour suppressor protein p53 has been proposed to mediate apoptosis, while the Bcl-2 protein prevents it. Prevention of apoptosis in the heart is potentially of significant therapeutic value given the limited capacity of the heart to repair itself after injury. This study determined that the expression of p53 in ventricular myocytes is sufficient to trigger apoptosis. Moreover, p53 results in a significant increase in the expression of the death-promoting protein Bax. Importantly, the antiapoptotic factor Bcl-2 is sufficient to prevent p53-mediated apoptosis and p53-dependent transcription of Bax in ventricular myocytes. The data substantiate a role for p53 and Bcl-2 as crucial regulators of apoptosis in the heart.
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PMID:Regulators of apoptosis in the heart: a matter of life and death. 955 Oct 35


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