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: EC:3.4.22.56 (caspase-3)
35,750 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cell death by apoptosis is a tightly regulated process that requires coordinated modification in cellular architecture. The caspase protease family has been shown to play a key role in apoptosis. Here we report that specific and ordered changes in the actin cytoskeleton take place during apoptosis. In this context, we have dissected one of the first hallmarks in cell death, represented by the severing of contacts among neighboring cells. More specifically, we provide demonstration for the mechanism that could contribute to the disassembly of cytoskeletal organization at cell-cell adhesion. In fact, beta-catenin, a known regulator of cell-cell adhesion, is proteolytically processed in different cell types after induction of apoptosis. Caspase-3 (cpp32/apopain/yama) cleaves in vitro translated beta-catenin into a form which is similar in size to that observed in cells undergoing apoptosis. beta-Catenin cleavage, during apoptosis in vivo and after caspase-3 treatment in vitro, removes the amino- and carboxy-terminal regions of the protein. The resulting beta-catenin product is unable to bind alpha-catenin that is responsible for actin filament binding and organization. This evidence indicates that connection with actin filaments organized at cell-cell contacts could be dismantled during apoptosis. Our observations suggest that caspases orchestrate the specific and sequential changes in the actin cytoskeleton occurring during cell death via cleavage of different regulators of the microfilament system.
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PMID:Dismantling cell-cell contacts during apoptosis is coupled to a caspase-dependent proteolytic cleavage of beta-catenin. 934 92

Growth factor deprivation of endothelial cells induces apoptosis, which is characterized by membrane blebbing, cell rounding, and subsequent loss of cell-matrix and cell-cell contacts. In this study, we show that initiation of endothelial apoptosis correlates with cleavage and disassembly of intracellular and extracellular components of adherens junctions. beta-Catenin and plakoglobin, which form intracellular links between vascular endothelial cadherin (VE-cadherin) and actin-binding alpha-catenin in adherens junctions, are cleaved in apoptotic cells. In vitro incubations of cell lysates and immunoprecipitates with recombinant caspases indicate that CPP32 and Mch2 are involved, possibly by initiating proteolytic processing. Cleaved beta-catenin from lysates of apoptotic cells does not bind to endogenous alpha-catenin, whereas plakoglobin retains its binding capacity. The extracellular portion of the adherens junctions is also altered during apoptosis because VE-cadherin, which mediates endothelial cell-cell interactions, dramatically decreases on the surface of cells. An extracellular fragment of VE-cadherin can be detected in the conditioned medium, and this "shedding" of VE-cadherin can be blocked by an inhibitor of metalloproteinases. Thus, cleavage of beta-catenin and plakoglobin and shedding of VE-cadherin may act in concert to disrupt structural and signaling properties of adherens junctions and may actively interrupt extracellular signals required for endothelial cell survival.
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PMID:Cleavage of beta-catenin and plakoglobin and shedding of VE-cadherin during endothelial apoptosis: evidence for a role for caspases and metalloproteinases. 961 96

Apoptotic cells undergo specific morphological changes that include loss of cell-cell interactions. Cellular adhesiveness is dependent on members of the cadherin family of adhesion receptors and on the cytoplasmic adaptor proteins alpha-catenin, beta-catenin and gamma-catenin/plakoglobin. The caspase family of cystein proteases play a key role during the execution phase of the apoptotic program. These proteolytic enzymes, once activated, cleave cellular proteins which are important for the maintenance of cell integrity. Here we report that gamma-catenin is cleaved at different sites during apoptosis in various cell lines. The major apoptotic product of gamma-catenin still retains the ability to bind alpha-catenin but loses the carboxy-terminal region. We also show that gamma-catenin is cleaved by caspase-3 in vitro although with lower affinity when compared to PARP or beta-catenin. These findings indicate that multiple proteolytic events regulate the dismantling of the cell-cell junctional complexes during apoptosis.
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PMID:Proteolytic processing of the adherens junctions components beta-catenin and gamma-catenin/plakoglobin during apoptosis. 989 11

During the effector phase of apoptosis, caspase activation appears to be responsible for the distinctive structural changes of apoptosis and perhaps for some of the changes in function of the doomed cells. There is therefore interest in identifying caspase substrates and the details of the cleavage events. Here we define precisely the event responsible for generation of a stable 90 kDa fragment from the oncosuppressor protein adenomatous polyposis coli (APC). Using synthetic radiolabeled APC peptides as substrate, we demonstrate cleavage by cytosolic extracts from preapoptotic cells. This cleavage was reproduced by recombinant caspase-3 and blocked by a tetrapeptide inhibitor Ac-DEVD-CHO, which is specific for caspase-3 family members. Inhibitors specific for caspase-1 and -8 however, were less effective in blocking APC cleavage. Mutation of a candidate DNID caspase-3 target site completely abolished cleavage. This cleavage may be of biological importance since the 90 kDa fragment consists of a sequence that is highly conserved in the human, rat, mouse, Xenopus, and Drosophila APC, although wide sequence divergence is observed in Drosophila immediately carboxy-terminal to the DNID site. Furthermore, cleavage at this site separates two significant functional domains: an amino-terminal armadillo repeat and an adjacent series of beta-catenin binding sites. Further circumstantial evidence for the significance of APC-related pathways in apoptosis is provided by the observation that apoptosis also induces cleavage of beta-catenin itself, a protein known to accumulate in cells depleted in functional APC and that appears to link cell-cell signaling to changes in transcription and cell movement.
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PMID:Caspase-mediated cleavage of APC results in an amino-terminal fragment with an intact armadillo repeat domain. 997 22

Proteases belonging to the caspase family play a crucial role in apoptotic processes. Identification of protein cleavage specific to apoptosis may therefore provide further information about the mechanisms of apoptosis. In this study, apoptosis and necrosis were induced in cells of the human colon cancer cell lines, WiDr and DLD-1, and the resulting protein cleavage patterns investigated for beta-catenin. beta-Catenin was detected as a 92 kDa protein in control viable cells, while 65-72 kDa beta-catenin cleavage fragments were characteristically observed in apoptotic cells. These fragments were not observed in necrotic cell death. Similar apoptosis-specific beta-catenin cleavage was also demonstrated in the rat hepatoma cell line McA-RH7777, suggesting that the beta-catenin cleavage is a common event in apoptosis in various cell types. The formation of 65-72 kDa beta-catenin cleavage fragments was completely prevented by a caspase-1 inhibitor Z-VAD-CH2F and a caspase-3 inhibitor Z-DEVD-CH2F, indicating that the cleavage is associated with caspase-dependent process. Since beta-catenin is implicated in cell adhesion and signal transduction, these findings may suggest various possible roles of beta-catenin degradation in the dramatic cytoskeletal and morphological changes, as well as signaling events that accompany apoptosis.
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PMID:Apoptosis-associated cleavage of beta-catenin in human colon cancer and rat hepatoma cells. 1022 75

Cleavage of structural proteins by caspases has been associated with the severe morphological changes occurring during the apoptotic process. One of the proteins regulating the connection of the actin filament with cadherins in a cell-cell adhesion complex is beta-catenin. During apoptosis, both an N-terminal and a small C-terminal part are removed from beta-catenin. Removal of the N-terminal part may result in a disconnection of the actin filament from a cadherin cell-cell adhesion complex. We demonstrate that caspase-8, -3 and -6 directly proteolyse beta-catenin in vitro. However, the beta-catenin cleavage products generated by caspase-8 were different from those generated by caspase-3 or caspase-6. Caspase-1, -2, -4/11 and -7 did not or only very inefficiently cleave beta-catenin. These data suggest that activation of procaspase-3, -6 or -8 by different stimuli in the cell might result in a differential proteolysis of beta-catenin.
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PMID:Proteolytic cleavage of beta-catenin by caspases: an in vitro analysis. 1048 Oct 58

Cripto-1 (CR-1) is an epidermal growth factor (EGF)-related protein. CR-1 can inhibit beta-casein and whey acidic protein expression in mouse mammary epithelial cells. The present study demonstrates that CR-1 can induce apoptosis in HC-11 mouse mammary epithelial cells, as measured by bis-benzimide stained nuclei, TUNEL assay and cell death ELISA. Apoptosis could be observed after 2 days of exposure of confluent HC-11 cells to CR-1 in the absence of the survival factors EGF and insulin, with maximum apoptosis occurring at 3 days. A reduction in poly(ADP-ribose) polymerase (PARP) expression and an increase in beta-catenin cleavage was found after 18 h of exposure to CR-1 suggesting that apoptosis was preceded by the induction of a caspase activity since the caspase inhibitor ZFAD.FMK could block the CR-1-induced reduction in PARP expression and CR-1-induced apoptosis. CR-1 was found to increase the expression of caspase-3-like protease. Although, the levels of p27kip1 and p21Bax did not change after exposure to CR-1 for 18 h, the levels of Bcl-xL became undetectable. These studies suggest that CR-1 promotes apoptosis by mediating the induction of caspase-3-like protease and downregulating the expression of Bcl-xL.
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PMID:Cripto-1 induces apoptosis in HC-11 mouse mammary epithelial cells. 1071 33

Beta-catenin is a member of the Armadillo repeat protein family with a dual cellular function as a component of both the adherens junction complex and the Wnt/wingless signaling pathway. Here we show that beta-catenin is proteolytically cleaved during anoikis and staurosporine-induced apoptosis. Cleavage of beta-catenin was found to be caspase-dependent. Five cleavage products of beta-catenin were identified in vivo and after in vitro cleavage by caspase-3. Amino acid sequencing and mass spectrometry analysis indicated two caspase-3 cleavage sites at the C terminus and three further sites at the N terminus, whereas the central Armadillo repeat region remained unaffected. All beta-catenin cleavage products were still able to associate with E-cadherin and alpha-catenin and were found to be enriched in the cytoplasm. Functional analysis revealed that beta-catenin deletion constructs resembling the observed proteolytic fragments show a strongly reduced transcription activation potential when analyzed in gene reporter assays. We therefore conclude that an important role of the beta-catenin cleavage during apoptosis is the removal of its transcription activation domains to prevent its transcription activation potential.
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PMID:Apoptosis-induced cleavage of beta-catenin by caspase-3 results in proteolytic fragments with reduced transactivation potential. 1074 26

Plakoglobin is a cytoplasmic protein and a homologue of beta-catenin and Armadillo of Drosophila with similar adhesive and signaling functions. These proteins interact with cadherins to mediate cell-cell adhesion and associate with transcription factors to induce changes in the expression of genes involved in cell fate determination and proliferation. Unlike the relatively well characterized role of beta-catenin in cell proliferation via activation of c-MYC and cyclin D1 gene expression, the signaling function of plakoglobin in regulation of cell growth is undefined. Here, we show that high levels of plakoglobin expression in plakoglobin-deficient human SCC9 cells leads to uncontrolled growth and foci formation. Concurrent with the change in growth characteristics we observe a pronounced inhibition of apoptosis. This correlates with an induction of expression of BCL-2, a prototypic member of apoptosis-regulating proteins. The BCL-2 expression coincides with decreased proteolytic processing and activation of caspase-3, an executor of programmed cell death. Our data suggest that the growth regulatory function of plakoglobin is independent of its role in mediating cell-cell adhesion. These observations clearly implicate plakoglobin in pathways regulating cell growth and provide initial evidence of its role as a pivotal molecular link between pathways regulating cell adherence and cell death.
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PMID:Plakoglobin regulates the expression of the anti-apoptotic protein BCL-2. 1075 88

Expression of Bcl-2 is important in determining cancer cell resistance to chemotherapy. However, it is not clear whether cell-cell interactions regulate Bcl-2 expression. Using rat breast carcinoma cells selected for loss of hormone responsiveness, we found that parental E-cadherin-expressing cells (E cells) were more sensitive to etoposide-induced apoptosis than hormone-non-responsive cells (F cells), which failed to express E-cadherin. Expression of beta-catenin and pp120 src substrate proteins, which associate with E-cadherin, was unaffected. To determine whether re-expression of E-cadherin in F cells would restore etoposide sensitivity, F cells were transfected with an expression vector coding for the mouse E-cadherin gene. Stable clonal isolates expressing E-cadherin (F. Cad) showed increased sensitivity to etoposide treatment compared with control clones (F.Neo). Expression of E-cadherin resulted in a redistribution of beta-catenin from the cytoskeletal/nuclear fraction to the cytoplasmic/membrane fraction of the cells. E-cadherin-expressing clones also showed reduced invasion through basement membrane. Etoposide-induced apoptosis was characterized by morphological changes (nuclear blebbing) and DNA fragmentation. Induction of CPP32-like caspase activity was also observed in F.Cad transfectants but not F.Neo cells. Unlike F cells, F.Cad transfectants were not able to express Bcl-2, but transient transfection of bcl-2 resulted in re-expression and resistance to etoposide treatment. Therefore, E-cadherin may negatively regulate Bcl-2 expression by altering the availability of nuclear beta-catenin. Loss of E-cadherin in invasive tumor cells may lead to increased Bcl-2 expression and resistance to chemotherapeutic drugs.
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PMID:Expression of E-cadherin reduces bcl-2 expression and increases sensitivity to etoposide-induced apoptosis. 1079 87


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