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:P42574 (caspase-3)
45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Caspase-3 plays an essential role in normal brain development. Recently, a large protein complex known as apoptosome, which catalyzes the activation of caspase-3, has been reported. To investigate structural characteristics of caspase-3 in the developing brain, rat neonatal cortex extract was analysed by gel filtration chromatography. We show here the formation of high molecular complex including procaspase-3 in the extract. When the extract was activated by cytochrome c, caspase-3 recruitment to the apoptosome was not observed, although apoptotic protease activating factor-1 (Apaf-1), caspase-9, and X-linked inhibitor of apoptosis protein (XIAP) existed in the apoptosome. These results indicate that procaspase-3 exists as a high molecular weight complex during brain development.
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PMID:Formation of high molecular weight caspase-3 complex in neonatal rat brain. 1460 82

Previous results have shown that the oncoembryonic marker alpha-fetoprotein (AFP) is able to induce apoptosis in tumor cells through activation of caspase 3, bypassing Fas-dependent and tumor necrosis factor receptor-dependent signaling. In this study we further investigate the molecular interactions involved in the AFP-mediated signaling of apoptosis. We show that AFP treatment of tumor cells is accompanied by cytosolic translocation of mitochondrial cytochrome c. In a cell-free system, AFP mediates processing and activation of caspases 3 and 9 by synergistic enhancement of the low-dose cytochrome c-mediated signals. AFP was unable to regulate activity of caspase 3 in cell extracts depleted of cytochrome c or caspase 9. Using high-resolution chromatography, we show that AFP positively regulates cytochrome c/dATP-mediated apoptosome complex formation, enhances recruitment of caspases and Apaf-1 into the complex, and stimulates release of the active caspases 3 and 9 from the apoptosome. By using a direct protein-protein interaction assay, we show that pure human AFP almost completely disrupts the association between processed caspases 3 and 9 and the cellular inhibitor of apoptosis protein (cIAP-2), demonstrating its release from the complex. Our data suggest that AFP may regulate cell death by displacing cIAP-2 from the apoptosome, resulting in promotion of caspase 3 activation and its release from the complex.
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PMID:Alpha-fetoprotein positively regulates cytochrome c-mediated caspase activation and apoptosome complex formation. 1462 4

Cells undergoing apoptosis during development are removed by phagocytes, but the underlying mechanisms of this process are not fully understood. Phagocytes lacking the phosphatidylserine receptor (PSR) were defective in removing apoptotic cells. Consequently, in PSR-deficient mice, dead cells accumulated in the lung and brain, causing abnormal development and leading to neonatal lethality. A fraction of PSR knockout mice manifested a hyperplasic brain phenotype resembling that of mice deficient in the cell death-associated genes encoding Apaf-1, caspase-3, and caspase-9, which suggests that phagocytes may also be involved in promoting apoptosis. These data demonstrate a critical role for PSR in early stages of mammalian organogenesis and suggest that this receptor may be involved in respiratory distress syndromes and congenital brain malformations.
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PMID:Phosphatidylserine receptor is required for clearance of apoptotic cells. 1464 35

Renal cell carcinoma (RCC) responds very poorly to chemo- or radiotherapy. Renal cell carcinoma cell lines have been described to be resistant to apoptosis-inducing stimuli and to lack caspase expression. Here, we provide a structural and functional assessment of the apoptosome, the central caspase-activating signalling complex and a candidate for apoptosis-inactivating mutations. Cells from RCC cell lines and clinical samples isolated from RCC patients were included. Apoptosome function was measured as quantitative activation of caspases in protein extracts. In all five cell lines and in 19 out of 20 primary clear cell RCC samples, the expression of apoptosome components and caspase activation appeared normal. Of the four nonclear cell RCC that could be included, both oncocytomas gave no response to cytochrome c (in one case, no Apaf-1 was detected), one chromophobe RCC lacked caspase-9 and failed to activate caspase-3 in response to cytochrome c, and one papillary RCC showed good caspase activation despite the lack of caspase-7. Experiments utilising a peptide derived from Smac/DIABLO gave no indication that inhibitor of apoptosis proteins might exert an inhibiting effect in primary clear cell RCC. Thus, the apoptosome signalling complex is intact in human (clear cell) RCC, and an apoptosis defect must be located at other, probably upstream, sites.
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PMID:Functional evaluation of the apoptosome in renal cell carcinoma. 1464 51

Many environmental and therapeutic agents initiate apoptotic cell death by inducing the release of cytochrome c from the mitochondria, which activates Apaf-1 (apoptotic protease-activating factor-1). This large (approximately 130kD) protein is a mammalian homologue of CED-4, an essential protein involved in programmed cell death in the nematode C. elegans. Cytochrome c activates Apaf-1, which oligomerizes to form an approximately 700-1400-kDa caspase-activating complex known as the Apaf-1 apoptosome. Caspase-9, an initiator caspase, is then recruited to the complex by binding to Apaf-1 through CARD-CARD (caspase recruitment domain) interactions to form a holoenzyme complex. Subsequently, the Apaf-1/caspase-9 holoenzyme complex recruits the effector caspase-3 via an interaction between the active site cysteine in caspase-9 and the critical aspartate, which is the cleavage site for generating the large and small subunits of caspase-3 that constitute the activated form of caspase-3. This initiates the caspase cascade that is responsible for the execution phase of apoptosis. Intracellular levels of K+, XIAP an inhibitor of apoptosis protein, and at least two mitochondrial released proteins, Smac/DIABLO and Omi/Htra 2 a serine protease, tightly regulate formation and function of the apoptosome. Thus, a number of physiological mechanisms ensure that the apoptosome complex is only fully assembled and functional when the cell is irrevocably committed to die. It is interesting that more recent studies show that a variety of small molecules can directly activate or inhibit caspase activation by interfering with the formation and function of the apoptosome complex. The cytotoxicity of many conventional chemotherapeutic drugs rests on their ability to induce apoptosome formation and apoptosis. Defects in this pathway can result in drug resistance, and the discovery that small molecules can directly activate or inhibit the apoptosome may provide new alternative treatments for cancer.
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PMID:Chemical-induced apoptosis: formation of the Apaf-1 apoptosome. 1470 65

The apoptosome is a large caspase-activating ( approximately 700-1400 kDa) complex, which is assembled from Apaf-1 and caspase-9 when cytochrome c is released during mitochondrial-dependent apoptotic cell death. Apaf-1 the core scaffold protein is approximately 135 kDa and contains CARD (caspase recruitment domain), CED-4, and multiple (13) WD40 repeat domains, which can potentially interact with a variety of unknown regulatory proteins. To identify such proteins we activated THP.1 lysates with dATP/cytochrome c and used sucrose density centrifugation and affinity-based methods to purify the apoptosome for analysis by MALDI-TOF mass spectrometry. First, we used a glutathione S-transferase (GST) fusion protein (GST-casp9(1-130)) containing the CARD domain of caspase-9-(1-130), which binds to the CARD domain of Apaf-1 when it is in the apoptosome and blocks recruitment/activation of caspase-9. This affinity-purified apoptosome complex contained only Apaf-1XL and GST-casp9(1-130), demonstrating that the WD40 and CED-4 domains of Apaf-1 do not stably bind other cytosolic proteins. Next we used a monoclonal antibody to caspase-9 to immunopurify the native active apoptosome complex from cell lysates, containing negligible levels of cytochrome c, second mitochondria-derived activator of caspase (Smac), or Omi/HtrA2. This apoptosome complex exhibited low caspase-processing activity and contained four stably associated proteins, namely Apaf-1, pro-p35/34 forms of caspase-9, pro-p20 forms of caspase-3, X-linked inhibitor of apoptosis (XIAP), and cytochrome c, which was only bound transiently to the complex. However, in lysates containing Smac and Omi/HtrA2, the caspase-processing activity of the purified apoptosome complex increased 6-8-fold and contained only Apaf-1 and the p35/p34-processed subunits of caspase-9. During apoptosis, Smac, Omi/HtrA2, and cytochrome c are released simultaneously from mitochondria, and thus it is likely that the functional apoptosome complex in apoptotic cells consists primarily of Apaf-1 and processed caspase-9.
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PMID:Pro-apoptotic proteins released from the mitochondria regulate the protein composition and caspase-processing activity of the native Apaf-1/caspase-9 apoptosome complex. 1499 23

The oxysterol 7beta-hydroxycholesterol (7beta-OH) has been shown to induce apoptosis in a number of cell lines. Though not fully elucidated, the mechanism through which this oxysterol induces cell death is thought to involve the generation of an oxidative stress leading to perturbation of the mitochondrion and release of cytochrome c into the cytosol. Cytochrome c together with Apaf-1 causes activation of the initiator caspase, caspase-9, which in turn activates caspase-3 ultimately leading to the degradation of poly(ADP-ribose) polymerase (PARP). The objective of the present study was to investigate the signalling pathway in 7beta-OH-induced apoptosis in U937 cells, a human monocytic blood cell line known to undergo apoptosis upon treatment with 7beta-OH, over a time course of 48 h. Apoptosis was evident after 24 h incubation. Glutathione levels were decreased after 6 h and this was coupled with an increase in SOD activity. Through western blot analysis we examined expression of caspase-3, -8, and -9 and cleavage of the caspase-3 substrate PARP. The sequence proceeded with activation of caspase-9 after 9 h, caspase-3 at the 12 h timepoint, and cleavage of PARP after 24 h treatment with 7beta-OH. Caspase-8 did not appear to play a major role in this particular apoptotic pathway.
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PMID:Generation of an oxidative stress precedes caspase activation during 7beta-hydroxycholesterol-induced apoptosis in U937 cells. 1499 80

The detailed mechanisms behind the resistance of malignant gliomas to therapy are not known. Inherent resistance to apoptosis is, however, one plausible explanation. In the present study we tried to delineate the molecular defects and to induce apoptosis by inducible caspases in three apparently apoptosis resistant glioma cell lines. U-105 MG, U-251 MG, and SF-767 were resistant to Fas-induced apoptosis as shown by the lack of Fas-induced cell death, morphological changes, annexin-V reactivity, Parp cleavage, caspase-3 cleavage, and caspase-3 activation. The glioma cells showed no consistent down-regulation of the pro-apoptotic proteins Fas, Fadd, caspase-3, caspase-8, caspase-9, Apaf-1, Bid, Bad, or Bax, and no consistent up-regulation of the anti-apoptotic proteins Bcl-x or Bcl-2. In U-105 MG, Fas was, however, not detected at the cell surface indicating intracellular retention. To assess if the apoptotic blocks could be by-passed, we introduced the so-called artificial death switches, i.e., inducible caspases and Fadd, into the glioma cells. Synthetic activation of inducible caspase-3, but not of caspase-8, resulted in apoptosis in the three glioma cell lines and inducible Fadd induced apoptosis in SF-767. The results were consistent with a block in the apoptotic signaling pathways of glioma cells between caspase-8 and caspase-3 activation, and that inducible Fadd could induce caspase-8 independent apoptosis in some cells. Apparently resistant glioma cells could thus be induced to undergo apoptosis by activation of appropriate death switches. This might have implications for the design of future therapeutic strategies.
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PMID:Induction of apoptosis in resistant glioma cells by synthetic caspase-activation. 1501 72

The intrinsic apoptosis apparatus plays a significant role in generating and amplifying cell death signals. In this study we examined whether there are differences in the expression of its components and in its functioning in non-small cell lung carcinoma (NSCLC) and the lung. We show that NSCLC cell lines express Apaf-1 and procaspase-9 and -3 proteins and that the expression of Apaf-1 and procaspase-3, but not of procaspase-9 and -7, is frequently up-regulated in NSCLC tissues as compared to the lung. NSCLC tissues and lungs and some NSCLC cell lines expressed also caspase-9S(b) and displayed a high caspase-9S(b)/procaspase-9 expression ratio. Procaspase-3 from NSCLCs and lungs was readily processed to caspase-3 by granzyme B or caspase-8, and the granzyme B-generated caspase-3-like activity was significantly higher in tumor tissues and cells than in lungs. By contrast, cytochrome c plus dATP could induce a significant increase of caspase-3-like activity in cytosol only in some NSCLC cell lines and in subsets of studied NSCLC tissues and lungs, while procaspase-3 and -7 were detectably processed only in NSCLC tissues which showed a high (cytochrome c+dATP)-induced caspase-3-like activity. Taken together, the present study provides evidence that the expression of Apaf-1 and procaspase-3 is up-regulated in NSCLCs and indicates that the tumors have a capability to suppress the apoptosome-driven caspase activation in their cytosol.
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PMID:Increased expression of Apaf-1 and procaspase-3 and the functionality of intrinsic apoptosis apparatus in non-small cell lung carcinoma. 1510 58

The Apaf-1 apoptosome is a multi-subunit caspase-activating scaffold that is assembled in response to diverse forms of cellular stress that culminate in apoptosis. To date, most studies on apoptosome composition and function have used apoptosomes reassembled from recombinant or purified proteins. Thus, the precise composition of native apoptosomes remains unresolved. Here, we have used a one-step immunopurification approach to isolate catalytically active Apaf-1/caspase-9 apoptosomes, and have identified the major constituents of these complexes using mass spectrometry methods. Using this approach, we have also assessed the ability of putative apoptosome regulatory proteins, such as Smac/DIABLO and PHAPI, to regulate the activity of native apoptosomes. We show that Apaf-1, caspase-9, caspase-3 and XIAP are the major constituents of native apoptosomes and that cytochrome c is not stably associated with the active complex. We also demonstrate that the IAP-neutralizing protein Smac/DIABLO and the tumor-suppressor protein PHAPI can enhance the catalytic activity of apoptosome complexes in distinct ways. Surprisingly, PHAPI also enhanced the activity of purified caspase-3, suggesting that it may act as a co-factor for this protease.
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PMID:Analysis of the composition, assembly kinetics and activity of native Apaf-1 apoptosomes. 1510 27


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