EC:3.4.22.61 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.22.61 (caspase-8)
6,833 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In Jurkat cells Bid was cleaved upon activation of the Fas receptor with an anti-Fas antibody. The caspase-8 inhibitor benzyloxycarbonyl-Ile-Glu(OMe)-Thr-Asp(OMe)-CH(2)F (IETD) prevented the cleavage of Bid and the loss of viability. The nuclear enzyme poly(ADP-ribose)polymerase (PARP) was also cleaved upon the activation of caspases, and IETD similarly prevented PARP cleavage. The PARP inhibitor 3-aminobenzamide (3-AB) restored the cell killing in the presence of IETD, an effect that occurred without restoration of the cleavage of Bid or PARP. In the presence of 3-AB and IETD, translocation occurred of full-length Bid to the mitochondria. The induction of the mitochondrial permeability transition (MPT) was documented by the cyclosporin A (CyA) sensitivity of the release of cytochrome c, the release of malate dehydrogenase from the mitochondrial matrix, the loss of the mitochondrial membrane potential, and the pronounced swelling of these organelles, as assessed by electron microscopy. In addition to preventing all evidence of the MPT, CyA prevented the loss of cell viability, without effect on the cleavage of either Bid or PARP. The prevention of PARP cleavage by inhibition of caspase-3 resulted in a 10-fold activation of the enzyme and a resultant depletion of NAD and ATP. The PARP inhibitor 3-AB prevented the loss of NAD and ATP. Depletion of ATP by metabolic inhibitors similarly prevented the cell killing. It is concluded that the cleaving of PARP in Fas-mediated apoptosis allowed expression of an energy-dependent cell death program that included the translocation of full-length Bid to the mitochondria with induction of the MPT.
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PMID:Cytochrome c release upon Fas receptor activation depends on translocation of full-length bid and the induction of the mitochondrial permeability transition. 1179 Jul 91

Caspase-2 is one of the earliest identified caspases, but the mechanism of caspase-2-induced apoptosis remains unknown. We show here that caspase-2 engages the mitochondria-dependent apoptotic pathway by inducing the release of cytochrome c (Cyt c) and other mitochondrial apoptogenic factors into the cell cytoplasm. In support of these observations we found that Bcl-2 and Bcl-xL can block caspase-2- and CRADD (caspase and RIP adaptor with death domain)-induced cell death. Unlike caspase-8, which can process all known caspase zymogens directly, caspase-2 is completely inactive toward other caspase zymogens. However, like caspase-8, physiological levels of purified caspase-2 can cleave cytosolic Bid protein, which in turn can trigger the release of Cyt c from isolated mitochondria. Interestingly, caspase-2 can also induce directly the release of Cyt c, AIF (apoptosis-inducing factor), and Smac (second mitochondria-derived activator of caspases protein) from isolated mitochondria independent of Bid or other cytosolic factors. The caspase-2-released Cyt c is sufficient to activate the Apaf-caspase-9 apoptosome in vitro. In combination, our data suggest that caspase-2 is a direct effector of the mitochondrial apoptotic pathway.
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PMID:Caspase-2 induces apoptosis by releasing proapoptotic proteins from mitochondria. 1183 78

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL/Apo2L) has been shown to induce apoptosis in malignant cells without harming normal cells. To determine the antitumor potential of TRAIL against prostate cells, we undertook a comprehensive study that included eight prostate cancer cells lines (CWR22Rv1, Du145, DuPro, JCA-1, LNCaP, PC-3, PPC-1, and TsuPr1) and primary cultures of normal prostate epithelial cells (PrEC). Cells were tested for susceptibility to soluble TRAIL in the presence or absence of the chemotherapeutic agent doxorubicin. TRAIL was also delivered by an adenoviral vector. Our results reveal that Du145, DuPro, LNCap, TsuPr1, and PrEC were resistant to 100 ng/mL TRAIL. JCA-1 and PPC-1 were slightly sensitive (20% killing) and PC-3 and CWR22Rv1 exhibited the highest sensitivity to TRAIL (30% and 50% killing, respectively). The combination of 10 ng/mL TRAIL with doxorubicin resulted in 60-80% cytotoxicity in seven of eight prostate cancer cells. TRAIL-mediated apoptosis involved cleavage of Bid, caspase-3, and PARP, and required caspase-8 and -9 activity. Full-length TRAIL delivered by an adenoviral vector (AdTRAIL-IRES-GFP) killed prostate cancer cell lines and PrEC without requisite doxorubicin cotreatment. Therefore, expression of the transgene from a tissue-specific promotor would make gene therapy with AdTRAIL-IRES-GFP a possibility.
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PMID:Resistance of prostate cancer cells to soluble TNF-related apoptosis-inducing ligand (TRAIL/Apo2L) can be overcome by doxorubicin or adenoviral delivery of full-length TRAIL. 1185 34

Two ovarian cancer cell lines named NOS4 and SKOV-3 have been shown to have different sensitivities to a cytotoxic anti-Fas antibody, CH-11. Although both cell lines express Fas molecules on the cell surfaces at the same intensities, apoptosis is induced by CH-11 in NOS4 cells but not in SKOV-3 cells. In this study, the different apoptosis-sensitivities of these cells were assessed. Both cell lines express almost the same levels of FADD, RIP, c-FLIP, FAP-1, Bax, Bcl-2 and Bcl-XL. Evidence of caspase-8, caspase-9 and caspase-3 activation and of cleavage of PARP and Bid was obtained in NOS4 cells but not in SKOV-3 cells. When triggered by FasL protein, DNA fragmentation and caspase-8 activation were observed in SKOV-3 cells, though they were not as clear as in NOS4 cells. All the anti-Fas antibody-mediated signals for apoptosis induction in NOS4 cells were completely blocked by a caspase-8-specific inhibitor, Z-IETD-FMK. These results indicate that the different sensitivities to the anti-Fas antibody are solely dependent on the activation of caspase-8, which could be influenced by yet unknown qualitative or quantitative abnormalities in molecules involved in DISC formation.
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PMID:Activation of caspase-8 is critical for sensitivity to cytotoxic anti-Fas antibody-induced apoptosis in human ovarian cancer cells. 1186 94

We treated four hepatocellular carcinoma cell lines, HLE, HLF, HuH7, and HepG2 with ATO and demonstrated that arsenic trioxide (ATO) at low doses (1--3 muM) induced a concentration-dependent suppression of cell growth in HLE, HLF, and HuH7. HLE cells underwent apoptosis at 2 microM ATO, which was executed by the activation of caspase-3 through the mitochondrial pathway mediated by caspase-8 activation and Bid truncation. When these cell lines were exposed to ATO in combination with l-S,R-buthionine sulfoximine (BSO) which inhibits GSH synthesis, a synergistic growth suppression was induced, even in HepG2 showing a lower sensitivity to ATO than other cell lines tested. The intracellular GSH levels after the treatment with ATO plus BSO were considerably decreased in HLE cells compared with those after the treatment with ATO or BSO alone. The production of reactive oxygen species (ROS) which was examined by 2' ,7' -dichlorodihydrofluorescein diacetate, increased significantly after the treatment with ATO plus BSO in HLE cells. These findings indicate that ATO at low concentrations induces growth inhibition and apoptosis, and furthermore that the ATO-BSO combination treatment enhances apoptosis through increased production of ROS in hepatocellular carcinoma cells.
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PMID:Arsenic trioxide-induced apoptosis and its enhancement by buthionine sulfoximine in hepatocellular carcinoma cell lines. 1186 44

Tumor necrosis factor (TNF) is a potent activator of the nuclear factor-kappaB (NF-kappaB) pathway that leads to up-regulation of anti-apoptotic proteins. Hence, TNF induces apoptosis in the presence of inhibitors of protein or RNA synthesis. We report that a novel triterpenoid, 2-cyano-3,12-dioxooleana-1,9,-dien-28-oic acid (CDDO) inhibits NF-kappaB-mediated gene expression at a step after translocation of activated NF-kappaB to the nucleus. This effect appears specific for the NF-kappaB pathway as CDDO does not inhibit gene expression induced by the phorbol ester 12-0-tetradecanoylphorbol-13-acetate (TPA). CDDO in combination with TNF caused a dramatic increase in apoptosis in ML-1 leukemia cells that was associated with activation of caspase-8, cleavage of Bid, translocation of Bax, cytochrome c release, and caspase-3 activation. Experiments with caspase inhibitors demonstrated that caspase-8 was an initiator of this pathway. TNF also induced a transient activation of c-Jun N-terminal kinase (JNK), which upon addition of CDDO was converted to a sustained activation. The activation of JNK was also dependent on caspase-8. Sustained activation of JNK is frequently pro-apoptotic, yet inhibition of JNK did not prevent Bax translocation or cytochrome c release, demonstrating its lack of involvement in CDDO/TNF-induced apoptosis. Apoptosis was acutely induced by CDDO/TNF in every leukemia cell line tested including those that overexpress Bcl-x(L), suggesting that the mitochondrial pathway is not required for apoptosis by this combination. These results suggest that the apoptotic potency of the CDDO/TNF combination occurs through selective inhibition of NF-kappaB-dependent anti-apoptotic proteins, bypassing potential mitochondrial resistance mechanisms, and thus may provide a basis for the development of novel approaches to the treatment of leukemia.
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PMID:The novel triterpenoid 2-cyano-3,12-dioxooleana-1,9-dien-28-oic acid (CDDO) potently enhances apoptosis induced by tumor necrosis factor in human leukemia cells. 1188 Mar 65

Following caspase-8 mediated cleavage, a carboxyl-terminal fragment of the BH3 domain-only Bcl-2 family member Bid transmits the apoptotic signal from death receptors to mitochondria. In a screen for possible regulators of Bid, we defined Bfl-1/A1 as a potent Bid interacting protein. Bfl-1 is an anti-apoptotic Bcl-2 family member, whose preferential expression in hematopoietic cells and endothelium is controlled by inflammatory stimuli. Its mechanism of action is unknown. We find that Bfl-1 associates with both full-length Bid and truncated (t)Bid, via the Bid BH3 domain. Cellular expression of Bfl-1 confers protection against CD95- and Trail receptor-induced cytochrome c release. In vitro assays, using purified mitochondria and recombinant proteins, demonstrate that Bfl-1 binds full-length Bid, but does not interfere with its processing by caspase-8, or with its mitochondrial association. Confocal microscopy supports that Bfl-1, which at least in part constitutively localizes to mitochondria, does not impede tBid translocation. However, Bfl-1 remains tightly and selectively bound to tBid and blocks collaboration between tBid and Bax or Bak in the plane of the mitochondrial membrane, thereby preventing mitochondrial apoptotic activation. Lack of demonstrable interaction between Bfl-1 and Bak or Bax in the mitochondrial membrane suggests that Bfl-1 generally prevents the formation of a pro-apoptotic complex by sequestering BH3 domain-only proteins.
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PMID:Bcl-2 family member Bfl-1/A1 sequesters truncated bid to inhibit is collaboration with pro-apoptotic Bak or Bax. 1192 71

Primary or acquired resistance to current treatment protocols remains a major concern in clinical oncology and may be caused by defects in apoptosis programs. Since recent data suggest that TRAIL can bypass apoptosis resistance caused by Bcl-2, we further investigated the role of Bcl-2 in TRAIL-induced apoptosis. Here we report that overexpression of Bcl-2 conferred protection against TRAIL in neuroblastoma, glioblastoma or breast carcinoma cell lines. Bcl-2 overexpression reduced TRAIL-induced cleavage of caspase-8 and Bid indicating that caspase-8 was activated upstream and also downstream of mitochondria in a feedback amplification loop. Importantly, Bcl-2 blocked cleavage of caspases-9, -7 and -3 into active subunits and cleavage of the caspase substrates DFF45 or PARP. Also, Bcl-2 blocked cleavage of XIAP and overexpression of XIAP conferred resistance against TRAIL indicating that apoptosis was also amplified through a feedforward loop between caspases and XIAP. In contrast, in SKW lymphoblastoid cells, TRAIL-induced activation of caspase-8 directly translated into full activation of caspases, cleavage of XIAP, DFF45 or PARP and apoptosis independent of Bcl-2 overexpression, although Bcl-2 similarly inhibited loss of mitochondrial membrane potential and the release of cytochrome c, AIF and Smac from mitochondria in all cell types. By demonstrating a cell type dependent regulation of the TRAIL signaling pathway at different level, e.g. by Bcl-2 and by XIAP, these findings may have important clinical implication. Thus, strategies targeting the molecular basis of resistance towards TRAIL may be necessary in some tumors for cancer therapy with TRAIL.
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PMID:Inhibition of TRAIL-induced apoptosis by Bcl-2 overexpression. 1194 12

Second mitochondria-derived activator of caspases (Smac)/DIABLO is a mitochondrial protein that is released into the cytosol along with cytochrome c (cyt c) during the execution of the intrinsic pathway of apoptosis. Smac/DIABLO promotes apoptosis by neutralizing the inhibitory effect of the inhibitor of apoptosis (IAP) family of proteins on the processing and activities of the effector caspases. Present studies demonstrate that, upon engagement of the mitochondrial pathway of apoptosis, epothilone (Epo) B derivative BMS 247550, a novel nontaxane antimicrotubule agent, as well as the death ligand Apo-2L/TRAIL (tumor necrosis factor-alpha-related apoptosis-inducing ligand) induce the mitochondrial release and cytosolic accumulation of Smac/DIABLO, along with cyt c, in human acute leukemia Jurkat T cells. While it had no activity alone, ectopic overexpression of Smac/DIABLO or treatment with the N-terminus heptapeptide (Smac-7) or tetrapeptide (Smac-4) of Smac/DIABLO significantly increased Epo B- or Apo-2L/TRAIL-induced processing and PARP cleavage activity of caspase-3. This produced a significant increase in apoptosis of Jurkat cells (P <.05). Increased apoptosis was also associated with the down-regulation of XIAP, cIAP1, and survivin. Along with the increased activity of caspase-3, ectopic overexpression of Smac/DIABLO or cotreatment with Smac-4 also increased Epo B- or Apo-2L/TRAIL-induced processing of caspase-8 and Bid, resulting in enhanced cytosolic accumulation of cyt c. This was not due to increased assembly and activity of Apo-2L/TRAIL-induced DISC (death-inducing signaling complex) but dependent on the feedback activity of caspase-3. These findings demonstrate that cotreatment with the N-terminus Smac/DIABLO peptide is an effective strategy to enhance apoptosis triggered by the death receptor or mitochondrial pathway and may improve the antitumor activity of Apo-2L/TRAIL and Epo B.
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PMID:Ectopic overexpression of second mitochondria-derived activator of caspases (Smac/DIABLO) or cotreatment with N-terminus of Smac/DIABLO peptide potentiates epothilone B derivative-(BMS 247550) and Apo-2L/TRAIL-induced apoptosis. 1196 12

The mitochondrial pathway is critical for the efficient execution of death receptor-initiated apoptosis in certain cell types. Questions remain as to why the mitochondria are required in that scenario. We investigated the molecular events that determined the need for the mitochondria by using an in vivo model of anti-Fas-induced hepatocyte apoptosis. In wild-type mice, Fas stimulation resulted in normal activation of caspase-3, with the generation of the active p19-p12 complex. In bid-deficient mice, caspase-3 activation was arrested after the initial cleavage at Asp(175). This allowed the generation of the p12 small subunit, but the p20 large subunit could not be further processed to the p19 subunit. The p20-p12 complex generated by Fas stimulation in bid-deficient hepatocytes was inactive, arresting the death program. Failure of p20/p12 caspase-3 to mature and to exhibit activity was because of the inhibition by the inhibitor-of-apoptosis proteins (IAPs), such as XIAP, and also to a low caspase-8 activity. This block could be overcome in wild-type mice by two mechanisms. Smac was released from mitochondria early following Fas activation and was competitively bound to the IAPs to reverse their effects. XIAP could also be cleaved, and this occurred later and was likely mediated by enhanced caspase activities. Both mechanisms were dependent on Bid and thus were not operative in bid-deficient hepatocytes. In conclusion, mitochondrial activation by Bid is required for reversing the IAP inhibition through Smac release. It is also required for the alternative activation of caspases through cytochrome c release, as demonstrated previously. Together, these events ensure a successful progression of the death program initiated by the death receptor activation in the hepatocyte.
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PMID:Relief of extrinsic pathway inhibition by the Bid-dependent mitochondrial release of Smac in Fas-mediated hepatocyte apoptosis. 1268 80

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