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:3.4.22.61 (caspase-8)
6,833 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fas ligand (FasL) has been well characterized as a death factor. However, recent studies revealed that FasL possesses inflammatory activity. Here we found that FasL induces production of the inflammatory chemokine IL-8 without inducing apoptosis in HEK293 cells. Reporter gene assays involving wild-type and mutated IL-8 promoters and NF-kappaB- and AP-1 reporter constructs indicated that an FasL-induced NF-kappaB and AP-1 activity are required for maximal promoter activity. FasL induced NF-kappaB activation with slower kinetics than did TNF-alpha, yet this response was cell autonomous and not mediated by secondary paracrine factors. The death domain of Fas, FADD, and caspase-8 were required for NF-kappaB activation by FasL. A dominant-negative mutant of IKKgamma inhibited the FasL-induced NF-kappaB activation. However, TRADD and RIP, which are essential for the TNF-alpha-induced NF-kappaB activation, were not involved in the FasL-induced NF-kappaB activation. Moreover, CLARP/FLIP inhibited the FasL- but not the TNF-alpha-induced NF-kappaB activation. These results show that FasL induces NF-kappaB activation and IL-8 production by a novel mechanism, distinct from that of TNF-alpha. In addition, we found that mouse FADD had a dominant-negative effect on the FasL-induced NF-kappaB activation in HEK293 cells, which may indicate a species difference between human and mouse in the FasL-induced NF-kappaB activation.
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PMID:Fas ligand induces cell-autonomous NF-kappaB activation and interleukin-8 production by a mechanism distinct from that of tumor necrosis factor-alpha. 1533 58

We have demonstrated that focal adhesion kinase (FAK)-overexpressed (HL-60/FAK) cells have marked resistance against various apoptotic stimuli such as hydrogen peroxide, etoposide, and ionizing radiation compared with the vector-transfected (HL-60/Vect) cells. HL-60/FAK cells are highly resistant to TRAIL-induced apoptosis, while original HL-60 or HL-60/Vect cells were sensitive. TRAIL at 500 ng/ml induced significant DNA fragmentation, activation of caspase-8 and 3, the processing of a proapoptotic BID, and mitochondrial release of cytochrome c in HL-60/Vect cells, whereas no such events were observed in the HL-60/FAK cells. In particular, the expression of procaspase-8 gene and subsequent cleavage of caspase-8 were markedly reduced in HL-60/FAK cells, while expression of TRAIL-receptor 2 and 3, TRADD, and FADD was equivalent in both types of cells. In HL-60/FAK cells, the phosphoinositide 3 (PI3)-kinase/Akt survival pathway was constitutively activated, accompanied by significant induction of inhibitor-of-apoptosis proteins, XIAP, RIP, and Bcl-XL. The introduction of FAK siRNA in HL-60/FAK cells sensitized them against TRAIL-induced apoptosis, confirming that overexpressed FAK downregulates procaspase-8 expression, which subsequently inhibits downstream apoptosis pathway in the HL-60/FAK cells.
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PMID:Down-regulation of procaspase-8 expression by focal adhesion kinase protects HL-60 cells from TRAIL-induced apoptosis. 1536 72

The tumor necrosis factor (TNF) ligand-receptor system plays an essential role in apoptosis that contributes to secondary damage after traumatic brain injury (TBI). TNF also stimulates inflammation by activation of gene transcription through the IkappaB kinase (IKK)/NF-kappaB and JNK (c-Jun N-terminal protein kinase)/AP-1 signaling cascades. The mechanism by which TNF signals between cell death and survival and the role of receptor localization in the activation of downstream signaling events are not fully understood. Here, TNF receptor 1 (TNFR1) signaling complexes in lipid rafts were investigated in the cerebral cortex of adult male Sprague Dawley rats subjected to moderate (1.8-2.2 atmospheres) fluid-percussion TBI and naive controls. In the normal rat cortex, a portion of TNFR1 was present in lipid raft microdomains, where it associated with the adaptor proteins TRADD (TNF receptor-associated death domain), TNF receptor-associated factor-2 (TRAF-2), the Ser/Thr kinase RIP (receptor-interacting protein), TRAF1, and cIAP-1 (cellular inhibitor of apoptosis protein-1), forming a survival signaling complex. Moderate TBI resulted in rapid recruitment of TNFR1, but not TNFR2 or Fas, to lipid rafts and induced alterations in the composition of signaling intermediates. TNFR1 and TRAF1 were polyubiquitinated in lipid rafts after TBI. Subsequently, the signaling complex contained activated caspase-8, thus initiating apoptosis. In addition, TBI caused a transient activation of NF-kappaB, but receptor signaling interacting proteins IKKalpha and IKKbeta were not detected in raft-containing fractions. Thus, redistribution of TNFR1 in lipid rafts and nonraft regions of the plasma membrane may regulate the diversity of signaling responses initiated by these receptors in the normal brain and after TBI.
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PMID:Tumor necrosis factor receptor 1 and its signaling intermediates are recruited to lipid rafts in the traumatized brain. 1559 Sep 16

Niemann-Pick disease type C (NP-C) is an autosomal recessive neurovisceral storage disease with neurodegeneration caused by mutations in either the NPC-1 or NPC-2 gene. The murine ortholog of NPC-1 is mutated in BALB/c npc(nih) and this mutant mouse shows equally conspicuous neurodegeneration and loss of neurons. However, the molecular mechanisms causing neurodegeneration in NP-C remain elusive. Here, we report the presence of apoptotic cells detected by both TUNEL staining and electron microscopy in the cerebrum and cerebellum of human patients and the mouse model. Moreover, we found that with progression of the disease process leading to neuronal cell death, an up-regulation of genes involved in the TNF-alpha death pathway caspase-8, FADD, TNFRp55, TRADD, and RIP-by an RNA protection assay. Furthermore, RT-PCR showed that TNF-alpha mRNA expression level also increased up to 30-50-fold in the cerebellum of 7- and 9-week-old NP-C mice compared with wild-type mice. Elevated expression of TNF-alpha was detected in both neurons and astrocytes with TNF-alpha-expressing astrocytes distributed in the affected brain regions. Collectively, our results suggest that the cell death in the brain of NP-C disease occurs through apoptosis and it is mediated by the TNF receptor superfamily pathway.
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PMID:Apoptosis accompanied by up-regulation of TNF-alpha death pathway genes in the brain of Niemann-Pick type C disease. 1563 90

CIN85 is a multidomain protein that associates with receptors carrying tyrosine kinase domains. Here we report that it is also a component of the signaling complex associated with tumor necrosis factor receptor 1 (TNFR1), which lacks a tyrosine kinase domain. This was established by showing that CIN85 was co-precipitated with TNFR1, TRADD, cIAP-1 and TARF1/2, but not with FADD, RIP, caspase-8 or TRAF6. However, CIN85 did not bind directly to the cytoplasmic domain of TNFR1 (TNFR1-CYT) but to Src family kinases, Cbl and the p85alpha subunit of phosphatidylinositol 3-kinase (PI3-K p85alpha). Src bound directly to TNFR1-CYT, but Cbl and PI3-K p85alpha did not. A human cell line ectopically expressing CIN85 was 10 times more susceptible to TNF-alpha-induced apoptosis than control cells, which expressed identical levels of TNFR1 on their surface. However, the susceptibility of these two cell lines to CD95-induced apoptosis was the same. The three SH3 domains of CIN85 were essential for this increased susceptibility to apoptosis and its proline-rich regions were also required for maximal effect. TNF-alpha treatment recruited CIN85 to the TNFR1 signaling complex. Taken together, these results indicate that CIN85 associates with TNFR1 via Src and modulates TNF-alpha-induced apoptosis.
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PMID:CIN85 associates with TNF receptor 1 via Src and modulates TNF-alpha-induced apoptosis. 1570 90

Although caspase-8 has an established role as an initiator of death receptor-mediated apoptosis, the function of its closest homolog, caspase-10, is almost completely unknown. To gain a closer insight into the physiological function of caspase-10, we compared the cleavage of known caspase-8 substrates by both initiator caspases. We demonstrate that caspase-10 and -8 have overlapping cleavage preferences for several substrates such as the kinases RIP and PAK2. Interestingly, in other substrates, such as the Bcl-2 protein Bid, we found additional and distinct cleavage sites for both caspases, which might have important consequences for mitochondrial targeting and propagation of the death signal. Caspase-8 and -10 also caused different interchain cleavage patterns of their enzyme precursors. Together, these results suggest that caspase-8 and -10, despite having overlapping functions, also have selective substrate cleavage specificities and might thereby exert nonredundant roles in apoptosis signaling.
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PMID:Unique and overlapping substrate specificities of caspase-8 and caspase-10. 1618 8

Activation-induced cell death (AICD) in activated T lymphocytes is largely mediated by Fas/Fas ligand (FasL) interaction. The cytoplasmic adaptor molecule Fas-associated death domain protein (FADD) plays an essential role in the apoptotic signalling of the Fas death pathway. In the present study, we observed that FADD deficient (FADD(-/-)) Jurkat T cells undergo AICD to a similar extent as wild-type cells. AICD in wild-type Jurkat T cells is via apoptosis, whereas it is non-apoptotic in FADD(-/-) cells. The latter took up propidium iodide, exhibit a loss in mitochondrial membrane potential and have no detectable cleavage products of caspase-8 or -3 activation, suggesting that these cells die by necrosis. Wild-type Jurkat T cells undergo apoptosis when incubated with recombinant FasL and Trail but not with TNF-alpha. In contrast, FADD(-/-) Jurkat T cells are resistant to FasL and Trail but die of necrosis when incubated with TNF-alpha. We showed that neutralising anti-TNF-alpha blocked AICD as well as TNF-alpha-induced necrosis in FADD(-/-) Jurkat T cells. Furthermore, down regulating the receptor interacting protein, RIP, with geldanamycin treatment, which is essential for TNF-alpha signalling, markedly inhibited AICD in FADD(-/-) Jurkat T cells. In addition, caspase-8-deficient Jurkat T cells are resistant to Fas- and TNF-alpha-induced cell death. Taken together, our results suggest that a deficiency in FADD and not caspase-8 or the inhibition of the Fas signalling pathway sensitises Jurkat T cells to TNF-alpha-dependent necrosis during AICD.
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PMID:FADD deficiency sensitises Jurkat T cells to TNF-alpha-dependent necrosis during activation-induced cell death. 1628 96

Ceramide metabolism has emerged as a potential target for anticancer therapy. Here, the potential usefulness of two novel synthetic ceramide analogs as anti-leukemic drugs was investigated. Compounds AD2646 and AD2687 were able to dose-and time-dependently decrease the viability of Jurkat leukemic cells. This was accompanied by an accumulation of endogenous ceramide owing to perturbed ceramide metabolism. Cytotoxicity involved caspase activation but also necrotic-like features, as evidenced by phosphatidylserine externalization, membrane permeability, hypodiploidy, caspase processing and only partial protection from cell death by a pan-caspase inhibitor. Ceramide analogs also induced cell death in Jurkat mutants that are deficient in cell death signaling proteins, including FADD, caspase-8 and 10, and RIP. While overexpression of Bcl-xL did not suppress ceramide accumulation, it conferred robust protection from caspase activation and cell death. Altogether, these novel ceramide analogs are able to kill leukemic cells through distinct pathways implicating caspase activation and mitochondrial events, and represent a new group of bioactive molecules with potential applications in anticancer therapy.
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PMID:Caspase-dependent and -independent cell death of Jurkat human leukemia cells induced by novel synthetic ceramide analogs. 1639 4

The CD95 and TRAIL death receptors can potently stimulate proinflammatory signalling, especially in apoptosis resistant cells. Here, we show that caspases are of cell type-specific relevance for non-apoptotic death receptor signalling in pancreatic tumour cells. Inhibition of caspases by zVAD-fmk strongly enhanced the proinflammatory response in PancTuI, BxPc3 and Panc89 cells, but inhibited this response in Colo357 cells as well as in apoptosis-resistant Colo357-BclxL cells overexpressing BclxL. To characterize the role of caspases in non-apoptotic death receptor signalling, we analysed CD95L- and TRAIL-induced signalling pathways in Colo357-BclxL cells in comparison with PancTuI cells. Both death ligands induced NFkappaB, ERKs, JNK and p38 in Colo357-BclxL cells and except for ERKs also in PancTuI cells. However, inhibition of caspases with zVAD-fmk resulted in strong inhibition of all these signalling pathways in Colo357-BclxL, but enhanced NFkappaB and JNK signalling in PancTuI cells. Caspase-mediated activation of NFkappaB and ERKs were involved in CD95L- and TRAIL-induced up-regulation of proinflammatory genes in Colo357-BclxL cells. At the level of the DISC we did not observe any significant differences in recruitment or processing of FADD, caspase-8, FLIP, TRAF2 and RIP between PancTuI and Colo357-BclxL cells. Consequently, an NFkappaB and ERK stimulating, caspase-dependent factor must operate downstream of the DISC in Colo357-BclxL cells.
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PMID:Role of caspases in CD95L- and TRAIL-induced non-apoptotic signalling in pancreatic tumour cells. 1729 19

Heat shock induced gene expression and other cellular responses help limit the damage caused by stress and thus facilitate cellular recovery. Cellular damage also triggers apoptotic cell death through several pathways. This paper briefly reviews interactions of the major heat shock proteins with components of the apoptotic pathways. Hsp90, which acts as a chaperone for unstable signal transducers to keep them poised for activation, interacts with RIP and Akt and promotes NF-kappa B mediated inhibition of apoptosis; in addition it also blocks some steps in the apoptotic pathways. Hsp70 is mostly anti-apoptotic and acts at several levels like inhibition of translocation of Bax into mitochondria, release of cytochrome c from mitochondria,formation of apoptosome and inhibition of activation of initiator caspases. Hsp70 also modulates JNK,NF-kappa B and Akt signaling pathways in the apoptotic cascade. In contrast, Hsp60 has both anti-and pro-apoptotic roles. Cytosolic Hsp60 prevents translocation of the pro-apoptotic protein Bax into mitochondria and thus promotes cell survival but it also promotes maturation of procaspase-3,essential for caspase mediated cell death. Our recent in vivo studies show that RNAi for the Hsp60D in Drosophila melanogaster prevents induced apoptosis. Hsp27 exerts its anti-apoptotic influence by inhibiting cytochrome c and TNF-mediated cell death. alpha beta crystallin suppresses caspase-8 and cytochrome c mediated activation of caspase-3. Studies in our laboratory also reveal that absence or reduced levels of the developmentally active as well as stress induced non-coding hsr omega transcripts, which are known to sequester diverse hnRNPs and related nuclear RNA-binding proteins,block induced apoptosis in Drosophila. Modulation of the apoptotic pathways by Hsps reflects their roles as "weak links" between various "hubs" in cellular networks. On the other hand, non-coding RNAs, by virtue of their potential to bind with multiple proteins,can act as "hubs" in these networks. In view of the integrative nature of living systems, it is not surprising that stress-induced genes,generally believed to primarily function in cell survival pathways, inhibit or even promote cell death pathways at multiple levels to ensure homeostasis at cell and/or organism level. The heat shock genes obviously do much more than merely help cells survive stress.
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PMID:Heat shock genes - integrating cell survival and death. 1753 79


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