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)

Huntington's disease is a neurodegenerative disorder caused by CAG expansion that results in expansion of a polyglutamine tract at the extreme N terminus of huntingtin (htt). htt with polyglutamine expansion is proapoptotic in different cell types. Here, we show that caspase inhibitors diminish the toxicity of htt. Additionally, we define htt itself as an important caspase substrate by generating a site-directed htt mutant that is resistant to caspase-3 cleavage at positions 513 and 530 and to caspase-6 cleavage at position 586. In contrast to cleavable htt, caspase-resistant htt with an expanded polyglutamine tract has reduced toxicity in apoptotically stressed neuronal and nonneuronal cells and forms aggregates at a much reduced frequency. These results suggest that inhibiting caspase cleavage of htt may therefore be of potential therapeutic benefit in Huntington's disease.
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PMID:Inhibiting caspase cleavage of huntingtin reduces toxicity and aggregate formation in neuronal and nonneuronal cells. 1077 Sep 29

Decreased phosphorylation of focal adhesion kinase and paxillin is associated with loss of focal adhesions and stress fibers and precedes the onset of apoptosis (van de Water, B., Nagelkerke, J. F., and Stevens, J. L. (1999) J. Biol. Chem. 274, 13328-13337). The cortical actin cytoskeletal network is also lost during apoptosis, yet little is known about the temporal relationship between altered phosphorylation of proteins that are critical in the regulation of this network and their potential cleavage by caspases during apoptosis. Adducins are central in the cortical actin network organization. Cisplatin caused apoptosis of renal proximal tubular epithelial cells, which was associated with the cleavage of alpha-adducin into a 74-kDa fragment; this was blocked by a general caspase inhibitor benzyloxycarbonyl-Val-Ala-Asp-fluoromethyl ketone (z-VAD-fmk). Hemagglutinin-tagged human alpha-adducin was cleaved into a similar 74-kDa fragment by caspase-3 in vitro but not by caspase-6 or -7. Asp-Arg-Val-Asp(29)-Glu, Asp-Ile-Val-Asp(208)-Arg, and Asp-Asp-Ser-Asp(633)-Ala were identified as the principal caspase-3 cleavage sites; Asp-Asp-Ser-Asp(633)-Ala was key in the formation of the 74-kDa fragment. Cisplatin also caused an increased phosphorylation of alpha-adducin and gamma-adducin in the MARCKS domain that preceded alpha-adducin cleavage and was associated with loss of adducins from adherens junctions; this was not affected by z-VAD-fmk. In conclusion, the data support a model in which increased phosphorylation of alpha-adducin due to cisplatin leads to dissociation from the cytoskeleton, a situation rendered irreversible by caspase-3-mediated cleavage of alpha-adducin at Asp-Asp-Ser-Asp(633)-Ala.
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PMID:Cleavage of the actin-capping protein alpha -adducin at Asp-Asp-Ser-Asp633-Ala by caspase-3 is preceded by its phosphorylation on serine 726 in cisplatin-induced apoptosis of renal epithelial cells. 1082 23

Arachidonic acid administration caused apoptosis in Y79 cells, as shown by typical morphological changes, phosphatidylserine externalization, chromatin condensation, processing and activation of caspase-3 and cleavage of the endogenous caspase substrate poly-(ADP-ribose)-polymerase. Arachidonic acid also caused lamin B cleavage, suggesting caspase-6 activation. Arachidonic acid treatment was accompanied by increased formation of the lipid peroxidation end products malondialdehyde and 4-hydroxy-2-nonenal, lowering in reduced glutathione content and in mitochondrial membrane potential. Inhibiting glutathione synthesis sensitized Y79 cells to apoptosis-inducing stimuli, whilst replenishing reduced glutathione attenuated arachidonic acid toxicity. Similar findings were obtained using hydroperoxyeicosatetranoic acids (oxygenated metabolites of arachidonic acid which deplete the reduced glutathione pool) and nordihydroguaretic acid, a general inhibitor of lipooxygenase pathway. which may also trigger rapid depletion of reduced glutathione. Melittin, which is known to activate phospholipase A2, also potently induced apoptosis. Arachidonic acid toxicity was inversely related to cell density. This could depend on an increased production of molecules with antiapoptotic effect; insulin-like growth factors could most likely be one of these molecules. These results propose a role for oxidative stress in the cytotoxicity induced by arachidonic acid in Y79 cells and suggest that these cells could be protected from such toxicity as long as sufficient levels of reduced glutathione and survival factors are present.
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PMID:Induction of apoptosis by arachidonic acid in human retinoblastoma Y79 cells: involvement of oxidative stress. 1086 99

Zinc-chelating agents, including ethambutol and its metabolite 2,2'(ethylenediamino)-dibutyric acid (EDBA) are toxic to retinal ganglion cells through a glutamate dependent mechanism. We explored whether such cell death was mediated through the caspase family of cysteine proteases. Retinal cultures were treated with EDBA alone, or EDBA plus a variety of known caspase inhibitors, and ganglion cell viability was assayed. EDBA killed 20-30% of ganglion cells. A general caspase inhibitor, BAF, prevented EDBA induced ganglion cell death. Specific inhibitors of caspase-3 and caspase-6 showed a similar ability to BAF in preventing EDBA mediated ganglion cell loss, whereas inhibitors of caspase-8 and caspase-9 were not able to rescue EDBA treated ganglion cells. A caspase-1,4 inhibitor was less effective than BAF. These studies show that a caspase mediated mechanism of apoptosis accents for a portion of EDBA mediated retinal ganglion cell death. This toxicity was mediated by downstream effector caspases, 3 and 6. Caspase inhibitors may prevent ganglion cell death secondary to ethambutol treatment.
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PMID:Caspase inhibitors block zinc-chelator induced death of retinal ganglion cells. 1092 89

Resveratrol (3,5,4'-trihydroxy-trans-stilbene), in the concentration range of 20 microM and above, induced arrest in the S-phase and apoptosis in the T cell-derived T-ALL lymphocytic leukemia cell line CEM-C7H2 which is deficient in functional p53 and p16. Expression of transgenic p16/INK4A, which causes arrest in G0/G1, markedly reduced the percentage of apoptotic cells. Antagonist antibodies to Fas or FasL, or constitutive expression of crmA did not diminish the extent of resveratrol-induced apoptosis. Furthermore, a caspase-8-negative, Fas-resistant Jurkat cell line was sensitive to resveratrol-induced apoptosis which could be strongly inhibited in the Jurkat as well as in the CEM cell line by z-VAD-fmk and z-IETD-fmk. The almost complete inhibition by z-IETD-fmk and the lack of inhibition by crmA suggested caspase-6 to be the essential initiator caspase. Western blots revealed the massive conversion of procaspase-6 to its active form, while caspase-3 and caspase-2 were proteolytically activated to a much lesser extent.
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PMID:Resveratrol causes arrest in the S-phase prior to Fas-independent apoptosis in CEM-C7H2 acute leukemia cells. 1104 78

Apoptosis is orchestrated by a family of cysteine proteases known as the caspases. Fourteen mammalian caspases have been identified, three of which (caspase-3, -6, and -7) are thought to coordinate the execution phase of apoptosis by cleaving multiple structural and repair proteins. However, the relative contributions that the "executioner" caspases make to the demolition of the cell remains speculative. Here we have used cell-free extracts immuno-depleted of either caspase-3, -6, or -7 to examine the caspase requirements for apoptosis-associated proteolysis of 14 caspase substrates as well as nuclear condensation, chromatin margination, and DNA fragmentation. We show that caspase-3 is the primary executioner caspase in this system, necessary for cytochrome c/dATP-inducible cleavage of fodrin, gelsolin, U1 small nuclear ribonucleoprotein, DNA fragmentation factor 45 (DFF45)/inhibitor of caspase-activated DNase (ICAD), receptor-interacting protein (RIP), X-linked inhibitor of apoptosis protein (X-IAP), signal transducer and activator of transcription-1 (STAT1), topoisomerase I, vimentin, Rb, and lamin B but not for cleavage of poly(ADP-ribose) polymerase (PARP) or lamin A. In addition, caspase-3 was also essential for apoptosis-associated chromatin margination, DNA fragmentation, and nuclear collapse in this system. Surprisingly, although caspase-6 and -7 are considered to be important downstream effector caspases, depletion of either caspase had minimal impact on any of the parameters investigated, calling into question their precise role during the execution phase of apoptosis.
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PMID:Executioner caspase-3, -6, and -7 perform distinct, non-redundant roles during the demolition phase of apoptosis. 1105 99

We have shown previously that caspase-6 is activated in serum deprivation-mediated human neuronal cell death and correlates with increased production of Alzheimer's disease (AD) amyloid beta peptide (Abeta). Here, we show by direct microinjection of recombinant active enzymes that caspase-6 (>0.5 pg/cell) induces a protracted course of apoptosis in neurons in a caspase-specific, dose- and time-dependent manner in the presence of serum. Only transient activation of caspase-6 is required to initiate apoptosis. Caspase-6 induces apoptosis directly without the activation of other caspase effectors. Doses of caspase-6 of <0.25 pg/cell induce only 20% cell death within 16 d but render neurons vulnerable to oxidative stress, indicating that caspase activation affects neurons despite the absence of cell death. Caspase-3 induces neuronal apoptosis in 20% of the cells, whereas caspase-7 or -8 do not induce apoptosis. In contrast, astrocytes undergo apoptosis within 24 hr when microinjected with caspase-3 but not caspase-6, -7, or -8. These results show cell type-specific vulnerability to caspases in the CNS. The results suggest that activation of caspases in human neurons does not lead to an immediate and rapid process of cell death but provokes a protracted form of apoptosis. Activation of caspases in human neurons may participate in the long-term overproduction of Abeta and other potential toxic fragments resulting from caspase-mediated proteolysis. These results are consistent with the protracted and age-dependent nature of AD.
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PMID:Selective and protracted apoptosis in human primary neurons microinjected with active caspase-3, -6, -7, and -8. 1106 45

The mechanism underlying the cancericidal activity of 3-m-bromoacetylamino benzoic acid ethyl ester (3-BAABE) was investigated. 3-BAABE exerted a strong cancericidal effect on human leukemia and lymphoma cells (IC(50) < 0.2 microgram/mL) and on cell lines of prostate, colon, ductal, and kidney cancer (IC(50) 0.8 to 0.88 microgram/mL). Multiple drug resistance (MDR) had no effect on the susceptibility of human lymphoma cells to 3-BAABE, since Daudi/MDR(20) and wild-type Daudi cells had a similar susceptibility to the cytotoxic effect of 3-BAABE. The cancericidal effect of 3-BAABE, which was not associated with changes in the cell cycle, was mediated by apoptosis. Thus, cells exposed to 3-BAABE displayed the DNA fragmentation ladder characteristic for apoptosis, associated with a marked increase of the activity of apoptosis effector caspases-3 and -6, which was followed by proteolytic cleavage of DNA fragmentation factor (DFF) and poly(ADP-ribose) polymerase (PARP). Exposure of tumor cells to 3-BAABE increased the activity of apical caspase-9, but had no effect on caspase-8. Complete inhibition of 3-BAABE-induced apoptosis was exerted by LEHD-FMK, a caspase-9 inhibitor. DEVD-FMK, a caspase-3 inhibitor, and VEID-FMK, a caspase-6 inhibitor, partially inhibited 3-BAABE-induced apoptosis, whereas exposure to IETD-FMK, a caspase-8 inhibitor, had no effect. The fragmentation and elevated activity of caspase-9 in 3-BAABE-treated cells and the fact that only an inhibitor of caspase-9 abrogated 3-BAABE-induced apoptosis indicate that 3-BAABE is a distinctive compound that elicits apoptosis through a pathway that is limited specifically to activation of apical caspase-9.
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PMID:3-m-bromoacetylamino benzoic acid ethyl ester: a new cancericidal agent that activates the apoptotic pathway through caspase-9. 1107 52

Huntington Disease (HD) results from polyglutamine expansion within the N-terminus of huntingtin. We have produced yeast artificial chromosome (YAC) transgenic mice expressing normal (YAC18) and mutant (YAC46 and YAC72) human huntingtin in a developmentally appropriate and tissue-specific manner identical to the pattern of expression of endogenous huntingtin. YAC46 and YAC72 mice show early electrophysiological abnormalities indicating neuronal cytoplasmic dysfunction prior to developing nuclear inclusions or neurodegeneration. YAC72 mice display a hyperkinetic movement disorder by 7 months of age, and have evidence for selective and specific degeneration of medium spiny neurons in the lateral striatum by 12 months of age. A key molecular feature of pathology of these YAC72 mice is cleavage of huntingtin in the cytoplasm following by translocation of the resulting huntingtin N-terminal fragments into the nucleus of striatal neurons. Increasing nuclear localization of huntingtin N-terminal fragments within medium spiny neurons of the striatum occurs concomitantly with the onset of selective neurodegeneration. Because huntingtin is a caspase substrate and truncated huntingtin fragments are toxic in vitro, inhibiting caspase cleavage of huntingtin may be of potential therapeutic benefit in HD. We show that caspase inhibitors eliminate huntingtin cleavage in cells and protects them from an apoptotic stress. We also identify caspase-6 and caspase-3 cleavage sites in huntingtin and demonstrate that neuronal and non-neuronal cells expressing a caspase-resistant huntingtin with an expanded polyglutamine tract are less susceptible to apoptosis and aggregate formation. These results suggest that caspase cleavage of huntingtin may be a crucial step in aggregate formation and neurotoxicity in HD.
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PMID:Huntington disease: new insights on the role of huntingtin cleavage. 1112

The role of endogenous NO on cell survival was investigated in human melanoma cells and melanocytes. Inducible NO synthase (iNOS) was always expressed in a panel of melanoma cell lines from metastatic lesions and in normal adult melanocytes. iNOS was also detected by immunohistochemistry in melanoma cells from metastases. Release of NO by tumor cells and melanocytes was inhibited by a specific iNOS inhibitor, aminoguanidine (AMG). Inhibition of endogenous NO synthesis did not affect cell cycle progression of melanoma cells but led to cell death by apoptosis, as indicated by Annexin V/propidium iodide and terminal deoxynucleotidyltransferase-mediated dUTP nick end labeling assays. By contrast, iNOS inhibition by AMG did not promote apoptosis in normal adult melanocytes. A mitochondrial pathway was involved in melanoma apop tosis, as indicated by altered mitochondrial membrane potential (delta psi(m)) and down-regulation of Bcl-2 protein level after iNOS inhibition. AMG treatment triggered release of caspase-1, enzymatic activation of caspase-3, and degradation of poly(ADP-ribose) polymerase, one of the main caspase-3 substrates. Melanoma cell apoptosis induced by iNOS inhibition was completely blocked by peptide inhibitors of caspase-1 and caspase-3 (Ac-DEVD-CHO and AC-YVAD-CHO) or by an exogenous NO donor, sodium nitroprusside, or by addition of serum. Finally, comparison of control and AMG-treated melanoma cells by pathway-specific gene array analysis indicated that inhibition of NO synthesis led, before induction of apoptosis, to up-regulation of mRNA levels of genes involved in the apoptosis pathway such as Bax, caspase-1, caspase-3, caspase-6, gadd45beta, mdm2, and TRAIL. Taken together, these results indicate that melanoma cell survival is regulated by endogenous NO resulting from iNOS activity.
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PMID:Antiapoptotic role of endogenous nitric oxide in human melanoma cells. 1119 80


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