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)

As a component of the apoptosome, a caspase-activating complex, Apaf-1 plays a central role in the mitochondrial caspase activation pathway of apoptosis. We report here the identification of a novel Apaf-1 interacting protein, hepatocellular carcinoma antigen 66 (HCA66) that is able to modulate selectively Apaf-1-dependent apoptosis through its direct association with the CED4 domain of Apaf-1. Expression of HCA66 was able to potentiate Apaf-1, but not receptor-mediated apoptosis, by increasing downstream caspase activity following cytochrome c release from the mitochondria. Conversely, cells depleted of HCA66 were severely impaired for apoptosome-dependent apoptosis. Interestingly, expression of the Apaf-1-interacting domain of HCA66 had the opposite effect of the full-length protein, interfering with the Apaf-1 apoptotic pathway. Using a cell-free system, we showed that reduction of HCA66 expression was associated with a diminished amount of caspase-9 in the apoptosome, resulting in a lower ability of the apoptosome to activate caspase-3. HCA66 maps to chromosome 17q11.2 and is among the genes heterozygously deleted in neurofibromatosis type 1 (NF1) microdeletion syndrome patients. These patients often have a distinct phenotype compared to other NF1 patients, including a more severe tumour burden. Our results suggest that reduced expression of HCA66, owing to haploinsufficiency of HCA66 gene, could render NF1 microdeleted patients-derived cells less susceptible to apoptosis.
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PMID:Positive regulation of apoptosis by HCA66, a new Apaf-1 interacting protein, and its putative role in the physiopathology of NF1 microdeletion syndrome patients. 1738 Jan 55

Saturated free fatty acids (FFAs), including palmitate, can activate the intrinsic death pathway in cells. However, the relationship between FFAs and receptor-mediated death pathway is still unknown. In this study, we have investigated whether FFAs are able to trigger receptor-mediated death. In addition, to clarify the mechanisms responsible for the activation, we examined the biochemical changes in dying vascular smooth muscle cell (VSMC) and the effects of various molecules to the receptor-mediated VSMC death. Tumor necrosis factor (TNF)-alpha-mediated VSMC death occurred in the presence of sub-cytotoxic concentration of palmitate as determined by assessing viability and DNA degradation, while the cytokine did not influence VSMC viability in the presence of oleate. The VSMC death was inhibited by the gene transfer of a dominant-negative Fas-associated death domain-containing protein and the baculovirus p35, but not by the bcl-xL or the c-Jun N-terminal kinase (JNK) binding domain of JNK-interacting protein-1, in tests utilizing recombinant adenoviruses. The VSMC death was also inhibited by a neutralizing anti-TNF receptor 1 antibody, the caspase inhibitor z-VAD, and the cathepsin B inhibitor CA074, a finding indicative of the role of both caspases and cathepsin B in this process. Consistent with this finding, caspase-3 activation and an increase in cytosolic cathepsin B activity were detected in the dying VSMC. Palmitate inhibited an increase of TNF-alpha-mediated nuclear factor kappa B (NF-kappaB) activity, the survival pathway activated by the cytokine, by hindering the translocation of the NF-kappaB subunit of p65 from the cytosol into the nucleus. The gene transfer of inhibitor of NF-kappaB predisposed VSMC to palmitate-induced cell death. To the best of our knowledge, this study is the first report to demonstrate the activation of TNF-alpha-mediated cell death in the presence of palmitate. The current study proposes that FFAs would take part in deleterious vascular consequences of such patients with elevated levels of FFAs as diabetics and obese individuals via the triggering of receptor-mediated death pathways of VSMC.
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PMID:Sensitization of vascular smooth muscle cell to TNF-alpha-mediated death in the presence of palmitate. 1739 59

Despite 2-methoxyestradiol (2ME2) and tricyclodecan-9-yl-xanthogenate (D609) having multiple effects on cancer cells, mechanistically, both of them down-regulate hypoxia-inducible factor-1alpha (HIF-1alpha) and vascular endothelial growth factor (VEGF). We hypothesize HIF-1alpha plays an essential role in cerebral ischemia as a pro-apoptosis regulator; 2ME2 and D609 decrease the levels of HIF-1alpha and VEGF, that might contribute to protecting brain from ischemia injury. A total of 102 male Sprague-Dawley rats were split into five groups: sham, middle cerebral artery occlusion (MCAO), MCAO + dimethyl sulfoxide, MCAO + 2ME2, and MCAO + D609. 2ME2 and D609 were injected intraperitoneally 1 h after reperfusion. Rats were killed at 24 h and 7 days. At 24 h, 2ME2 and D609 reduce the levels of HIF-1alpha and VEGF (enzyme-linked immunosorbent assay), depress the expression of HIF-1alpha, VEGF, BCL2/adenovirus E1B 19 kDa interacting protein 3 (BNIP3) and cleaved caspase 3 (western blot and immunohistochemistry) in the brain infarct area. Double fluorescence labeling shows HIF-1alpha positive immunoreactive materials are co-localized with BNIP3 and terminal deoxynucleotidyl transferase biotin-dUTP nick end labeling inside the nuclei of neurons. At 7 days, 2ME2 and D609 reduce the infarct volume (2,3,7-triphenyltetrazolium chloride) and blood-brain barrier extravasation, decrease the mortality and improve the neurological deficits. In conclusion, 2ME2 and D609 are powerful agents to protect brain from cerebral ischemic injury by inhibiting HIF-1alpha expression, attenuating the superfluous expression of VEGF to avoid blood-brain barrier disruption and suppressing neuronal apoptosis via BNIP3 pathway.
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PMID:Multiple effects of 2ME2 and D609 on the cortical expression of HIF-1alpha and apoptotic genes in a middle cerebral artery occlusion-induced focal ischemia rat model. 1753 91

The pleckstrin homology domain-interacting protein (PHIP) was originally identified as a 902-amino-acid (aa) protein that regulates insulin receptor-stimulated GLUT4 translocation in skeletal-muscle cells. Immunoblotting and immunohistological analyses of pancreatic beta-cells reveal prominent expression of a 206-kDa PHIP isoform restricted to the nucleus. Herein, we report the cloning of this larger, 1,821-aa isoform of PHIP (PHIP1), which represents a novel WD40 repeat-containing protein. We demonstrate that PHIP1 overexpression stimulates insulin-like growth factor 1-dependent and -independent proliferation of beta-cells, an event which correlates with transcriptional upregulation of the cyclin D2 promoter and the accumulation of cyclin D2 protein. RNA interference knockdown of PHIP1 in INS-1 cells abrogates insulin receptor substrate 2 (IRS2)-mediated DNA synthesis, providing for a specific role for PHIP1 in the enhancement of IRS2-dependent signaling responses leading to beta-cell growth. Finally, we provide evidence that PHIP1 overexpression blocks free fatty acid-induced apoptosis in INS-1 cells, which is accompanied by marked activation of phosphoprotein kinase B (PKB)/AKT and the concomitant inhibition of caspase-9 and caspase-3 cleavage. Our finding that the restorative effect of PHIP1 on beta-cell lipotoxicity can be attenuated by the overexpression of dominant-negative PKB suggests a key role for PKB in PHIP1-mediated cytoprotection. Taken together, these findings provide strong support for PHIP1 as a novel positive regulator of beta-cell function. We suggest that PHIP1 may be involved in the induction of long-term gene expression programs to promote beta-cell mitogenesis and survival.
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PMID:Identification of a WD40 repeat-containing isoform of PHIP as a novel regulator of beta-cell growth and survival. 1763 24

While Bcl-2 plays an important role in cell apoptosis, its relationship to the orphan nuclear receptors remains unclear. Here we report that mouse embryonic fibroblast (MEF) cells prepared from TR4-deficient (TR4(-/-)) mice are more susceptible to UV-irradiation mediated apoptosis compared to TR4-Wildtype (TR4(+/+)) littermates. Substantial increasing TR4(-/-) MEF apoptosis to UV-irradiation was correlated to the down-regulation of Bcl-2 RNA and protein expression and collaterally increased caspase-3 activity. Furthermore, this TR4-induced Bcl-2 gene expression can be suppressed by co-transfection with TR4 coregulators, such as androgen receptor (AR) and receptor-interacting protein 140 (RIP140) in a dose-dependent manner. Together, our results demonstrate that TR4 might function as an apoptosis modulator through induction of Bcl-2 gene expression.
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PMID:TR4 orphan nuclear receptor functions as an apoptosis modulator via regulation of Bcl-2 gene expression. 1765 26

Map kinase-interacting protein kinases 1 and 2 (MNK1, MNK2) function downstream of p38 and ERK MAP kinases, but there are large gaps in our knowledge of how MNKs are regulated and function. Mice deleted of both genes are apparently normal, suggesting that MNKs function in adaptive pathways during stress. Here, we show that mouse embryo fibroblasts (MEFs) obtained from mnk1 (-/-)/mnk2 (-/-) as well as mnk1 (-/-) and mnk2 (-/-) mice are sensitized to caspase-3 activation upon withdrawal of serum in comparison to wild-type cells. Caspase-3 cleavage occurs with all cells in the panel, but most rapidly and robustly in cells derived from mice lacking both MNK genes. Treatment of wild-type MEFs in the panel with a compound (CGP57380) that inhibits MNK1 and MNK2 sensitizes wild-type cells for serum-withdrawal induced apoptosis, suggesting that sensitization is due to loss of MNK function and not to a secondary event. Reintroduction of wild-type MNK1 in the double knockout MEFs results in decreased sensitivity to serum withdrawal that is not observed for wild-type MNK2, or the kinase dead variant. Our work identifies MNKs as kinases involved in anti-apoptotic signaling in response to serum withdrawal.
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PMID:Loss of MNK function sensitizes fibroblasts to serum-withdrawal induced apoptosis. 1790 73

Autophagy is a highly regulated cellular mechanism for the bulk degradation of cytoplasmic contents which seems to be implicated in a variety of physiological and pathological conditions relevant to neurological diseases. We were prompted to examine whether autophagy is involved in mechanisms of cell death after focal cerebral ischemia. To do so, we examined the protein level and distribution of Beclin 1 (Bcl2 interacting protein) and microtubule-associated protein 1 light chain 3 (LC3) which were previously found to promote autophagy. We found a dramatic elevation in Beclin 1 levels in the penumbra of rats challenged by cerebral ischemia. Beclin 1 elevations start at early stages postischemia (6 h) and it lasts for at least 48 h. A subpopulation of Beclin 1-upregulating cells is also expressing the active form of caspase-3. In addition, not all Beclin 1-upregulating cells display dense staining of LC3. Neuronal cells that overexpress Beclin 1 may exhibit damaged DNA but without changes in nuclear morphology, which indicates that not all the Beclin 1-upregulating cells are predestined to die. The upregulation of Beclin 1 and related changes of LC3 in the ischemic penumbra may represent enhanced autophagy either as a mechanism to recycle injured cells and reduce damage or a process leading to cell demise.
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PMID:Focal cerebral ischemia induces upregulation of Beclin 1 and autophagy-like cell death. 1793 1

GTPase ras-related C3 botulinum toxin substrate 1 (Rac1) plays a role in various cellular processes pertinent to cancer development. In the present study, we investigated the molecular mechanisms underlying apoptosis regulation by Rac1 through functional proteomic analysis of three human melanoma M14 cell lines stably transfected with constitutively active Rac1V12, dominant negative Rac1N17, and empty vector (pIRES), respectively. We found that paclitaxel evoked apoptosis in the melanoma cell lines through the intrinsic (mitochondria) pathway in a caspsae-3-dependent manner. Compared to the Rac1pIRES and Rac1V12 cells, Rac1N17 cells were more resistant to paclitaxel-triggered caspase-3 activation and apoptosis. Protein composition comparisons amongst the three cell lines identified two peptide spots of interest. One was Hsp27, which was upregulated in Rac1N17 cells as assessed in our gel image interpretation, PMF and Western blot analysis. The other was identified as SR-25 protein (also known as the ADP-ribosylation factor-like factor 6-interacting protein 4; ARL6IP4) using PMF, which was separated only from the Rac1N17 cells under the experimental conditions. Moreover, knockdown of the protein level of Hsp27 using small interfering RNA in Rac1N17 cells significantly increased the paclitaxel-elicited caspase-3 activation and apoptosis. In conclusion, our results implicate that Hsp27 and SR-25 are mediators in Rac1 signaling pathway(s). It appears that the dominant negative Rac1N17 reduces the apoptosis sensitivity toward paclitaxel in the melanoma cells through upregulation of Hsp27, which inhibits its down stream drug-elicited caspase-3 activation.
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PMID:Dominant negative Rac1 attenuates paclitaxel-induced apoptosis in human melanoma cells through upregulation of heat shock protein 27: a functional proteomic analysis. 1795 76

Bcl-2/adenovirus E1B 19-kDa-interacting protein 3 (BNIP3), a Bcl-2 homology domain 3 (BH3) domain only protein, has been identified as a mitochondrial mediator of hypoxia-induced cell death. Since cyanide produces histotoxic anoxia (chemical hypoxia), the present study was undertaken in primary rat cortical cells to determine involvement of the BNIP3 signaling pathway in cyanide-induced death. Over a 20 h exposure KCN increased BNIP3 expression, followed by a concentration-related apoptotic death. To determine if BNIP3 plays a role in the cell death, expression was either increased with BNIP3 cDNA (BNIP3+) or knocked down with small interfering RNA (RNAi). In BNIP3+ cells, cyanide-induced apoptotic death was markedly enhanced and preceded by reduction of mitochondrial membrane potential (delta psim), release of cytochrome c from mitochondria and elevated caspase 3 and 7 activity. Pretreatment with the pan-caspase inhibitor N-benzyloxycarbonyl-Ala-Asp-fluoromethyl ketone (zVAD-fmk) suppressed BNIP3+-mediated cell death, thus confirming a caspase-dependent apoptosis. On the other hand, BNIP3 knockdown by RNAi or antagonism of BNIP3 by a transmembrane-deleted dominant-negative mutant (BNIP3 delta TM) markedly reduced cell death. Immunohistochemical imaging showed that cyanide stimulated translocation of BNIP3 from cytosol to mitochondria and displacement studies with BNIP3 delta TM showed that integration of BNIP3 into the mitochondrial outer membrane was necessary for the cell death. In BNIP3+ cells, cyclosporin-A, an inhibitor of mitochondrial pore transition, blocked the cyanide-induced reduction of delta psim and decreased the apoptotic death. These results demonstrate in cortical cells that cyanide induces a rapid upregulation of BNIP3 expression, followed by translocation to the mitochondrial outer membrane to reduce delta psim. This was followed by mitochondrial release of cytochrome c to execute a caspase-dependent cell death.
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PMID:Upregulation of BNIP3 and translocation to mitochondria mediates cyanide-induced apoptosis in cortical cells. 1798 Apr 95

Here we discuss the probable role of autophagy in cerebral ischemia based on our own recent data and the literature. We examined the protein level of Beclin 1 (Bcl-2 interacting protein) and microtubule-associated protein 1 light chain 3 (LC3) which were previously found to promote autophagy. We found a dramatic elevation in Beclin 1 levels and LC3 in the penumbra of rats challenged by cerebral ischemia. We found also that a subpopulation of Beclin 1-upregulating cells is also expressing the active form of caspase-3, and that all Beclin 1 upregulating cells display dense staining of LC3. Neuronal cells that overexpress Beclin 1 may exhibit damaged DNA but without changes in nuclear morphology, which indicates that not all the Beclin 1-upregulating cells are predestined to die. We conclude that the cell death in the penumbra bears a resemblance not only to necrosis, apoptosis, or a compromise between the two, but exhibits also biochemical and morphological characteristics of autophagic cell death. The question that constantly arises, however, is whether autophagic activity in damaged cells is the cause of death or is actually an attempt to prevent it as a part of an endogenous neuroprotective response.
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PMID:Upregulation of Beclin 1 in the ischemic penumbra. 1807 95


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