EC:3.4.22.56 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.22.56 (caspase-3)
35,750 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutations in the presenilin (PS) genes PSI and PS2 are involved in Alzheimer's disease (AD). Recently, apoptosis-associated cleavage of PS proteins was identified. Here we demonstrate that PS1 as well as PS2 are substrates for different members of the caspase protein family. Remarkably, the caspases acting on PS1 could be subdivided in two groups. One group, containing caspase-8, -6 and -11, cleaved PSI after residues ENDD329 and to a lesser extent after residues AQRD341. A second group consisting of caspase-3, -7 and -1 acted uniquely on AQRD341. Importantly, these two cleavage sites were also recognized by caspases in the C-terminal PS1 fragment produced by constitutive proteolysis. In decreasing order of activity, caspase-8, -3, -1, -6 and -7 proteolysed PS2 at the recognition site D326SYD329. Caspase-8 and -3 exhibited the highest proteolytic activity on both PS1 and PS2. PS1 and PS2 were not hydrolyzed by caspase-2 and PS2 also not by caspase-11. None of five missense mutations affected the sensitivity of PSI to caspase-mediated cleavage. This suggests that AD pathogenesis associated with PS1 missense mutations cannot be explained by a change in caspase-dependent processing.
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PMID:Identification of caspases that cleave presenilin-1 and presenilin-2. Five presenilin-1 (PS1) mutations do not alter the sensitivity of PS1 to caspases. 1006 90

The familial Alzheimer's disease gene products, presenilin-1 and presenilin-2, have been reported to be functionally involved in amyloid precursor protein processing, notch receptor signaling, and programmed cell death or apoptosis. However, the molecular mechanisms by which presenilins regulate these processes remain unknown. With regard to the latter, we describe a molecular link between presenilins and the apoptotic pathway. Bcl-X(L), an anti-apoptotic member of the Bcl-2 family was shown to interact with the carboxyl-terminal fragments of PS1 and PS2 by the yeast two-hybrid system. In vivo interaction analysis revealed that both PS2 and its naturally occurring carboxyl-terminal products, PS2short and PS2Ccas, associated with Bcl-X(L), whereas the caspase-3-generated amino-terminal PS2Ncas fragment did not. This interaction was corroborated by demonstrating that Bcl-X(L) and PS2 partially co-localized to sites of the vesicular transport system. Functional analysis revealed that presenilins can influence mitochondrial-dependent apoptotic activities, such as cytochrome c release and Bax-mediated apoptosis. Together, these data support a possible role of the Alzheimer's presenilins in modulating the anti-apoptotic effects of Bcl-X(L).
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PMID:Interaction of Alzheimer's presenilin-1 and presenilin-2 with Bcl-X(L). A potential role in modulating the threshold of cell death. 1044 69

The paired-pulse paradigm was used to study the maturation of CA1 population spikes (PS) in the hippocampal slices of Wistar rats. Measurements were taken daily, from postnatal day (PN) 14 to PN27. In the slices from younger animals, inputs exhibit strong paired-pulse profile, which may be associated with low synaptic efficacy. Both responses increased during the third week of life, however, PS1 increased faster so that the PS1/PS2 ratio increased during the early period and remained increased thereafter. This may reflect postnatal modifications of synaptic transmission mediating the increase in hippocampal responses. Modifications of synaptic efficacy are prevailing during early phases while other mechanisms take over at later stages. Partial correlation analysis suggests that the decline of PS amplitude after PN19 may be due to the decrease in the number of connected neurons rather than to modifications of the synaptic efficacy. Thus, the actual direction and magnitude of postnatal PS maturation is suggested to depend on the balance of these two factors. The transient decline of PS amplitude coincided with a period of caspase-3 activation. There was a clear general trend for caspase-3 activity to decrease before PN17, while the inverse trend was observed during next period up to PN21.
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PMID:Periods of postnatal maturation of hippocampus: synaptic modifications and neuronal disconnection. 1174 15

Prior studies have shown that cyclooxygenase (COX)-2, an enzyme involved in inflammatory mechanisms as well as neuronal activities, is up-regulated in the Alzheimer's disease (AD) brain and may represent a therapeutic target for anti-inflammatory treatments. We report the effect of neuronal overexpression of human (h)COX-2 in a murine model of AD neuropathology. Transgenic mice expressing both the human amyloid precursor protein mutation (APPswe) and the human presenilin (PS1-A246E) mutation, with resultant AD plaque pathology, were crossed with transgenic mice expressing human (h)COX-2 in neurons. At 12 months of age, the APPswe/PS1-A246E/hCOX-2 triple-transgenic mice showed an elevation in the number of phosphorylated retinoblastoma (pRb) tumor suppressor protein and active caspase-3 immunopositive neurons, compared to double APPswe/PS1-A246E or single hCOX-2 transgenic controls. No detectable influence of neuronal hCOX-2 on AD neuropathology was found in the brain of APPswe/PS1-A246E/hCOX-2 triple-transgenic mice, compared to double APPswe/PS1-A246E. In vitro studies revealed that hCOX-2 overexpression in primary cortico-hippocampal neurons derived from the hCOX-2 transgenics accelerates beta-amyloid (Abeta)(1-42)-mediated apoptotic damage which was prevented by the cell cycle dependent (CDK) inhibitor, flavoperidol. The data indicates that COX-2 overexpression causes alteration of neuronal cell cycle in a murine model of AD neuropathology, and provides a rational basis for targeting neuronal COX-2 in therapeutic research aimed at slowing the clinical progression of AD.
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PMID:Cyclooxygenase (COX)-2 and cell cycle activity in a transgenic mouse model of Alzheimer's disease neuropathology. 1195 94

Amyloid beta-peptide (Abeta), which plays a central role in Alzheimer Disease, is generated by presenilin-dependent and presenilin-independent gamma-secretase cleavages of beta-amyloid precursor protein (betaAPP). We report that the presenilins (PS1 and PS2) also regulate p53-associated cell death. Thus, we established that PS deficiency, catalytically inactive PS mutants, gamma-secretase inhibitors and betaAPP or APLP2 depletion reduced the expression and activity of p53, and lowered the transactivation of its promoter and mRNA levels. p53 expression was also reduced in the brains or betaAPP-deficient mice or in brains where both PS had been invalidated by double conditional knock out. AICDC59 and AICDC50, the gamma- and epsilon-secretase-derived C-terminal fragments of betaAPP, respectively, trigger the activation of caspase-3, p53-dependent cell death, and increase p53 activity and mRNA. Finally, HEK293 cells expressing PS1 harboring familial AD (FAD) mutations or FAD-affected brains, all display enhanced p53 activity and p53 expression. Our studies demonstrate that AICDs control p53 at a transcriptional level, in vitro and in vivo and unravel a still unknown function for presenilins.
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PMID:The gamma/epsilon-secretase-derived APP intracellular domain fragments regulate p53. 1790 46

The presenilin (PS)-dependent gamma-secretase activity refers to a high molecular mass-complex including, besides PS1 or PS2, three other proteins recently identified, namely nicastrin, Aph-1, and Pen-2. This proteolytic complex has been shown to contribute to both gamma- and epsilon-cleavages of the beta-amyloid precursor protein (betaAPP), thereby generating beta-amyloid peptides (Abeta) and the APP intracellular domain (AICD), respectively. TMP21, a member of the p24 cargo protein family, was recently shown to interact with PS complexes. Interestingly, TMP21 modulates gamma-secretase-mediated Abeta production but does not regulate epsilon-secretase-derived AICD formation [F. Chen, H. Hasegawa, G. Schmitt-ulms, T. Kawarai, C. Bohm, T. Katayama, Y. Gu, N. Sanjo, M. Glista, E. Rogaeva, Y. Wakutami, R. Pardossi-Piquard, X. Ruan, A. Tandon, F. Checler, P. Marambaud, K. Hansen, D. Westaway, P. St. George-Hyslop, P. Fraser, TMP21 is a presenilin complex component that modulates gamma- but not epsilon-secretase activities, Nature 440 (2006) 1208-1212]. Here we investigate the functional incidence of the over-expression or depletion of TMP21 on both intracellular and secreted Abeta recoveries and AICD-associated phenotypes. First we confirm that TMP21 depletion yields increased levels of secreted Abeta40. However, we demonstrate that both staurosporine-stimulated caspase-3 activation, p53 and neprilysin expression and activity were not affected by TMP21 over-expression or depletion. Overall, our functional data further reinforce the view that TMP21 behaves as a regulator of gamma- but not epsilon-cleavages generated by PS-dependent gamma-secretase complex.
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PMID:TMP21 regulates Abeta production but does not affect caspase-3, p53, and neprilysin. 1840 62

Ginsenoside Rg1 (Rg1) is a pharmaceutically active component of ginseng, and is neuroprotective as reported. This experiment investigated whether Rg1 is effective on injury or apoptosis of Chinese hamster ovary (CHO) cells as induced by Abeta(25-35), or by excessive Abeta(1-42) and the mechanism involved. We used different Rg1 doses to pretreat CHO cells stably expressing APP751 and either wild-type PS1 (WT) or mutant PS1 (M146L) for 24h. Cell viability and apoptosis were examined using a 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) reduction assay, terminal deoxynucleotidyl-transferase-mediated dUTP transferase nick-end labeling (TUNEL), and fluorescent annexin V/propidium iodide (Annexin V-FITC/PI) staining. The expression of Abeta(1-42) and caspase-3 was investigated with immunofluorescent staining. Our results reveal that pretreatment with 25microM Rg1 can improve viability in cells injured by Abeta(25-35), inhibit the intracellular Abeta(1-42)-induced apoptosis in mutant PS1 M146L cells, and reduce the levels of Abeta(1-42) and active caspase-3. This study demonstrated that Rg1 can reduce the production of Abeta(1-42) and the activation of caspase-3, as a result, to attenuate the cell apoptosis.
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PMID:Ginsenoside Rg1 attenuates beta-amyloid-induced apoptosis in mutant PS1 M146L cells. 1869 6

Nicastrin (NCT) is a component of the presenilin (PS)-dependent gamma-secretase complexes that liberate amyloid beta-peptides from the beta-Amyloid Precursor Protein. Several lines of evidence indicate that the members of these complexes could also contribute to the control of cell death. Here we show that over-expression of NCT increases the viability of human embryonic kidney (HEK293) cells and decreases staurosporine (STS)- and thapsigargin (TPS)-induced caspase-3 activation in various cell lines from human and neuronal origins by Akt-dependent pathway. NCT lowers p53 expression, transcriptional activity and promoter transactivation and reduces p53 phosphorylation. NCT-associated protection against STS-stimulated cell death was completely abolished by p53 deficiency. Conversely, the depletion of NCT drastically enhances STS-induced caspase-3 activation and p53 pathway and favored p53 nuclear translocation. We examined whether NCT protective function depends on PS-dependent gamma-secretase activity. First, a 29-amino acid deletion known to reduce NCT-dependent amyloid beta-peptide production did not affect NCT-associated protective phenotype. Second, NCT still reduces STS-induced caspase-3 activation in fibroblasts lacking PS1 and PS2. Third, the gamma-secretase inhibitor DFK167 did not affect NCT-mediated reduction of p53 activity. Altogether, our study indicates that NCT controls cell death via phosphoinositide 3-kinase/Akt and p53-dependent pathways and that this function remains independent of the activity and molecular integrity of the gamma-secretase complexes.
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PMID:p53-dependent control of cell death by nicastrin: lack of requirement for presenilin-dependent gamma-secretase complex. 1918 41

For 10 years, research has focused on signaling pathways controlling translation to explain neuronal death in Alzheimer Disease (AD). Previous studies demonstrated in different cellular and animal models and AD patients that translation is down-regulated by the activation of double-stranded RNA-dependent protein kinase (PKR). Among downstream factors of PKR, the Fas-associated protein with a death domain (FADD) and subsequent activated caspase-8 are responsible for PKR-induced apoptosis in recombinant virus-infected cells. However, no studies have reported the role of PKR in death receptor signaling in AD. The aim of this project is to determine physical and functional interactions of PKR with FADD in amyloid-beta peptide (Abeta) neurotoxicity and in APP(SL)PS1 KI transgenic mice. In SH-SY5Y cells, results showed that Abeta42 induced a large increase in phosphorylated PKR and FADD levels and a physical interaction between PKR and FADD in the nucleus, also observed in the cortex of APP(SL)PS1 KI mice. However, PKR gene silencing or treatment with a specific PKR inhibitor significantly prevented the increase in pT(451)-PKR and pS(194)-FADD levels in SH-SY5Y nuclei and completely inhibited activities of caspase-3 and -8. The contribution of PKR in neurodegeneration through the death receptor signaling pathway may support the development of therapeutics targeting PKR to limit neuronal death in AD.
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PMID:Interaction of double-stranded RNA-dependent protein kinase (PKR) with the death receptor signaling pathway in amyloid beta (Abeta)-treated cells and in APPSLPS1 knock-in mice. 1988 24

Using APP(NLh)/APP(NLh) x PS-1(P246L)/PS-1(P246L) human double knock-in (APP/PS-1) mice, we examined whether phosphatidylserine (PtdSer) asymmetry is significantly altered in brain of this familial Alzheimer disease mouse model in an age-dependent manner as a result of oxidative stress, toxic Abeta(1-42) oligomer production, and/or apoptosis. Annexin V (AV) and NBD-PS fluorescence in synaptosomes of wild-type (WT) and APP/PS-1 mice were used to determine PtdSer exposure with age, while Mg(2+) ATPase activity was determined to correlate PtdSer asymmetry changes with PtdSer translocase, flippase, activity. AV and NBD-PS results demonstrated significant PtdSer exposure beginning at 9 months compared to 1-month-old WT controls for both assays, a trend that was exacerbated in synaptosomes of APP/PS-1 mice. Decreasing Mg(2+) ATPase activity confirms that the age-related loss of PtdSer asymmetry is likely due to loss of flippase activity, more prominent in APP/PS-1 brain. Two-site sandwich ELISA on SDS- and FA-soluble APP/PS-1 brain fractions were conducted to correlate Abeta(1-40) and Abeta(1-42) levels with age-related trends determined from the AV, NBD-PS, and Mg(2+) ATPase assays. ELISA revealed a significant increase in both SDS- and FA-soluble Abeta(1-40) and Abeta(1-42) with age, consistent with PtdSer and flippase assay trends. Lastly, because PtdSer exposure is affected by pro-apoptotic caspase-3, levels of both latent and active forms were measured. Western blotting results demonstrated an increase in both active fragments of caspase-3 with age, while levels of pro-caspase-3 decrease. These results are discussed with relevance to loss of lipid asymmetry and consequent neurotoxicity in brain of subjects with Alzheimer disease.
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PMID:Age-related loss of phospholipid asymmetry in APP(NLh)/APP(NLh) x PS-1(P264L)/PS-1(P264L) human double mutant knock-in mice: relevance to Alzheimer disease. 2008 99

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