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:3.4.22.56 (caspase-3)
35,750 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this study we analysed the effect of Bcl-2 on the cytotoxicity induced by the amyloid-beta (Abeta(25-35)) and prion (PrP(106-126)) peptides by using GT1-7puro and GT1-7bcl-2 (overexpressing the anti-apoptotic protein Bcl-2) neural cells. Exposure to Abeta(25-35) (1-5 microM) and PrP(106-126) (25 microM) caused a decrease in cell viability, as determined by the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. These data were correlated with Abeta(25-35) and PrP(106-126)-induced activation of caspase-9, which is linked to the mitochondrial death pathway, and the activation of the effector caspase-3, suggesting cell death by apoptosis. Furthermore, Bcl-2 overexpression protected from loss of cell viability and caspase-9 and -3 activation induced by Abeta(25-35) and PrP(106-126), showing that Bcl-2 is neuroprotective against apoptotic cell death caused by amyloidogenic peptides.
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PMID:Bcl-2 overexpression protects against amyloid-beta and prion toxicity in GT1-7 neural cells. 1805 55

The transmissible spongiform encephalopathies develop following the conversion of a host-encoded protein (PrP(C)) into abnormally folded, disease-related isoforms (PrP(Sc)). Here we report that three acyl-coenzyme A:cholesterol acyltransferase (ACAT) inhibitors, TMP-153, FR179254 or YIC-C8-434, were more toxic to prion-infected neuronal cell lines (ScGT1 and ScN2a cells) than to their uninfected equivalents (GT1 and N2a cells). The toxicity of ACAT inhibitors for ScGT1 cells was not reversed by the addition of cholesterol esters, rather it was increased by the addition of free cholesterol indicating that the toxicity of ACAT inhibitors was related to the increased free cholesterol content of cells rather than reduced amounts of cholesterol esters. This hypothesis was strengthened by the observation that the addition of free cholesterol killed ScGT1, but not GT1 cells. Treatment with ACAT inhibitors increased caspase-3 activity and prostaglandin E(2) production in ScGT1 cells but not in GT1 cells. The addition of the phospholipase A(2) (PLA(2)) inhibitors (AACOCF(3) or MAFP) reduced prostaglandin E(2) production and protected ScGT1 cells against the toxicity of ACAT inhibitors. These results indicate that cholesterol esterification is an important cellular response that reduces PrP(Sc)-induced activation of PLA(2) and protects against cell death in ScGT1 cells.
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PMID:Cholesterol esterification reduces the neurotoxicity of prions. 1844 39

Although the prion protein is abundantly expressed in the CNS, its biological functions remain unclear. To determine the endogenous function of the cellular prion protein (PrP(c)), we compared the effects of oxidative stress and endoplasmic reticulum (ER) stress inducers on apoptotic signaling in PrP(c)-expressing and PrP(ko) (knockout) neural cells. H(2)O(2), brefeldin A (BFA), and tunicamycin (TUN) induced increases in caspase-9 and caspase-3, PKCdelta proteolytic activation, and DNA fragmentation in PrP(c) and PrP(ko) cells. Interestingly, ER stress-induced activation of caspases, PKCdelta, and apoptosis was significantly exacerbated in PrP(c) cells, whereas H(2)O(2)-induced proapoptotic changes were suppressed in PrP(c) compared to PrP(ko) cells. Additionally, caspase-12 and caspase-8 were activated only in the BFA and TUN treatments. Inhibitors of caspase-9, caspase-3, and PKCdelta significantly blocked H(2)O(2)-, BFA-, and TUN-induced apoptosis, whereas the caspase-8 inhibitor attenuated only BFA- and TUN-induced cell death, and the antioxidant MnTBAP blocked only H(2)O(2)-induced apoptosis. Overexpression of the kinase-inactive PKCdelta(K376R) or the cleavage site-resistant PKCdelta(D327A) mutant suppressed both ER and oxidative stress-induced apoptosis. Thus, PrP(c) plays a proapoptotic role during ER stress and an antiapoptotic role during oxidative stress-induced cell death. Together, these results suggest that cellular PrP enhances the susceptibility of neural cells to impairment of protein processing and trafficking, but decreases the vulnerability to oxidative insults, and that PKCdelta is a key downstream mediator of cellular stress-induced neuronal apoptosis.
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PMID:Opposing roles of prion protein in oxidative stress- and ER stress-induced apoptotic signaling. 1883 52

Doppel (Dpl) is a recently identified prion (PrP)-like protein due to the structural and biochemical similarities, however, its natural function and pathogenic role in neurodegenerative diseases remains unclear. To investigate the possible pathogenic pathway of Dpl and its structural analog for cell apoptosis, mammalian expressing recombinant plasmids containing human PRND gene encoding the full-length Dpl and a truncated human PRNP gene deleting the sequences encoding the peptide from aa 32 to 121 (PrPDelta32-121) were generated. MTT assays showed the cell viabilities of the human neuroblastoma cell line SH-SY5Y receiving Dpl and PrPDelta32-121 expressing plasmids were remarkably lower. Obvious apoptosis phenomena were observed to be associated with the cells transient expressing Dpl and PrPDelta32-121, including reduced mitochondrial transmembrane potential (psim), decreased pro-caspase-3 quantity, more numbers of annexin V- and annexin V/PI-double-stained cells and depressed Bcl-2 level. Moreover, we also found that the Dpl- and PrPDelta32-121-induced cytotoxicities and relevant apoptotic events in SH-SY5Y cells could be fully antagonized by co-expression of the human full-length PrP. These data highly indicate that cytotoxicity induced by the expression of Dpl and truncated PrP in neural derived cells are closely related with the apoptosis process, probably triggering the mitochondrial pathway. It also implies that the cell-benefit activity of the full-length PrP may result from its anti-apoptosis capacity.
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PMID:Transient expressions of doppel and its structural analog prionDelta32-121 in SH-SY5Y cells caused cytotoxicity possibly by triggering similar apoptosis pathway. 1972 51

The cellular prion protein (PrP(C)) is a neuronal-anchored glycoprotein that has been associated with various functions in the CNS such as synaptic plasticity, cognitive processes and neuroprotection. Here we investigated age-related behavioral and neurochemical alterations in wild-type (Prnp(+/+)), PrP(C) knockout (Prnp(0/0)) and the PrP(C) overexpressing Tg-20 mice. Three- or 11 month-old animals were submitted to a battery of behavioral tasks including open field, activity cages, elevated plus-maze, social recognition and inhibitory avoidance tasks. The 11 month-old Prnp(+/+) and Prnp(0/0) mice exhibited significant impairments in their locomotor activity and social recognition memory and increased anxiety-related responses. Remarkably, Tg-20 mice did not present these age-related impairments. The i.c.v. infusion of STI1 peptide 230-245, which includes the PrP(C) binding site, improved the age-related social recognition deficits in Prnp(+/+). In comparison with the two other age-matched genotypes, the 11 month-old Tg-20 mice also exhibited reduced activity of seric acetylcholinesterase, increased expression of the protein synaptophysin and decreased caspase-3 positive-cells in the hippocampus. The present findings obtained with genetic and pharmacological approaches provide convincing evidence that PrP(C) exerts a critical role in the age-related behavioral deficits in mice probably through adaptive mechanisms including apoptotic pathways and synaptic plasticity.
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PMID:Cellular prion protein modulates age-related behavioral and neurochemical alterations in mice. 1974 26

Cellular prion protein (PrP(c)) undergoes a disintegrin-mediated physiological cleavage, generating a soluble amino-terminal fragment (N1), the function of which remained unknown. Recombinant N1 inhibits staurosporine-induced caspase-3 activation by modulating p53 transcription and activity, whereas the PrP(c)-derived pathological fragment (N2) remains biologically inert. Furthermore, N1 protects retinal ganglion cells from hypoxia-induced apoptosis, reduces the number of terminal deoxynucleotidyltransferase-mediated biotinylated UTP nick end labeling-positive and p53-immunoreactive neurons in a pressure-induced ischemia model of the rat retina and triggers a partial recovery of b-waves but not a-waves of rat electroretinograms. Our work is the first demonstration that the alpha-secretase-derived PrP(c) fragment N1, but not N2, displays in vivo and in vitro neuroprotective function by modulating p53 pathway. It further demonstrates that distinct N-terminal cleavage products of PrP(c) harbor different biological activities underlying the various phenotypes linking PrP(c) to cell survival.
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PMID:The alpha-secretase-derived N-terminal product of cellular prion, N1, displays neuroprotective function in vitro and in vivo. 1985 Sep 36

The pathogenesis of prion diseases includes synapse degeneration and neuronal death. Here we report that pre-treatment with glucosamine-phosphatidylinositol (glucosamine-PI), a synthetic analogue of the glycosylphosphatidylinositol (GPI) anchor that attaches the prion protein (PrP(C)) to plasma membranes, increased the resistance of cultured cortical neurones to the toxic effects of the prion-derived peptide PrP82-146. Pre-treatment with glucosamine-PI reduced the PrP82-146 induced activation of cytoplasmic phospholipase A(2) (cPLA(2)), activation of caspase-3 and synapse degeneration. The addition of glucosamine-PI significantly increased the amount of cholesterol within neuronal membranes consistent with the hypothesis that GPI anchors sequester cholesterol. Whereas in untreated neurones PrP82-146 was found within lipid rafts, in glucosamine-PI treated neurones most PrP82-146 was found in the normal cell membrane and was rerouted into the lysosomes. Complex GPI anchors isolated from PrP(C), Thy-1 or CD55 were also protective against PrP82-146. We conclude that glucosamine-PI, or isolated GPI anchors, can modify local membrane micro-environments that are important in the initiation of signalling events that mediate PrP82-146 induced neurodegeneration.
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PMID:A glycosylphosphatidylinositol analogue reduced prion-derived peptide mediated activation of cytoplasmic phospholipase A2, synapse degeneration and neuronal death. 2039 81

Prion diseases associated with the conversion of the cellular prion protein (PrP(C)) to the misfolded isoform (PrP(Sc)), affect the central nervous system (CNS) of humans and animals. Resveratrol, an activator of class III histone deacetylase SIRT1, is important in attenuating cellular injury and oxidative stress. The present study investigated the effects of SIRT1 activation on prion protein-mediated neuronal cell death and examined its possible signals in intracellular apoptotic pathways. Resveratrol treatment significantly increased both SIRT1 protein expression and SIRT1 activity and protected neuronal cells against PrP (106-126)-induced cell death. Resveratrol-mediated SIRT1 activation decreased the acetylation of p53 and p65 induced by prion protein and SIRT1 inhibitor. SIRT1 activation also inhibited PrP (106-126)-mediated p38 mitogen-activating protein kinase (MAPK) activation and caspase-3 cleavage, and increased the expression of anti-apoptotic Bcl-xL protein. Furthermore, SIRT1 overexpression by using adenoviral vector protected neuronal cells against PrP (106-126). These results indicate that resveratrol inhibits PrP (106-126)-induced neuronal cell death by regulating SIRT1 activity and SIRT-related signaling, and suggest that prion-related disease may be attenuated by SIRT1 activation or by intake of SIRT1-activating molecules.
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PMID:SIRT1, a histone deacetylase, regulates prion protein-induced neuronal cell death. 2107 97

Activation of the caspase family of cysteine proteases is proposed to be an important cell death mechanism in transmissible spongiform encephalopathies or prion diseases. We determined the extent of caspase activation in the brain and peripheral organs of mice that showed clinical signs after intracerebral inoculation with mouse-adapted prions by in vivo administration of a red fluorescent pan-caspase inhibitor, sulforhodamine B-Val-Ala-Asp(OMe)-fluoromethylketone. Fluorescence reflectance imaging identified a significant increase in active caspases in brains of prion-infected, but not uninfected, mice that correlated with increases in procaspase-3 and cleaved caspase-3, a central effector caspase, assessed by Western immunoblot analysis. Fluorescence was found in brain regions in which neuronal loss occurs; immunohistochemical analysis indicated that fluorescence was localized within and adjacent to deposits of abnormal disease-associated conformers of the prion protein (PrP Sc). Fluorescence was also significantly increased in the kidney, lung, and ileum of prion-infected mice. This premortem labeling of caspase activation in the brain, and importantly in peripheral organs, could be exploited as a biomarker for longitudinal monitoring of prion disease progression and the impact of therapy in vivo in addition to, or independently of, PrP and spongiform changes.
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PMID:Optical imaging detects apoptosis in the brain and peripheral organs of prion-infected mice. 2134 83

Prion diseases are infectious neurodegenerative disorders characterized by the conversion of the cellular prion protein (PrPc) to the misfolded isoform (PrPsc). Prion peptide PrP 106-126 [PrP (106-126)] shares many physiological properties with PrPsc; it is neurotoxic in vitro and in vivo. PrP (106-126) induces neurotoxicity by the overexpression of PrPc and activation of the mitogen-activated protein (ERK1/2). Aspirin, an anti-inflammatory drug, is a known ERK inhibitor and prevents neurodegenerative disorders including prion diseases. The influence of aspirin treatment on prion protein-mediated neurotoxicity and expression of PrPc were the focus of this study. Cell viability and apoptosis were assessed by crystal violet staining and the TUNEL and DNA fragmentation assays. Apoptosis-associated protein expression of PrPc, p-53, p-ERK1/2, p-p38, Bcl-2 and cleaved-caspase-3 was examined by Western blotting and immunocytochemistry. Aspirin treatment inhibited PrP (106-126)-induced neuronal cell death in SH-SY5Y neuroblastoma cells. In addition, the PrP (106-126)-mediated increase of p-p38, p53, cleaved-caspase-3 and decrease of Bcl-2 expressions were blocked by aspirin and the ERK inhibitor, PR98059. Furthermore, we showed that the PrP (106-126)-mediated increase of PrPc and p-ERK1/2 were inhibited by PD98059 and aspirin. Taken together, these results demonstrate that ERK1/2 is a key modulator of the protective effect of aspirin on PrP-106-126-mediated cellular prion protein overexpression and neurotoxicity and also suggest that aspirin may prevent neuron cell damages caused by the prion peptide.
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PMID:Prion peptide-mediated cellular prion protein overexpression and neuronal cell death can be blocked by aspirin treatment. 2134 12


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