Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Protein phosphorylation mediated by phorbol ester stimulates secretion of the beta-amyloid precursor protein (beta-APP) in the cell culture. This increase in secretion is produced by a transient increase in cleavage to produce non-amyloidogenic protease nexin II products mediated by the alpha-secretase activity, and a concomitant decrease in beta-protein production. Cells expressing the Swedish familial Alzheimer's disease (FAD) variant of beta-APP produce more beta-protein and potentially amyloidogenic fragments than cells expressing wild-type protein; furthermore, cleavage shifts from the alpha- to the beta-secretase cleavage site of the precursor. We show that treatment with phorbol 12,13-dibutyrate (PDBu) of cells expressing the Swedish FAD reverses the mutant phenotype to wild-type. The alpha-secretase cleavage increases with a concomitant loss of beta-protein and other beta-secretase cleaved products. These results show that modulating beta-secretase cleavage directly affects beta-protein production. It suggests that activating protein kinase C through, for example, muscarinic receptor agonists could reduce amyloidosis by modulating the level of beta-protein produced.
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PMID:Reversal of the Swedish familial Alzheimer's disease mutant phenotype in cultured cells treated with phorbol 12,13-dibutyrate. 797 Jan 75

The amyloid precursor protein (APP) can be cleaved by a beta-secretase to generate a beta-amyloid peptide, which has been implicated in the pathogenesis of Alzheimer's disease. However, APP can also be cleaved by an alpha-secretase to form a non-amyloidogenic secreted form of APP (APP-S). APP-S secretion can be physiologically regulated. This study examined the glutamatergic regulation of APP in the human neuronal Ntera 2 (NT2N) cell line. Metabotropic glutamate receptor subtypes 1alpha/beta and 5alpha were identified in the NT2N neurons by reverse transcription-polymerase chain reaction. Stimulation of these phosphatidylinositol-linked receptors with glutamate or specific receptor agonists resulted in a dose- and time-dependent increase in the secretion of the amyloid precursor protein (APP-S), measured by the immunoprecipitation of APP-S from the medium of [35S]methionine-labeled NT2N neurons. The glutamate-induced APP-S secretion was maximal at 30 min and at a concentration of 1 mM glutamate. Glutamate-induced APP-S secretion required activation of phospholipase C, which resulted in inositol 1, 4,5-trisphosphate production, as shown by the rapid glutamate-induced accumulation of inositol 1,4,5-trisphosphate. Glutamate also caused an increase in intracellular Ca2+. The protein kinase C activator phorbol 12-myristate 13-acetate, a phorbol ester, as well as 1-oleoyl-2-acetoyl-3-glycerol, a cell-permeable diacylglycerol analog, also stimulated APP-S secretion. These findings suggest that APP-S secretion from NT2N neurons can be regulated by the activation of phosphatidylinositol-linked metabotropic glutamate receptor signaling pathway.
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PMID:Regulation of amyloid precursor protein secretion by glutamate receptors in human Ntera 2 neurons. 959 52

The increased expression and/or abnormal processing of the amyloid precursor protein (APP) is associated with the formation of amyloid plaques and cerebrovascular amyloid deposits, which are one of the major morphological hallmarks of Alzheimer's disease (AD). Among the processes regulating APP metabolism, the proteolytic cleavage of APP into amyloidogenic or nonamyloidogenic fragments is of special interest. The cleavage of the APP by the alpha-secretase within the beta-amyloid sequence generates nonamyloidogenic C-terminal APP fragments and soluble APPs alpha, which has neurotrophic and neuroprotective activities. Proteolytic processing of APP by beta-secretase, on the other hand, exposes the N-terminus of beta-amyloid, which is liberated after gamma-secretase cleavage at the variable amyloid C-terminus. The resulting 39-43 amino acid beta-amyloid may be neurotoxic and disrupt neuronal connectivity after its accumulation in senile plaques. In this review, we discuss evidence derived from in vitro experiments, suggesting that the stimulation of protein kinase C (PKC)-coupled M1/M3 muscarinic acetylcholine receptors increases the nonamyloidogenic, secretory pathway of APP processing. It has also been shown in animal models that under conditions of reduced M1/M3 muscarinic acetylcholine receptor stimulation the secretory pathway of APP processing is inhibited and that constitutive upregulation of M1/M3-associated PKC increases APP secretion. Thus, the cortical cholinergic hypoactivity characteristic of AD may inhibit the nonamyloidogenic APP processing pathway and lead to increased beta-amyloid generation. It has been shown in vitro that nerve growth factor (NGF)-associated signaling also influences the expression and catabolism of APP. Recent experiments with NGF-responsive cells revealed a specific role for the high-affinity NGF receptor, TrkA, in the increases in secretory APP processing and a role for the low-affinity neurotrophin receptor, p75NTR, in the transcriptional regulation of APP. Therefore, treatments with NGF could ameliorate cortical cholinergic dysfunction in AD. These findings may influence the design of therapeutic strategies aimed at stimulating cholinergic function and at increasing nonamyloidogenic APP processing without elevating APP expression.
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PMID:The regulation of amyloid precursor protein metabolism by cholinergic mechanisms and neurotrophin receptor signaling. 977 3

The release of amyloidogenic amyloid-beta peptide (Abeta) from amyloid-beta precursor protein (APP) requires cleavage by beta- and gamma-secretases. In contrast, alpha-secretase cleaves APP within the Abeta sequence and precludes amyloidogenesis. Regulated and unregulated alpha-secretase activities have been reported, and the fraction of cellular alpha-secretase activity regulated by protein kinase C (PKC) has been attributed to the ADAM (a disintegrin and metalloprotease) family members TACE and ADAM-10. Although unregulated alpha-secretase cleavage of APP has been shown to occur at the cell surface, we sought to identify the intracellular site of PKC-regulated alpha-secretase APP cleavage. To accomplish this, we measured levels of secreted ectodomains and C-terminal fragments of APP generated by alpha-secretase (sAPPalpha) (C83) versus beta-secretase (sAPPbeta) (C99) and secreted Abeta in cultured cells treated with PKC and inhibitors of TACE/ADAM-10. We found that PKC stimulation increased sAPPalpha but decreased sAPPbeta levels by altering the competition between alpha- versus beta-secretase for APP within the same organelle rather than by perturbing APP trafficking. Moreover, data implicating the trans-Golgi network (TGN) as a major site for beta-secretase activity prompted us to hypothesize that PKC-regulated alpha-secretase(s) also reside in this organelle. To test this hypothesis, we performed studies demonstrating proteolytically mature TACE intracellularly, and we also showed that regulated alpha-secretase APP cleavage occurs in the TGN using an APP mutant construct targeted specifically to the TGN. By detecting regulated alpha-secretase APP cleavage in the TGN by TACE/ADAM-10, we reveal ADAM activity in a novel location. Finally, the competition between TACE/ADAM-10 and beta-secretase for intracellular APP cleavage may represent a novel target for the discovery of new therapeutic agents to treat Alzheimer's disease.
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PMID:Protein kinase C-dependent alpha-secretase competes with beta-secretase for cleavage of amyloid-beta precursor protein in the trans-golgi network. 1064 15

Cleavage of amyloid precursor protein (APP) by beta-secretase generates beta-amyloid (Abeta), the major component of senile plaques in Alzheimer's disease. Cleavage of APP by alpha-secretase prevents Abeta formation, producing nonamyloidogenic APP products. Protein kinase C (PKC) has been shown to regulate APPs secretion, and PKCalpha and PKCepsilon have been implicated in APPs secretion in fibroblasts. This study examined the PKC isoform involved in regulated APPs secretion in human NT2N neurons and in CHO cells stably expressing APP(695). Inhibition of PMA-induced APPs secretion with the PKC inhibitors Calphostin C and GF109203X demonstrated that PKC is involved in PMA-regulated APPs secretion in NT2N cells. The specific PKC isoforms present in NT2N and CHO695 cells were identified, and PKCalpha and PKCepsilon were found to translocate from cytosol to membranes in NT2N and CHO695 cells. Translocation of PKC to the membrane allows for activation of the enzyme, as well as for positioning of the enzyme close to its substrate. Long-term PMA treatment led to complete downregulation of PKCalpha in NT2N cells and to downregulation of PKCalpha and PKCepsilon in CHO695 cells. PKCalpha downregulation in the NT2N cells resulted in loss of PMA-regulated APPs secretion and a substantial reduction in constitutive APPs secretion. Downregulation of PKCalpha and PKCepsilon in CHO695 cells resulted in loss of PMA-regulated APPs secretion; however, constitutive APPs secretion was unaffected. These findings suggest that PKCalpha is involved in PMA-regulated APPs secretion in NT2N cells and PKCalpha and/or PKCepsilon is involved in PMA-regulated APPs secretion in CHO695 cells.
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PMID:Regulation of amyloid precursor protein (APP) secretion by protein kinase calpha in human ntera 2 neurons (NT2N). 1085 91

Cleavage of amyloid precursor protein (APP) by beta-secretase generates beta-amyloid (Abeta), the major component of senile plaques in Alzheimer's disease. Cleavage of APP by alpha-secretase prevents Abeta formation, producing nonamyloidogenic secreted APPs products. PKC-regulated APP alpha-secretase cleavage has been shown to involve tumor necrosis factor alpha (TNF-alpha) converting enzyme (TACE). To determine the location of APP cleavage, we examined PKC-regulated APPs secretion by examining cell surface versus intracellular APP in CHO cells stably expressing APP(695) (CHO695). We demonstrate that PKC regulates cell surface and intracellular APP cleavage. The majority of secreted APPs originates from the intracellular compartment, and PKC does not cause an increase in APP trafficking to the cell surface for cleavage. Therefore, intracellular APP regulated by PKC must be cleaved at an intracellular site. Experiments utilizing Brefeldin A suggest APP cleavage occurs at the Golgi or late in the secretory pathway. Experiments using TAPI, an inhibitor of TACE, demonstrate PKC-regulated APPs secretion from the cell surface is inhibited after pretreatment with TAPI, and APPs secretion from the intracellular pool is partially inhibited after pretreatment with TAPI. These findings suggest PKC-regulated APP cleavage occurs at multiple locations within the cell and both events appear to involve TACE.
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PMID:Protein kinase C regulation of intracellular and cell surface amyloid precursor protein (APP) cleavage in CHO695 cells. 1110 9

The role of PKC epsilon in amyloid precursor protein (APP) processing was investigated using APP-overexpressing B103 cells. As reported previously, a PKC activator, phorbol-12,13-dibutyrate (PDBu), enhanced secretion of APP alpha, and this effect was blocked by a PKC inhibitor, GF109203X in this system. Selective inhibition of PKC epsilon by overexpressing the PKC epsilon V1 region, which binds specifically to the receptor for activated C-kinase (RACK), blocked PDBu-induced enhancement of APP alpha secretion as well as PDBu-induced decrease in beta-secretase-derived APP C-terminal fragment production. On the other hand, the level of PKC epsilon, but not that of PKC alpha or PKC gamma, was substantially lower in the brains of Alzheimer's disease patients compared to age-matched controls. These results add to a growing body of evidence that PKC epsilon plays an important role in modulating APP processing, and suggest that reduced PKC epsilon activity may contribute to the development of Alzheimer's disease.
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PMID:Blockade of PKC epsilon activation attenuates phorbol ester-induced increase of alpha-secretase-derived secreted form of amyloid precursor protein. 1116 89

Protein kinase C (PKC) is known to participate in the processing of the amyloid precursor protein (APP). Abnormal processing of APP through the action of the beta- and gamma-secretases leads to the production of the 39-43 amino acid Abeta fragment, which is neurotoxic and which is believed to play an important role in the etiology of Alzheimer's disease. PKC activation enhances alpha-secretase activity, which results in a decrease of the amyloidogenic products of beta-secretase. In this article, we describe the synthesis of 10 new benzolactam V8 based PKC activators having side chains of varied saturation and lipophilicity linked to the aromatic ring through an amide group. The K(i) values measured for the inhibition of phorbol ester binding to PKCalpha are in the nanomolar range and show some correlation with their lipophilicity. Compounds 5g and 5h show the best binding affinity among the 10 benzolactams that were synthesized. By use of a cell line derived from an AD patient, significant enhancement of sAPPalpha secretion was achieved at 1 microM concentration for most of the compounds studied and at 0.1 microM for compounds 5e and 5f. At 1 microM the enhancement of sAPPalpha secretion for compounds 5c-h is higher than that observed for the control compound 8-(1-decynyl)benzolactam (BL). Of interest is the absence of activity found for the highly lipophilic ligand 5i, which has a K(i) of 11 nM. On the other hand, its saturated counterpart 5j, which possesses a comparable K(i) and ClogP, retains activity in the secretase assay. In the hyperplasia studies, 5f showed a modest response at 100 microg and 5e at 300 microg, suggesting that 5f was approximately 30-fold less potent than the PKC activator mezerein and 100-fold less potent than TPA. 5e was approximately 3-fold less active than 5f. On the basis of the effect of unsaturation for other potent PKC ligands, we would predict that 5e would retain biological activity in most assays but would show a marked loss of tumor-promoting activity. Compound 5e thus becomes a viable candidate compound in the search for Alzheimer's therapeutics capable of modulating amyloid processing.
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PMID:New amide-bearing benzolactam-based protein kinase C modulators induce enhanced secretion of the amyloid precursor protein metabolite sAPPalpha. 1254 Feb 36

Generation of the amyloid peptide through proteolytic processing of the amyloid precursor protein by beta- and gamma-secretases is central to the etiology of Alzheimer's disease. beta-secretase, known more widely as the beta-site amyloid precursor protein cleaving enzyme 1 (BACE1), has been identified as a transmembrane aspartic proteinase, and its ectodomain has been reported to be cleaved and secreted from cells in a soluble form. The extracellular domains of many diverse proteins are known to be cleaved and secreted from cells by a process known as ectodomain shedding. Here we confirm that the ectodomain of BACE1 is secreted from cells and that this processing is up-regulated by agents that activate protein kinase C. A metalloproteinase is involved in the cleavage of BACE1 as hydroxamic acid-based metalloproteinase inhibitors abolish the release of shed BACE1. Using potent and selective inhibitors, we demonstrate that ADAM10 is a strong candidate for the BACE1 sheddase. In addition, we show that the BACE1 sheddase is distinct from alpha-secretase and, importantly, that inhibition of BACE1 shedding does not influence amyloid precursor protein processing at the beta-site.
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PMID:Characterization of the ectodomain shedding of the beta-site amyloid precursor protein-cleaving enzyme 1 (BACE1). 1285 59

Studies of metabolism of the Alzheimer amyloid precursor protein (APP) have focused much recent attention on the biology of juxta- and intra-membranous proteases. Release or 'shedding' of the large APP ectodomain can occur via one of two competing pathways, the alpha- and beta-secretase pathways, that are distinguished both by subcellular site of proteolysis and by site of cleavage within APP. The alpha-secretase pathway cleaves within the amyloidogenic Abeta domain of APP, precluding the formation of toxic amyloid aggregates. The relative utilization of the alpha- and beta-secretase pathways is controlled by the activation of certain protein phosphorylation signal transduction pathways including protein kinase C (PKC) and extracellular signal regulated protein kinase [ERK/mitogen-activated protein kinase (MAP kinase)], although the relevant substrates for phosphorylation remain obscure. Because of their apparent ability to decrease the risk for Alzheimer disease, the effects of statins (HMG CoA reductase inhibitors) on APP metabolism were studied. Statin treatment induced an APP processing phenocopy of PKC or ERK activation, raising the possibility that statin effects on APP processing might involve protein phosphorylation. In cultured neuroblastoma cells transfected with human Swedish mutant APP, atorvastatin stimulated the release of alpha-secretase-released, soluble APP (sAPPalpha). However, statin-induced stimulation of sAPPalpha release was not antagonized by inhibitors of either PKC or ERK, or by the co-expression of a dominant negative isoform of ERK (dnERK), indicating that PKC and ERK do not play key roles in mediating the effect of atorvastatin on sAPPalpha secretion. These results suggest that statins may regulate alpha-secretase activity either by altering the biophysical properties of plasma membranes or by modulating the function of as-yet unidentified protein kinases that respond to either cholesterol or to some intermediate in the cholesterol metabolic pathway. A 'phospho-proteomic' analysis of N2a cells with and without statin treatment was performed, revealing changes in the phosphorylation state of several protein kinases plausibly related to APP processing. A systematic evaluation of the possible role of these protein kinases in statin-regulated APP ectodomain shedding is underway.
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PMID:Atorvastatin-induced activation of Alzheimer's alpha secretase is resistant to standard inhibitors of protein phosphorylation-regulated ectodomain shedding. 1528 7


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