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)

In the last few years, fluorescence polarization (FP) has been applied to the development of robust, homogeneous, high throughput assays in molecular recognition research, such as ligand-protein interactions. Recently, this technology has been applied to the development of homogeneous tyrosine kinase assays, since there are high-affinity anti-phosphotyrosine antibodies available. Unlike tyrosine kinases, application of FP to assay development for serine/threonine kinases has been impeded because of lack of high-affinity anti-phosphoserine/threonine antibodies. In the present study, we report the discovery of a high-affinity, monoclonal anti-phosphoserine antibody, 2B9, with a Kd of 250 +/- 34 pM for a phosphoserine-containing peptide tracer, fluorescein-RFARKGS(PO(4))LRQKNV. Our data suggest that 2B9 is selective for fluorescein-RFARKGS(PO(4))LRQKNV. The antibody and tracer have been used for the development of a competitive FP assay for protein kinase C (PKC) in 384-well plates. Phosphatidylserine, which enhances the kinase activity of PKC in a Ca(2+)-dependent manner and has a structure similar to that of phosphoserine, did not interfere with binding of the peptide tracer to the antibody in the FP assay. The data indicate that the FP assay is more sensitive and robust than the scintillation proximity assay for PKC. The FP assay developed here can be used for rapid screening of hundreds of thousands of compounds for discovery of therapeutic leads for PKC-related diseases.
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PMID:Identification of a high-affinity anti-phosphoserine antibody for the development of a homogeneous fluorescence polarization assay of protein kinase C. 1084 97

Phosphatidylserine (PS) is exposed on the outer leaflet of the plasma membrane in apoptotic cell death. However, the roles of PS in apoptotic signaling are still unclear. In this study, we found that exogenous PS, but not other phospholipids, induced cell death in adherent cells, but not in suspension culture. The cell death exhibited typical features of apoptosis such as cell shrinkage, nuclear fragmentation and abnormal chromatin condensation. When PS was added to CHO-K1 cells in monolayer culture, they began to show changes in cell shape and actin cytoskeleton and protein kinase C (PKC) activity, followed by cell detachment, caspase activation, cleavage of focal adhesion kinase (FAK) and finally loss of viability. These results suggested that PS causes apoptosis through actin disorganization, cell detachment and cleavage of FAK.
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PMID:Phosphatidylserine induces apoptosis in adherent cells. 1144 68

The presence of phospholipids as a component of chromatin is now well documented and many enzymes such as sphingomyelinase, sphingomyelin-synthase, reverse sphingomyelin-synthase and phosphatidylcholine-dependent phospholipase C have been described and characterised. Other lipids were demonstrated inside the nucleus especially plasmalogens and cholesterol. The chromatin phospholipids, comprising 10% of that present in the nucleus, show a different metabolism with respect to those present in either microsomes or in nuclear membranes; they increase also during the DNA duplication as shown during both liver regeneration and cell maturation. They appear localised near newly synthesized RNA in decondensed chromatin. Digestion of chromatin with RNase, but not with DNase, causes a loss of phospholipids. The composition of the chromatin phospholipid fraction shows an enrichment in sphingomyelin and phosphatidylserine. In this review the behaviour of single lipids in relation to cell proliferation, cell differentiation and apoptosis is described. Sphingomyelin, the lipid most represented in chromatin with respect to microsomes and nuclear membranes, is localised near to newly synthesized RNA, its presence appearing to protect RNA from RNase digestion. This effect is reversed by sphingomyelinase which digests sphingomyelin and, as a consequence, RNA may be hydrolysed. The amount of sphingomyelin is restored by sphingomyelin-synthase. Sphingomyelin increases during the differentiation process and apoptosis. An increase of sphingomyelinase with consequent decrease in sphingomyelin is observed at the beginning of S-phase of the cell cycle. A possible role in stabilising the DNA double helix is indicated. Phosphatidylserine behaves similarly during differentiation and appears to stimulate both RNA and DNA polymerases. Phosphatidylcholine is implicated in cell proliferation through the activation of intranuclear phosphatidylcholine-dependent phospholipase C and diacylglycerol production. The increase in diacylglycerol stimulates phosphatidylcholine synthesis through the major pathway from cytidyltriphosphate. An inhibition of phosphatidylcholine synthesis is responsible for the initiation of apoptosis. The presence of reverse sphingomyelin-synthase favours the formation of phosphatidylcholine, the donor of phosphorylcholine, from sphingomyelin. Little information has been reported for phospatidylethanolamine, but phosphtidylinositol appears to influence cell differentiation and proliferation. This last effect is due to the action of two enzymes: PI-PLCss1 having a role in the onset of DNA synthesis and PC-PLCgamma1 acting in G2 transit. Phosphoinositides also may have an important role: in membrane-stripped nuclei isolated from mitogen stimulated cells a decrease in PIP and PIP2 followed by an increase in diacylglycerol and a translocation of protein kinase C inside the nucleus is observed. On the other hand, overexpression of the enzyme inositol polysphosphate-1-phosphatase reduced DNA synthesis by 50%. Nevertheless, an enhanced rate of phosphorylation has been demonstrated in cells induced to differentiate. These molecules probably favour RNA transcription, counteracting the inhibition of H1 on RNA polymerase II. Plasmalogens were demonstrated in the nucleus and their increase favours the increased activity of phosphatidylcholine-dependent phospholipase C when DNA synthesis starts. Moreover, two forms of cholesterol has been described in chromatin: one, a less soluble sphingomyelin-linked form and a free fraction. Cholesterol increases during liver regeneration, first as a linked fraction and then, when DNA synthesis starts, as a free fraction. The changes of these components have been summarised in relation to cell function in order to give an overview of their possible roles in the different phases of cell duplication and their influence on cell differentiation and during apoptosis. Finally, the relevance of these molecules as intranuclear signals is discussed and future directions are indicated in clarifying pathological process such as tumour cell transformation and the possibility in finding new therapeutic tools.
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PMID:The role of intranuclear lipids. 1551 99

Although leukosialin (CD43) membrane expression decreases during neutrophil apoptosis, the CD43 molecule, unexpectedly, is neither proteolyzed nor internalized. We thus wondered whether it could be shed on bleb-derived membrane vesicles. Membrane blebbing is a transient event, hardly appreciated during the asynchronous, spontaneous apoptosis of neutrophils. Cell pre-synchronization at 15 degrees C made it possible to observe numerous blebbing neutrophils for a short 1-h period at 37 degrees C. CD43 down-regulation co-occurred with the blebbing stage and phosphatidylserine externalization, shortly after mitochondria depolarization and before nuclear condensation. Blebs detaching from the cell body were observed by time lapse fluorescence microscopy, and the release of bleb-derived vesicles was followed by flow cytometry. Phosphatidylserine externalization required caspases and protein kinase C (PKC) but not the myosin light chain kinase (MLCK). By contrast, bleb formation and release was caspase- and PKC-independent but required an active MLCK, whereas CD43 down-regulation involved caspases but neither PKC nor MLCK. Furthermore, CD43 appeared mostly excluded from membrane blebs by electron microscopy. Thus, CD43 down-regulation does not result from the release of bleb-derived vesicles. Ultracentrifugation of apoptotic cell supernatants made it possible to recover <1 microM microparticles, which contained the entire CD43 molecule. These microparticles expressed neutrophil membrane markers such as CD11b, CD66b, and CD63, together with CD43. In conclusion, we show that the three early membrane events of apoptosis, namely blebbing, phosphatidylserine externalization, and CD43 down-regulation, result from different signaling pathways and can occur independently from one another. CD43 down-regulation results from the shedding of microparticles released during apoptosis but unrelated to the blebbing.
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PMID:Distinct signaling pathways are involved in leukosialin (CD43) down-regulation, membrane blebbing, and phospholipid scrambling during neutrophil apoptosis. 1557 78

Phosphatidylserine (PS) is a quantitatively minor membrane phospholipid that is synthesized by prokaryotic and eukaryotic cells. In this review we focus on genes and enzymes that are involved in PS biosynthesis in bacteria, yeast, plants and mammalian cells and discuss the available information on the regulation of PS biosynthesis in these organisms. The enzymes that synthesize PS are restricted to endoplasmic reticulum membranes in yeast and mammalian cells, yet PS is widely distributed throughout other organelle membranes. Thus, mechanisms of inter-organelle movement of PS, particularly the transport of PS from its site of synthesis to the site of PS decarboxylation in mitochondria, are considered. PS is normally asymmetrically distributed across the membrane bilayer, thus the mechanisms of transbilayer translocation of PS, particularly across the plasma membrane, are also discussed. The exposure of PS on the outside surface of cells is widely believed to play a key role in the removal of apoptotic cells and in initiation of the blood clotting cascade. PS is also the precursor of phosphatidylethanolamine that is made by PS decarboxylase in bacteria, yeast and mammalian cells. Furthermore, PS is required as a cofactor for several important enzymes, such as protein kinase C and Raf-1 kinase, that are involved in signaling pathways.
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PMID:Metabolism and functions of phosphatidylserine. 1597 48

Glucose depletion of erythrocytes leads to activation of Ca2+-permeable cation channels, Ca2+ entry, activation of a Ca2+-sensitive erythrocyte scramblase, and subsequent exposure of phosphatidylserine at the erythrocyte surface. Ca2+ entry into erythrocytes was previously shown to be stimulated by phorbol esters and to be inhibited by staurosporine and chelerythrine and is thus thought to be regulated by protein phosphorylation/dephosphorylation, presumably via protein kinase C (PKC) and the corresponding phosphoserine/threonine phosphatases. The present experiments explored whether PKC could contribute to effects of energy depletion on erythrocyte phosphatidylserine exposure and cell volume. Phosphatidylserine exposure was estimated from annexin binding and cell volume from forward scatter in fluorescence-activated cell sorter analysis. Removal of extracellular glucose led to depletion of cellular ATP, stimulated PKC activity, led to translocation of PKCalpha, enhanced serine phosphorylation of membrane proteins, decreased cell volume, and increased annexin binding, the latter effect being blunted but not abolished in the presence of 1 microM staurosporine or 50 nM calphostin C. The PKC stimulator phorbol-12-myristate-13-acetate (3 microM) and the phosphatase inhibitor okadaic acid (1-10 microM) mimicked the effect of glucose depletion and similarly led to translocation of PKCalpha and enhanced serine phosphorylation, increased annexin binding, and decreased forward scatter, the latter effects being abrogated by PKC inhibitor staurosporine (1 microM). Fluo-3 fluorescence measurements revealed that okadaic acid also enhanced erythrocyte Ca2+ activity. The present observations suggest that protein phosphorylation and dephosphorylation via PKC and the corresponding protein phosphatases contribute to phosphatidylserine exposure and cell shrinkage after energy depletion.
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PMID:Protein kinase C mediates erythrocyte "programmed cell death" following glucose depletion. 1633 77

Suicidal death of erythrocytes or eryptosis is characterized by cell shrinkage and cell membrane scrambling leading to phosphatidylserine exposure at the erythrocyte surface. The cell membrane scrambling is triggered by an increase in cytosolic Ca(2+) activity and activation of protein kinase C (PKC). Phosphatidylserine exposure fosters adherence of affected erythrocytes to the vascular wall. Thus, microcirculation in ischemic tissues may be impaired by the appearance of eryptotic erythrocytes. Ischemia leads to release of adenosine, which in most tissues leads to vasodilation and protects against cell injury. The present experiments explored whether adenosine influences mechanisms underlying eryptosis. Erythrocyte phosphatidylserine exposure was estimated from annexin V binding, cell volume from forward scatter and cytosolic Ca(2+) activity from Fluo3 fluorescence. Glucose depletion (for 24 or 48 h) significantly increased annexin binding and decreased forward scatter, effects partially reversed by adenosine. The protective effect of adenosine reached statistical significance (s.d.) at > =30 microM. Low Cl(-) solution (Cl(-) exchanged by gluconate for 24 h) similarly increased annexin binding and decreased forward scatter, effects again reversed by adenosine (s.d. at > or =10 and 30 microM, respectively). Similarly, phosphatase inhibitor okadaic acid (OA, 1 microM) and PKC activator phorbol 12-myristate-13-acetate (PMA, 3 microM) significantly enhanced annexin binding and decreased forward scatter. Adenosine significantly blunted the effects of OA and PMA on annexin V binding (s.d. at > or =30 and 10 microM, respectively) and the effect of OA on forward scatter (s.d. at > or =10 microM). In conclusion, adenosine inhibits eryptosis by a mechanism presumably effective downstream of PKC. The effect may participate in the maintenance of microcirculation in ischemic tissue.
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PMID:Adenosine protects against suicidal erythrocyte death. 1728 97

Phosphatidylserine (PS), which is synthesized in mammalian tissues by the exchange between free serine and the nitrogen bases present in membrane glycerophospholipids, is strictly required for protein kinase C (PKC) activity. PKC, as other molecules involved in signal transduction, is present in lipid rafts, considered as a platform for molecular signaling. Membrane microdomains enriched in components of rafts can be isolated on the basis of their insolubility in Triton X-100 at 4 degrees C and their low density in sucrose density gradient. This study demonstrates the existence of serine base exchange enzyme (SBEE) in Triton-insoluble floating fractions containing associated PKC. Using two fractions of detergent-resistant membranes from rat cerebellum, we observed a correlation between the level of SBEE activity and that of membrane-associated PKC. This suggests that SBEE, synthesizing PS in the binding area for PKC, participates to signal transduction. The capability of SBEE to utilize not only serine but also ethanolamine, as free exchanging base, suggests a mechanism for modulating in loco PS concentration.
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PMID:Synthesis of phosphatidylserine by base exchange in Triton-insoluble floating fractions from rat cerebellum. 1769 90

Phosphatidylserine (PS) and phosphatidylcholine (PC) have been shown to enhance cognitive function. Considering that brain glutamatergic system is thought to participate in cognitive processing, our objective was to determine the effect of PS and PC on glutamate release from the nerve terminal (synaptosome) freshly isolated from rat cerebral cortex. Data showed that both PS and PC potently facilitate 4-aminopyridine (4-AP)-evoked Ca(2+)-dependent and Ca(2+)-independent glutamate release. Facilitation of glutamate release by PS or PC was associated with an increase of 4-AP-evoked depolarization and downstream elevation of cytoplasmic free calcium concentration ([Ca(2+)](c)). In addition, glutamate release elicited by direct Ca(2+)-entry with Ca(2+)-ionophore (ionomycin) was also facilitated by PS or PC. Furthermore, PS- or PC-mediated facilitation of 4-AP-evoked glutamate release was superseded or suppressed by protein kinase C (PKC) activator and inhibitor, respectively. Together, these results suggest that PS or PC effects a facilitation of glutamate exocytosis by increasing nerve terminal excitability and Ca(2+) influx into cerebrocortical nerve terminals through a signaling cascade involving PKC.
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PMID:Facilitation of glutamate release from rat cerebrocortical glutamatergic nerve terminals (synaptosomes) by phosphatidylserine and phosphatidylcholine. 1907 41

Owing to its antibiotic activity, silver is used for water purification, wound care and a wide variety of implants. Silver metal and silver compounds ionize in solution, and silver ions interfere with the function of a wide variety of proteins. In mammalian cells, silver ions may trigger apoptosis by stimulation of cytochrome c release from mitochondria. The present study explored the effect of AgNO3 on eryptosis, the suicidal death of erythrocytes, cells devoid of mitochondria. Similar to apoptosis of nucleated cells, eryptosis is characterized by cell shrinkage and cell membrane scrambling with phosphatidylserine exposure at the cell surface. Eryptosis is triggered by energy depletion, cellular depletion of nitric oxide (NO) and activation of protein kinase C (PKC). Phosphatidylserine exposure was determined by annexin V-binding, cell volume by forward scatter, cellular ATP by a luciferin-luciferase assay kit, and hemolysis by photometry. A 48 h exposure to AgNO3 (> or =100 nm) but not to NaNO3 significantly enhanced the percentage of annexin V-binding cells, slightly but significantly decreased forward scatter and significantly decreased cytosolic ATP. Furthermore, inhibition of PKC by staurosporine and donation of NO by sodium nitroprusside significantly blunted silver-induced eryptosis. In conclusion, AgNO3 triggers cell membrane scrambling, an effect attributed to ATP depletion, PKC activation and decrease of cellular NO.
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PMID:Silver ion-induced suicidal erythrocyte death. 1944 54


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