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:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There is increasing evidence that the calcium ion plays a critical role in both toxic cell killing and programmed cell death. Thus, in a variety of experimental systems a perturbation of intracellular Ca2+ homeostasis due to increased Ca2+ influx and/or inhibition of Ca2+ extrusion has been found to be an early event in the development of cell injury. It is clear that sustained increases in intracellular Ca2+ can activate cytotoxic mechanisms which result in perturbations of cellular structure and function. For example, the stimulation of Ca(2+)-dependent proteases can result in a disruption of cytoskeletal organization and the formation of surface protrusions (blebs) and Ca(2+)-mediated phospholipase activation can result in an impairment of mitochondrial function with collapse of membrane potential and cessation of ATP synthesis. The activation of a Ca2+, Mg(2+)-dependent nuclear endonuclease is associated with chromatin cleavage and appears to play a crucial role in programmed cell death (apoptosis) in the immune system and other tissues. There is also recent evidence that this process may be responsible for the immunotoxicity of dioxins and organotin compounds and involved in the killing of adenocarcinoma cells by tumor necrosis factor alpha. Although calcium ions appear to be required for endonuclease activity during apoptosis, this process is also influenced by other factors, e.g. protein kinase C activity, intracellular polyamine and Zn2+ levels, chromatin structure, etc. Thus, the regulation of endonuclease activity under both physiological and toxicological conditions appears to be complex and to involve multiple factors.
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PMID:Ca(2+)-dependent mechanisms of cytotoxicity and programmed cell death. 133 78

Treatment of human epithelial cells in culture with phorbol esters (TPA) gives rise to a transient and reversible loss of accessibility to antibodies of the nonhelical carboxy-terminal domain of nuclear lamin A that distinguishes it from lamin C. No change in the accessibility of epitopes present in the common domain of lamins A and C was observed. Loss of accessibility of lamin A was not due to proteolytic degradation nor to modification of the isoelectric point of lamin A and did not depend upon protein kinase C activation nor protein synthesis. Perturbation of desmosome organization by growth in low calcium blocked the effect of TPA on lamin A. Prolonged exposure to nocodazole, one of the effects of which is a perinuclear collapse of intermediate filaments, also blocked the effect of TPA on lamin A. These results suggest that the initial target of TPA may be at the level of cell-cell contacts and that the perturbation induced by TPA may be propagated via the structural link formed by intermediate filaments between the cell surface and the nucleus, giving rise to a change in conformation of the carboxy-terminal domain of lamin A or to an interaction of this domain with another nuclear component. These results form the basis for the hypothesis that the interphase nuclear lamina may play an active role in the process of mechanochemical signal transduction.
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PMID:Phorbol esters induce transient changes in the accessibility of the carboxy-terminal domain of nuclear lamin A. 137 31

Morphological alterations in the structure of undifferentiated and morphologically differentiated human neuroblastoma cells induced by phorbol 12-myristate 13-acetate (PMA), an activator of protein kinase C, were examined by video microscopy and immunomorphology. In undifferentiated cells, PMA induced the formation of motile actin-rich lamellas and of stable cylindrical processes rich in microtubules. Formation of stable processes resulted either from the collapse of lamellas or the movement of the cell body away from the base of a process. In differentiated cells, PMA induced the rapid extension of small lamellas and subsequent formation of short-lived elongated processes from the lateral edges of neurites. Additionally, growth cones exhibited enhanced modulation in shape after PMA treatment. These reversible reorganizations were similar to the actinoplast-tubuloplast transformations exhibited by PMA-treated fibroblasts. We suggest that actinoplast-tubuloplast reorganizations play essential roles in morphogenesis where stable cytoplasmic extensions are induced by external stimuli. In particular, PMA-induced reorganizations of neural cells in culture may be a model for morphological modulations that occur in nerve tissue.
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PMID:Reversible structural alterations of undifferentiated and differentiated human neuroblastoma cells induced by phorbol ester. 151 42

Many hormones and drugs exert their effects on cells by increasing cytosolic Ca2+ (Cai2+) and activating protein kinase C (PKC). Each of these actions results in cholestasis in the isolated perfused rat liver, but the responsible mechanisms are unclear. We used isolated rat hepatocyte couplets to observe the direct effects of increased Cai2+ and PKC activation on permeability of the hepatocyte tight junction and canalicular volume, two possible determinants of hepatocyte bile secretion. Couplets were stimulated with the Ca2+ agonist vasopressin (10(-8) M) in the absence and presence of the Ca2+ influx antagonist Ni2+ (5 x 10(-3) M) or with the PKC activator phorbol dibutyrate (10(-6) M). Cai2+ was determined by ratio microspectrofluorometry of indo-1, permeability of the couplet tight junctions was assessed by exclusion of horseradish peroxidase from the canalicular space, and changes in canalicular volume over time were measured directly by optical planimetry. Canalicular volume increased by 1.6 +/- 2.5%/min (mean +/- SD) under basal conditions. In response to vasopressin, there was a rapid 15-fold increase in Cai2+, followed first by an increase in paracellular permeability, then by canalicular collapse (15.9 +/- 5.9%/min). Pretreatment with Ni2+ markedly decreased the vasopressin-induced increase in Cai2+ and abolished both the increase in paracellular permeability and the canalicular collapse. Phorbol dibutyrate also increased paracellular permeability but resulted in neither increased Cai2+ nor canalicular collapse. The PKC inhibitor H-7 reversed the effects of both vasopressin and phorbol dibutyrate on tight junction permeability. Bile secretory pressure, measured in isolated perfused rat liver preparations, was acutely increased by vasopressin, but the increase was augmented rather than inhibited by Ni2+.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hormonal regulation of paracellular permeability in isolated rat hepatocyte couplets. 161 38

The potential of lipid monolayers spread at an air-water interface was investigated as a well defined membrane model able to support protein kinase C (PKC) association and activation. PKC association to a mixed phospholipid film (phosphatidylcholine, phosphatidylserine) could be detected by an increase of the monolayer surface pressure. This association was strikingly dependent upon the presence of submicromolar concentrations of Ca2+. The effect of Ca2+ resulted in an increase of the PKC penetration into the lipid core at a given permissive surface pressure as well as in a marked increase of the critical surface pressure (29-38 dynes/cm) above which the enzyme was excluded from the membrane. Inclusion of diacylglycerol or tetradecanoate phorbol acetate (TPA) did not modify the PKC-monolayer association in a detectable manner. PKC associated to the lipid layer exhibited the expected catalytic property and was fully activated when diacylglycerol or TPA was included in the membrane. PKC activity was highly dependent upon the surface pressure of the lipid monolayer, being optimal between 30 and 35 dynes/cm. Study of the compression isotherm of various diacylglycerol structures revealed that all potent PKC agonists exhibited an expanded liquid phase behavior with collapse pressure below 40 dynes/cm, in contrast to weak activators which showed condensed isotherms with high collapse pressure (approximately equal to 60 dynes/cm). These observations showed that the lipid monolayer system is well adapted to the study of the molecular mechanisms involved in the regulation of PKC activity at a model membrane interface. They are in line with the suggestion of a major role of Ca2+ in the association (translocation) of PKC to membrane in living cell and suggest that diacylglycerol (and TPA) might activate membrane-associated PKC through local change in the surrounding lipid phase organization.
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PMID:Activation of protein kinase C in lipid monolayers. 198 9

Pulmonary surfactant prevents lung collapse at minimal alveolar diameter. Since surfactant acts extracellularly, secretion is vitally important in regulating the alveolar surfactant levels. Studies with phorbol esters which stimulate protein kinase C (PKC) activity suggest PKC is involved in regulating surfactant secretion. This study was done to characterize PKC activity in adult rabbit lung fractions. Lungs were removed, homogenized and subcellular fractions prepared by centrifugation on a discontinuous sucrose gradient. Calcium-phosphatidylserine-dependent PKC activity was assayed in fractions in the presence of 4 microM phorbol 12-myristate 13-acetate, 1mM EDTA, 8 mole% phosphatidylserine and 1mM Ca2+ by measuring the transfer of 32P from [gamma-32P]ATP to protein. Concurrent assays were done without Ca+2 or PS. Ca+2-PS dependent PKC activity was defined as the difference between the two. Select fractions were incubated with PKC inhibitors sangivamycin, acridine orange or 9-aminoacridine and activity measured. The results showed the majority of the PKC activity was in the cytosolic fraction (87%, specific activity, 142 pmoles/min/mg) but the lamellar bodies also appeared to contain a small amount of PKC activity (approximately 4.0%, 151 pmoles/min/mg). PKC inhibitors were used to examine the characteristics of the enzyme in the microsomal and lamellar body fractions. Sangivamycin was the most potent inhibitor. Some differences in the inhibition characteristics between the lamellar body and microsomal fractions were observed. However using an add-back approach with the lamellar body fraction, indicated that the small quantity of activity in this fraction be attributed to contamination by microsomes. These results indicate that PKC is active in adult rabbit lung subcellular compartments but is probably not associated with the intracellular surfactant storage organelles.
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PMID:Distribution and characteristics of Ca+2-phosphatidylserine-dependent protein kinase C in subcellular fractions and lamellar bodies of adult rabbit lung. 809 54

The endogenous phospholipid mediator lysophosphatidic acid (LPA) caused growth cone collapse, neurite retraction, and cell flattening in differentiated PC12 cells. Neurite retraction was blocked by cytochalasin B and ADP-ribosylation of the small-molecular-weight G protein Rho by the Clostridium botulinum C-3 toxin. LPA induced a transient rise in the level of inositol 1,4,5-trisphosphate, and retraction was blocked by inhibitors of phospholipase beta. Repeated application of LPA elicited homologous desensitization of the Ca2+ mobilization response. The activation of the phosphoinositide (PIP)-Ca2+ second messenger system played a permissive role in the morphoregulatory response. Blockers of protein kinase C--chelerythrine, a myristoylated pseudosubstrate peptide, staurosporine, and depletion of protein kinase C from the cells by long-term phorbol ester treatment--all diminished neurite retraction by interfering with LPA-induced Ca2+ mobilization, which was required for the withdrawal of neurites. A brief 15-min treatment with 4 beta-phorbol 12-myristate 13-acetate also blocked retraction and Ca2+ mobilization, by inactivating the LPA receptor. Inhibition of protein tyrosine phosphorylation by herbimycin diminished retraction. Although activation of the PIP-Ca2+ second messenger system appears necessary for the Rho-mediated rearrangements of the actin cytoskeleton, bradykinin, which activates similar signaling events, failed to cause retraction, indicating that a yet unidentified novel mechanism is also involved in the LPA-induced morphoregulatory response.
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PMID:Lysophosphatidic acid-induced neurite retraction in PC12 cells: control by phosphoinositide-Ca2+ signaling and Rho. 859 23

We have previously shown that the 180-kD bullous pemphigoid antigen (BPAII), which is a transmembrane collagenous protein of hemidesmosomes, is distributed at adhesion sites on glass coverslips on the basal membrane forming a concentric ring, or arch pattern, in a human squamous cell carcinoma cell line (DJM-1), when studied by immunofluorescence microscopy using monoclonal antibodies to BPA II. This concentric ring/arch pattern of "footsteps" of BPA II has been shown to be collapsed in association with a transient activation of protein kinase C by treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA). In the present study, therefore, the effects of TPA on the phosphorylation of BPA II was examined. DJM-1 cells, which were metabolically labelled with [32Pi], were lysed and the extracts were subjected to immunoprecipitation with anti-BPAII and anti-230 kDa bullous pemphigoid antigen (BPAI) monoclonal antibodies. The results showed that only BPA II, but not BPA I, was phosphorylated at serine residues before TPA treatment. After TPA treatment phosphorylation was prominently increased so as to generate a 190 kDa-phosphorylated peptide. This 190-kDa peptide was reacted with anti-BPA II monoclonal antibodies by immunoblotting, and it was not detected when cells were pretreated with a specific protein kinase C inhibitor (H7) before TPA treatment, suggesting that the 190 kDa peptide is phosphorylated BPAII with TPA. Prolonged treatment with TPA abolished both of 180- and 190-kDa BPA II from Triton X-100-soluble fractions. These findings suggest that the BPA II, but not BPA I, is a substrate of protein kinase C, and the generation of 190-kDa-phosphorylated BPA II has a key role in the TPA-induced collapse of the assembly of BPA II on the basal plasma membrane, probably, at hemidesmosomes.
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PMID:A hemidesmosomal transmembrane collagenous molecule, the 180-kDa bullous pemphigoid antigen (BPA II), is phosphorylated with 12-O-tetradecanoylphorbol-13-acetate in a human squamous cell carcinoma cell line (DJM-1). 868 20

The effects of parathyroid hormone (PTH) on 1,4,5-inositol triphosphate (1,4,5-IP3) and intracellular free calcium (Cai2+) in osteoblasts are variable, whereas adenylate cyclase activity is consistently stimulated. Cyclic AMP is considered a mediator in the contractile effects of PTH on osteoblasts, but the regulation and role of Cai2+ remains unclear. Recent studies indicate that protein kinase C (PKC) inhibits PTH-stimulated Cai2+ increases in osteoblastic cells. Therefore, the objectives of this study were to determine the effects of PKC modulators and PTH on UMR 106-H5 rat osteoblastic cell morphology, and the relationship between cell shape and PTH-induced Cai2+ changes. In suspended cells loaded with the calcium indicator dye fura-2, pretreatment with PKC inhibitors calphostin C (100 nM x 1 h) and H-7 (30 microM x 18 h) potentiated the effects of 1 microgram/ml bPTH (1-84) on Cai2+ (83% increase over basal) by 1.4- and 1.65-fold, respectively. In comparison, PTH (10 ng-1 micrograms/ml) was without significant effect on adherent cell Cai2+ as measured by single-cell image analysis, although another in vitro bone resorbing agent, thrombin (10 U/ml), produced an acute 3-fold increase in the ratio (R) of emission (approximately lambda 510 nm) detected and optimized at lambda 348/374 nm (i.e., Ca-bound dye/free dye) in control cells. Phase-contrast microscopy revealed PKC inhibitor-treated cells changed from a spread configuration to a stellate form with retracting processes or cell rounding and a collapse of actin stress fibers. Within 1 h of PTH addition, PKC inhibitor-treated cells continually became extended/respread up to 3 h with an associated increase in actin stress fibers that was preceded by an acute 1.6-fold Cai2+ increase. In contrast, control or PKC activator-treated cells (phorbol 12,13-dibutyrate or 12-O-tetradecanoylphorbol-13-acetate; TPA) contracted/retracted within 5 min in response to PTH. A role for Cai2+ in PTH-induced cell spreading was further indicated by a contractile response to PTH when PKC-inhibitor-treated cells were loaded with the intracellular calcium chelator dimethyl BAPTA (3 microM x 30 min). PTH-induced Cai2+ increases in adherent PKC inhibitor-treated cells were also associated with a 1.8-fold 1,4,5-IP3 increase as measured by mass assay. The data suggest PKC contributes to UMR 106-H5 cell morphology and selectively regulates signal pathways activated by PTH to promote either cell contraction (cAMP) or extension (1,4,5-IP3/Cai2+).
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PMID:Protein kinase C modulator effects on parathyroid hormone-induced intracellular calcium and morphologic changes in UMR 106-H5 osteoblastic cells. 913 85

Physiological conditions that impinge on constitutive traffic and affect organelle structure are not known. We report that osmotically induced cell volume changes, which are known to occur under a variety of conditions, rapidly inhibited endoplasmic reticulum (ER)-to-Golgi transport in mammalian cells. Both ER export and ER Golgi intermediate compartment (ERGIC)-to-Golgi trafficking steps were blocked, but retrograde transport was active, and it mediated ERGIC and Golgi collapse into the ER. Extensive tubulation and relatively rapid Golgi resident redistribution were observed under hypo-osmotic conditions, whereas a slower redistribution of the same markers, without apparent tubulation, was observed under hyperosmotic conditions. The osmotic stress response correlated with the perturbation of COPI function, because both hypo- and hyperosmotic conditions slowed brefeldin A-induced dissociation of betaCOP from Golgi membranes. Remarkably, Golgi residents reemerged after several hours of sustained incubation in hypotonic or hypertonic medium. Reemergence was independent of new protein synthesis but required PKC, an activity known to mediate cell volume recovery. Taken together these results indicate the existence of a coupling between cell volume and constitutive traffic that impacts organelle structure through independent effects on anterograde and retrograde flow and that involves, in part, modulation of COPI function.
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PMID:Osmotically induced cell volume changes alter anterograde and retrograde transport, Golgi structure, and COPI dissociation. 1023 55


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