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:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Low concentrations of Ca2+-mobilizing agonists such as vasopressin, platelet-activating factor, ADP, the endoperoxide analogue U44069 and the Ca2+ ionophore A23187 enhance the binding of [3H]phorbol 12,13-dibutyrate (PdBu) to intact human platelets. This effect is prevented by preincubation of platelets with prostacyclin (except for A23187). Adrenaline, which does not increase Ca2+ in the platelet cytosol, does not enhance the binding of [3H]PdBu to platelets. In addition, all platelet agonists except adrenaline potentiate the phosphorylation of the substrate of protein kinase C (40 kDa protein) induced by PdBu. Potentiation of protein kinase C activation is associated with increased platelet aggregation and secretion. Stimulus-induced myosin light-chain phosphorylation and shape change are not significantly affected, but formation of phosphatidic acid is decreased in the presence of PdBu. The results may indicate that low concentrations of agonists induce in intact platelets the translocation of protein kinase C to the plasma membrane by eliciting mobilization of Ca2+, and thereby place the enzyme in a strategic position for activation by phorbol ester. Such activation enhances platelet aggregation and secretion, but at the same time suppresses activation of phospholipase C. Therefore, at least part of the synergism evoked by Ca2+ and phorbol ester is mediated through a single pathway which involves protein kinase C. It is likely that the priming of protein kinase C by prior Ca2+ mobilization occurs physiologically in activated platelets.
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PMID:Ca2+ mobilization primes protein kinase C in human platelets. Ca2+ and phorbol esters stimulate platelet aggregation and secretion synergistically through protein kinase C. 314 57

1. Exogenous arachidonic acid (AA) inhibits the protein phosphatase that dephosphorylates smooth muscle myosin, thus sensitizing the contractile response to Ca2+; it also inhibits voltage-gated Ca2+ channels in smooth muscle. The purpose of the present study was to determine whether endogenous AA is increased by agonists in a manner consistent with its role as a messenger regulating myosin phosphatase and Ca2+ channels. Both AA and diacylglycerol (DAG) were measured in [3H]AA-labelled intact and permeabilized (with staphylococcal alpha-toxin) rabbit femoral arteries stimulated with the alpha 1-adrenergic agonist phenylephrine (PE) (intact and permeabilized smooth muscles) or by guanosine-5'-O-(3-thiotriphosphate (GTP gamma S; permeabilized smooth muscles in which the [Ca2+] was maintained constant). Arachidonic acid mass was determined with gas chromatography and mass spectrometry (GC-MS). 2. In intact smooth muscle, PE increased both AA and DAG levels significantly, to 210 and 145% of baseline values, respectively. Another Ca2+-sensitizing agent, the thromboxane analogue U46619, caused a similar increase in AA and DAG levels in rabbit pulmonary artery. 3. In permeabilized smooth muscle at constant [Ca2+](pCa 6.5) GTP gamma S-induced AA and DAG release preceded force development and GTP gamma S (50 microM, 10 min) increased AA mass to 61-88 microM. 4. Phorbol-12,13-dibutyrate (PDBu), another Ca2+-sensitizing agent, also increased both AA and DAG levels in permeabilized smooth muscle at pCa 6.5, whereas the inactive analogue, 4 alpha-phorbol, did not have a Ca2+-sensitizing effect, nor did it increase AA and DAG levels. 5. In the virtual absence of Ca2+ (pCa > 8) GTP gamma S also increased AA and DAG levels by 3.5- and 1.6-fold, respectively. The effect of free Ca2+ itself on AA and DAG release was modest in the physiological range (pCa 7.0 to pCa 6.0), but pCa 4.5 caused an approximately 3- to 4-fold increase in AA and DAG levels, compared with the levels at pCa 8. In permeabilized ileum smooth muscle maintained at constant [Ca2+] (pCa 6.0), carbachol also significantly increased AA to 1.75 times its original value within 1 min of its application. 6. Our results are consistent with, although do not prove, the roles of AA and DAG as second and/or co-messenger(s) in smooth muscle, while the increases in AA and DAG levels induced by PDBu raise the possibility that they contribute to some of the cellular effects of phorbol esters.
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PMID:Arachidonic acid and diacylglycerol release associated with inhibition of myosin light chain dephosphorylation in rabbit smooth muscle. 756 27

Genistein, a potent tyrosine kinase inhibitor, inhibits contraction of several types of smooth muscle, suggesting that protein tyrosine phosphorylation may be an important regulatory mechanism for smooth muscle contraction. We suspected that one site between activation of smooth muscle and contraction which might be modulated by protein tyrosine phosphorylation involved mechanisms for control of Ca2+ sensitivity. Since smooth muscle permeabilized with staphylococcal alpha-toxin permits direct assessment of agonist-induced Ca2+ sensitivity, we studied the effects of genistein on potential coupling between tyrosine phosphorylation and Ca2+ sensitivity in permeabilized ileal smooth muscle. Results show that contraction of intact preparations with carbachol is markedly and reversibly inhibited by 40% at 4 micrograms genistein/ml and by 60% at 20 micrograms genistein/ml. Permeabilized preparations that are contracted with a submaximal [Ca2+] in the presence of GTP relax when genistein is added to the medium. Genistein also reversibly inhibits contractions induced in permeabilized muscle with either a submaximal or maximal [Ca2+] in the presence of GTP, as well as receptor-coupled activation of Ca2+ sensitization with 10 microM carbachol/10 microM GTP. Activation of permeabilized preparations at pCa 4.6 in the presence of 100 microM GTP promotes time-dependent tyrosine phosphorylation of several substrates. Both phosphorylation and force are inhibited by genistein. However, relatively high levels of myosin light chain phosphorylation persist during genistein-induced inhibition of Ca2+ sensitivity. In contrast, genistein has no effect on Ca(2+)-activated contraction in Triton-skinned preparations in either the presence or the absence of GTP. This shows that it does not directly inhibit actin-myosin interaction and suggests that its target(s) may be a cytosolic or membrane-bound regulatory protein(s) that is leached from the preparations during Triton-skinning. Taken together, these new data suggest that (a) tyrosine phosphorylation of one or more substrates may be coupled to mechanisms which regulate Ca2+ sensitivity and (b) the inhibitory effects of genistein are probably due to inhibition of agonist-induced Ca2+ sensitivity.
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PMID:Modulation of Ca2+ sensitivity in smooth muscle by genistein and protein tyrosine phosphorylation. 762 29

1. Sensitization of the contractile system in response to combinations of excitatory agonists acetylcholine (ACh), methacholine, histamine and neurokinin A (NKA) was investigated in colonic circular smooth muscle of dog, NKA (1 nM) potentiated the contractile response to 1 microM ACh, but did not increase the fura-2 fluorescence ratio (R340/380). Contraction in response to low concentrations of either methacholine or histamine was potentiated significantly by 0.1 microM 4-phorbol 12,13-dibutyrate (PDBu), suggesting that activation of protein kinase C can potentiate contraction at threshold concentrations of agonists. 2. Variability in the sensitivity of the contractile system to Ca2+ was demonstrated over a range of agonist concentrations. KCl, ACh, histamine and NKA each produced a concentration-dependent increase in the amplitude of phasic contractions and R340/380. However, ACh, histamine and NKA each induced maximal increases in R340/380 at concentrations less than that needed to induce maximum force. 3. In depolarized muscles, NKA (50 nM) and PDBu (1 microM) each increased the magnitude of tonic contraction with no change or a decrease in both R340/380 and myosin light chain phosphorylation. In alpha-toxin-permeabilized fibres, 0.1 microM PDBu and 1 microM NKA shifted the Ca(2+)-force response to the left. Ca(2+)-induced contractions were also potentiated by 100 microM GTP-gamma-S or 1 microM NKA plus 10 microM GTP. Potentiation of contraction by NKA and GTP was antagonized by 10 microM GDP-beta-S. 4. The results suggest that endogenous agonists acting via G-proteins sensitize the contractile element of colonic smooth muscle in part by activation of protein kinase C. In some cases, sensitization may be secondary to increased myosin phosphorylation (ACh), but in other cases it appears to be independent of increased myosin light chain phosphorylation (NKA and PDBu). Therefore regulatory mechanisms in addition to myosin phosphorylation contribute to the apparent sensitization of the contractile system to Ca2+.
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PMID:Sensitization of the contractile system of canine colonic smooth muscle by agonists and phorbol ester. 770 35

To examine their role in insulin secretion, actin filaments (AFs) were disrupted by Clostridium botulinum C2 toxin that ADP-ribosylates G-actin. Ribosylation also prevents polymerization of G-actin to F-actin and inhibits AF assembly by capping the fast-growing end of F-actin. Pretreatment of HIT-T15 cells with the toxin inhibited stimulated insulin secretion in a time- and dose-dependent manner. The toxin did not affect cellular insulin content or nonstimulated secretion. In static incubation, toxin treatment caused 45-50% inhibition of secretion induced by nutrients alone (10 mM glucose + 5 mM glutamine + 5 mM leucine) or combined with bombesin (phospholipase C-activator) and 20% reduction of that potentiated by forskolin (stimulator of adenylyl cyclase). In perifusion, the stimulated secretion during the first phase was marginally diminished, whereas the second phase was inhibited by approximately 80%. Pretreatment of HIT cells with wartmannin, a myosin light chain kinase inhibitor, caused a similar pattern of inhibition of the biphasic insulin release as C2 toxin. Nutrient metabolism and bombesin-evoked rise in cytosolic free Ca2+ were not affected by C2 toxin, indicating that nutrient recognition and the coupling between receptor activation and second messenger generation was not changed. In the toxin-treated cells, the AF web beneath the plasma membrane and the diffuse cytoplasmic F-actin fibers disappeared, as shown both by staining with an antibody against G- and F-actin and by staining F-actin with fluorescent phallacidin. C2 toxin dose-dependently reduced cellular F-actin content. Stimulation of insulin secretion was not associated with changes in F-actin content and organization. Treatment of cells with cytochalasin E and B, which shorten AFs, inhibited the stimulated insulin release by 30-50% although differing in their effects on F-actin content. In contrast to HIT-T15 cells, insulin secretion was potentiated in isolated rat islets after disruption of microfilaments with C2 toxin, most notably during the first phase. This effect was, however, diminished, and the second phase became slightly inhibited when the islets were degranulated. These results indicate an important role for AFs in insulin secretion. In the poorly granulated HIT-T15 cells actin-myosin interactions may participate in the recruitment of secretory granules to the releasable pool. In native islet beta-cells the predominant function of AFs appears to be the limitation of the access of granules to the plasma membrane.
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PMID:Effect of disruption of actin filaments by Clostridium botulinum C2 toxin on insulin secretion in HIT-T15 cells and pancreatic islets. 786 85

Folic acid and cAMP are chemoattractants in Dictyostelium discoideum, which bind to different surface receptors. The signal is transduced from the receptors via different G proteins into a common pathway which includes guanylyl cyclase and acto-myosin. To investigate this common pathway, ten mutants which do not react chemotactically to both cAMP and folic acid were isolated with a simple new chemotactic assay. Genetic analysis shows that one of these mutants (KI-10) was dominant; the other nine mutants were recessive, and comprise nine complementation groups. In wild-type cells, the chemoattractants activate adenylyl cyclase, phospholipase C, and guanylyl cyclase in a transient manner. In mutant cells the formation of cAMP and IP3 were generally normal, whereas the cGMP response was altered in most of the ten mutants. Particularly, mutant KI-8 has strongly reduced basal guanylyl cyclase activity; the enzyme is present in mutant KI-10, but can not be activated by cAMP or folic acid. The cGMP response of five other mutants is altered in either magnitude, dose dependency, or kinetics. These observations suggest that the second messenger cGMP plays a key role in chemotaxis in Dictyostelium.
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PMID:Non-chemotactic Dictyostelium discoideum mutants with altered cGMP signal transduction. 790 39

The hypothesis that a large, possibly toxic, increase in cellular calcium accompanies photoreceptor cell degeneration in several different Drosophila mutants was tested. The calcium content of wild type and mutant photoreceptors of Drosophila was measured using rapid freezing of the eyes and energy-dispersive x-ray analysis (e.d.x.) of cryosections and semithin sections of cryosubstituted material. Light- and dark-raised mutants of the following strains were studied: retinal degeneration B (rdgB); retinal degeneration C (rdgC); neither inactivation nor afterpotential C (ninaC), and no receptor potential A (norpA). These are light-dependent retinal degeneration mutants in which the affected gene products had been previously shown as myosin-kinase (ninaC), calcium-dependent phosphoprotein phosphatase (rdgC), phosphoinositide transfer protein (rdgB), and phospholipase C (norpA). In light-raised mutants, ommatidia of variable degrees of degeneration were observed. Mass-dense globular bodies of 200-500 nm diameter in relatively large quantities were found in the degenerating photoreceptor of all the mutants tested. These subcellular globules were found to have a very high calcium content, which was not found in wild type or in nondegenerating photoreceptors of the mutants. Nondegenerating photoreceptors were found not only in dark-raised mutants, but in smaller quantities also in light-raised mutants. Usually these globular structures contained high levels of phosphorus, indicating that at least part of the calcium in the mutant photoreceptors is precipitated as calcium phosphate. The results indicate that a large increase in cellular calcium accompanies light-induced photoreceptor degeneration in degenerating Drosophila mutants even when induced by very different mutations, suggesting that the calcium accumulation is a secondary rather than a primary effect in the degeneration process.
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PMID:Accumulation of calcium in degenerating photoreceptors of several Drosophila mutants. 791 26

Since the development of intracellular Ca2+ indicators, such as aequorin, fura-2 and indo-1, it became possible to examine the relationship between cytosolic Ca2+ levels ([Ca2+]i) and muscle contraction in various types of smooth muscles. In addition, the use of bacterial alpha-toxin and saponin, beta-escine, enabled us to make permeabilized muscle in which the receptor-coupled signal transduction system remains intact. Using these techniques, it was found that muscle contraction does not always parallel with [Ca2+]i. A typical example of such dissociation is seen in rat aorta which is classified as 'tonic muscle'; receptor agonists induce greater contraction than a high concentration of K+ at a given [Ca2+]i. Another example observed in a 'phasic muscle' of canine antrum is a temporal change in Ca2+ sensitivity; Ca2+ sensitivity initially increases and then decreases during the spontaneous rhythmic contractions. These results suggest that smooth muscle regulation is not explained solely by the classical Ca(2+)-dependent 'myosin phosphorylation theory'.
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PMID:Different Ca(2+)-sensitivity in phasic and tonic types of smooth muscles. 803 58

Regulatory light chain phosphorylation is required for assembly of smooth and non-muscle myosins in vitro, but its effect on polymerization within the cell is not understood. Relaxed smooth muscle cells contain dephosphorylated thick filaments, but this does not exclude the presence of a pool of folded myosin monomers which could be recruited to assemble when phosphorylated, thus forming part of smooth muscle's activation pathway. To test this hypothesis, relaxed and contracted avian gizzard cryosections were labeled with a fluorescently conjugated monoclonal antibody specific for the folded monomeric conformation, or with an antibody against the tip of the tail whose epitope is accessible in the monomeric but not the filamentous state. Fluorescence intensity observed in the two physiological states was quantitated by digital imaging microscopy. Only trace amounts of folded monomeric myosin were detected in both the relaxed and contracted states. The amount of monomer also did not increase when alpha-toxin permeabilized gizzard was equilibrated in a solvent that disassembles filaments in vitro. Assembly/disassembly is therefore unlikely to play a major role in regulating the contraction/relaxation cycle in smooth muscle cells.
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PMID:Antibodies probe for folded monomeric myosin in relaxed and contracted smooth muscle. 806 56

Q10 values of the protein phosphatases that can dephosphorylate the regulatory light chain of smooth muscle myosin were determined. Six phosphatases were examined, i.e. skeletal muscle protein phosphatase 1c; protein phosphatase 2Ac; smooth muscle phosphatases (SMP) I, II, and IV; and myosin-associated protein phosphatase (MAP phosphatase). Among them, SMP-IV and MAP phosphatase, which can dephosphorylate intact smooth muscle myosin, showed extremely high Q10 values (5.3 and 5.2, respectively). On the other hand, the Q10 values of other tested phosphatases were within the range of the normal enzyme reaction (Q10 = 2.0). The rate of dephosphorylation of the myosin light chain in alpha-toxin-skinned strips was measured at different temperatures. The results provided a Q10 of 5.1, which was quite similar to those values obtained for SMP-IV and MAP phosphatase. These results suggest that the physiological myosin light chain phosphatases are SMP-IV and/or MAP phosphatase, i.e. type 1 protein phosphatases. The temperature dependence of maximum force, the steady-state extent of myosin light chain phosphorylation, and the relaxation rate of alpha-toxin-permeabilized rabbit portal vein smooth muscle strips were measured. Both maximum force and the extent of myosin light chain phosphorylation were significantly higher at lower temperature (15 degrees C) than at higher temperature (25 degrees C) under all pCa conditions tested, i.e. > 8, 6.3, and 5. The temperature dependence of the relaxation rate was much steeper (decreased 4 times by lowering the temperature from 25 to 15 degrees C) than that of the initial rate of increase in force development (decreased 1.4 times by lowering the temperature from 25 to 15 degrees C). These results are consistent with the Q10 values of myosin light chain phosphatases (Q10 = 5) and myosin light chain kinase (Q10 = 1.7) and further show that the smooth muscle type 1 phosphatases are responsible for the dephosphorylation of smooth muscle myosin in situ.
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PMID:Correlation between high temperature dependence of smooth muscle myosin light chain phosphatase activity and muscle relaxation rate. 811 26


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