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)

Soluble 125I-labeled type I collagen binds to cultured fibroblasts but not to cultured epithelia. The binding of the ligand to fibroblasts is reversible, saturable and highly specific for sequences contained within the helical portions of the alpha1 and alpha2 chains. The amount of ligand bound is dependent upon cell number and ligand concentration. Binding is decreased but measurable at 4 degrees C. The steady state binding is greater at 26 degrees than at 37 degrees C due to a more rapid dissociation of the ligand-acceptor complex at 37 degrees C. The half-life of the complex is 46 min at 37 degrees C and approximately 2.5 hr at 26 degrees C. Scatchard plots of binding data indicate a single class of high affinity binding sites (KD = 1.2 X 10(-11) M) with each fibroblast binding approximately 500,000 molecules at saturation. Pretreatment of fibroblasts with bacterial collagenase, chondroitinase ABC or testicular hyaluronidase does not affect the binding reaction, whereas pretreatment of the cells with phospholipase C increases the amount of ligand bound. Ligand binding is decreased but not abolished after fibroblasts are treated with trypsin concentrations which remove surface fibronectin. Fibroblast monolayers treated with antiserum against fibronectin bind the radiolabeled ligand normally. In contrast to collagen, addition of excess fibronectin does not accelerate the dissociation of bound ligand from fibroblasts. Possible functions for surface-bound collagen are discussed.
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PMID:Binding of soluble type I collagen molecules to the fibroblast plasma membrane. 45 36

The release of beta-lysin, which followed the intravenous injection of antigen-antibody complexes, did not take place when these complexes were added to citrated whole blood but did occur in heparinized blood. beta-Lysin release in heparinized blood was inhibited by citrate but were reversed by the addition of calcium ions that implicated complement reactions. Fourteen different enzymes were added to platelet-rich plasma (PRP). Streptokinase, neuraminidase, papain, phospholipase C, sulfatase, and trypsin caused platelets to release significant quantities of beta-lysin, whereas elastase, phosphatase, protease, ribonuclease A, hyaluronidase, lipase, and pepsin caused little or no increase in the plasma beta-lysin concentration. One enzyme, fibrinolysin, inactivated beta-lysin faster than it was released. The enzyme-induced release of beta-lysin from PRP was often accompanied by a reduction in the number of platelets. The intravenous injection of streptokinase, neuraminidase, and sulfatase caused in vivo releases of beta-lysin into the plasma. The platelet-aggregating substances collagen, arachidonic acid, and adenosine 5'-diphosphate caused beta-lysin to be released from PRP. The platelet-aggregating substances L-epinephrine, zymosan, fibrinogen, reserpine, and serotonin caused little or no release of beta-lysin from platelets. The results of this study indicate that the release of beta-lysin during antigen-antibody-complement reactions, blood coagulation, phagocytosis, and inflammation could be enzyme mediated.
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PMID:Release of beta-lysin from platelets caused by antigen-antibody complexes, purified enzymes, and platelet-aggregating substances. 84 4

Renal proximal tubule sodium reabsorption is enhanced by apical or basolateral angiotensin II (AII). Although AII activates phospholipase C (PLC) in other tissues, AII coupling to PLC on either apical or basolateral surfaces of proximal tubule cells is unclear. To determine if AII causes PLC activation, and the differences between apical and basolateral AII receptor function, receptors were unilaterally activated in rat proximal tubule cells cultured on permeable, collagen-coated supports. Apical AII incubation resulted in concentration- and time-dependent inositol trisphosphate (IP3) formation. Basolateral AII caused greater IP3 responses. Apical AII-induced IP3 generation was inhibited by DuP 753, suggesting that the type 1 AII receptor subtype mediated proximal tubule PLC activation. Apical AII signaling did not result from paracellular ligand leak to basolateral receptors since AII-induced PLC activation occurred when basolateral AII receptors were occupied by Sar-Leu AII or DuP 753. Inhibition of endocytosis with phenylarsine oxide prevented apical (but not basolateral) AII-induced IP3 formation. Cytoskeletal disruption with colchicine or cytochalasin D also prevented apical AII-induced IP3 generation. These results demonstrate that in cultured rat proximal tubule cells, AII is coupled to PLC via type 1 AII receptors and cytoskeleton-dependent endocytosis is required for apical (but not basolateral) AII receptor-mediated PLC activation.
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PMID:Cytoskeleton-dependent endocytosis is required for apical type 1 angiotensin II receptor-mediated phospholipase C activation in cultured rat proximal tubule cells. 133 76

The effects of S35b (4-methyl-3-phenyl sulfonylfuroxan), a new phenyl sulfonylfuroxan compound, were investigated on human platelets activated by different agonists. Platelet aggregation evoked by arachidonic acid (AA), collagen, ADP and thrombin was inhibited by the drug in a dose-dependent manner. S35b inhibited the AA-induced increase of cytosolic free Ca2+ ([Ca2+]i) and production of malondialdehyde. A primary action of the compound on cyclooxygenase is unlikely since: (1) U-46619 (15s-hydroxy-11,9-[epoxymethano]-prosta-5Z,13E-dienoic acid, a stable epoxymethano analog of prostaglandin H2) could not reverse the inhibitory effect of S35b on AA-induced aggregation and [Ca2+]i increase; (2) U-46619-induced aggregation and [Ca2+]i rise were inhibited by S35b; and (3) at high collagen concentrations platelet aggregation (which is unresponsive to aspirin under such conditions) was blocked by S35b as well. Thus the drug action is likely to be exerted at an early step of the platelet activation pathway. The elevation in the platelet cGMP level evoked by S35b in a time- and concentration-dependent manner can account for the inhibitory effect: increased cGMP levels could interfere, for instance, with G protein-phospholipase C coupling and subsequent phosphoinositide hydrolysis.
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PMID:Characterization of a new compound, S35b, as a guanylate cyclase activator in human platelets. 134 17

A series of alpha,alpha'-bis[3-(N,N-dialkylcarbamoyl)piperidino]-p- xylenes were synthesized and tested for their inhibitory activity on ADP-induced aggregation of human platelets. A parabolic curve was obtained when log 1/C (activity) was plotted against log P (octanol/water partition coefficient). Using this as a model, a new analogue, alpha,alpha'-bis-[3-(N-methyl-N-butylcarbamoyl)piperidino]-p-xylen e (3g), was synthesized with a predicted IC50 of 25 microM. When this compound was subsequently evaluated, the IC50 was 22.1 +/- 5.5 microM, demonstrating the applicability of this model. The amide oxygen of the carbamoyl substituent appeared necessary for activity. Thus, for example, when the amide carbonyl group of 3a (IC50 = 44.5 microM) was reduced to CH2, the resulting compound 4 had a dramatically reduced activity, IC50 = 1565 microM. Compound 3a was resolved into (+) and (-) enantiomers and a meso (0) diastereomer using fractional crystallization, diastereomeric tartrate formation, and chiral HPLC. Compared to (-)-3a, the (+) isomer was 15 times more potent when ADP was the agonist and 19 times more active when collagen was used as the agonist. Molecular modeling of R,R- and S,S-3a using the SYBYL program was used to examine their interactions with phosphatidylinositol (PI). There was a better fit between PI and the R,R-3a with the energy of interaction being 17.6 kcal/mol less than that of the S,S-3a/PI complex. Although the absolute stereochemistry of individual enantiomers is not known, this study shows that R,R-3a interacts more favorably with PI than does S,S-3a and that (+)-3a is a more potent inhibitor of human platelet aggregation than (-)-3a. It is postulated that because of their lipophilicity, these compounds penetrate the platelet membrane and are then protonated at the pH of the cytosol. The protonated N then neutralizes the anionic charge on the membrane phosphoinositides, thereby rendering them less susceptible to hydrolysis by phospholipase C. Thus, the determinant parameters for optimum antiplatelet activity in 3-carbamoylpiperidines are (1) the amide carbonyl, (2) appropriate stereochemistry of the 3-substituent and (3) a log P value of about 4.5.
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PMID:Molecular determinants of the platelet aggregation inhibitory activity of carbamoylpiperidines. 150 Dec 22

The responses to mechanical loading of two types of osteoblast-like cells and skin fibroblasts were investigated using two new devices for applying defined and homogeneous strains to cells. The results indicate that only periostal (bone surface) osteoblasts are sensitive to strains within the physiological range and that a specific strain mechanism is responsible. Osteoblasts derived from the haversian system and skin fibroblasts do not respond except at higher, unphysiological strains. The mechanism is located in the cytoskeleton and activates the membrane phospholipase C within milliseconds and may react to distension of a strain sensitive protein. Activation of phospholipase C can account for only some of the observed responses of bone to mechanical loading such as stimulation of cell division, increase in collagen and collagenase production. Application of over 10,000 mu strains results in a de-differentiation of the osteoblasts and a change in cell morphology to become fibroblast-like.
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PMID:Biochemical signal transduction of mechanical strain in osteoblast-like cells. 165 92

When a blood vessel is disrupted, subendothelial structures such as collagen come into contact with circulating blood platelets. These will adhere and recruit additional platelets to form a platelet aggregate which will close the leak, but which can, under certain circumstances, give rise to the formation of a thrombus. In this work our personal contribution to a better understanding of this process is given. We could demonstrate the presence of an antibody interfering with the platelet-collagen interaction in two patients with a bleeding problem. One of the antibodies is directed against glycoprotein (GP) Ia, a known collagen receptor, the other one recognizes a less well characterized protein of 85-90 kD. It therefore can be concluded that activation of blood platelets requires the simultaneous interaction of collagen with multiple receptors. Activation of platelets following binding of an agonist in many instances involves activation of phospholipase C via a GTP-binding protein or G-protein. We have further studied this by using a direct stimulator of G-proteins, AlF4-, which in platelets indeed activates phospholipase C, together with other systems. Furthermore, we could demonstrate that activation of phospholipase C in a GTP-dependent manner also occurs in platelet cytosol, indicating that the action of G-proteins is not restricted to membrane-linked phenomena. Activation of phospholipase C gives rise to the formation of inositol phosphates, of which mainly inositol 1, 4, 5 trisphosphate increases intracellular Ca(2+)-levels. Following this, the Ca(2+)-dependent phospholipase A2 releases arachidonic acid from the membranes. In platelets arachidonic acid is metabolised to another platelet activator: thromboxane A2. We have studied the effects of the inhibition of this aggregation-amplifying pathway by using specific inhibitors of the synthesis of thromboxane A2 and of thromboxane A2 receptor antagonists both in vitro and in vivo. One of the conclusions that were reached from these studies was that theoretically the combination of these two classes of drugs should yield a significant stronger antiplatelet effect than either class used alone. We could later on confirm this hypothesis, which stimulated some pharmaceutical companies to look for dual action compounds, of which we have studied two so far.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Signal transduction in blood platelets]. 166 33

Platelets respond through discrete receptors to a number of physiological stimuli and foreign surfaces with a sequence of measurable responses: shape change, aggregation, secretion and arachidonate liberation. Three secretory responses are distinguished: release of substances from 1) dense granules (ADP, serotonin), 2) alpha-granules (coagulation factors, platelet-specific proteins, adhesive proteins) and 3) lysosomes (acid hydrolases). The liberated arachidonate is converted to prostaglandins and thromboxanes which, together with secreted ADP and close cell contact, will cause further platelet activation through "positive feedback" (autocrine stimulation). Some agonists are "weak" (ADP, vasopressin, platelet-activating factor) and depend on positive feedback to promote the full sequence of responses, while other agonists are "strong" (thrombin, collagen) and stimulate the entire response sequence without positive feedback. Most agonists appear to stimulate platelet responses via G-protein-dependent activation of phospholipase C, resulting in diesteratic hydrolysis of phosphatidylinositol-4,5-bisphosphate yielding inositol-1,4,5-trisphosphate and diacylglycerol. These are signal molecules which mobilize cytoplasmic Ca2+ and stimulate protein kinase C, respectively. Cytoplasmic Ca2+ will in turn activate protein phosphorylations which eventually lead to execution of the various responses while activation of protein kinase C appears to be linked to regulation of intracellular pH through Na+/H+ exchanger and to termination of the Ca(2+)-mediated signal processing. Other agonists (prostaglandins I2 and D2) counteract platelet stimulation through classical activation of adenylate cyclase.
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PMID:Signal transducing mechanisms in platelets. 166 17

Membrane phospholipase C (PLC) activation is induced by the interaction of numerous vasoactive hormones and growth factors with their receptors. Two products are liberated: inositol triphosphate (IP3) and diacyglycerol (DG). The first product liberates intracellular calcium from its stores in the sarcoplasmic reticulum and the second one activates a phosphokinase, which triggers a transmembrane Na+/H+ exchange. A cascade of metabolic events secondary to these chemical changes impinges on the expression of nuclear proto-oncogenes, which determines cell growth. Studies conducted in spontaneously hypertensive rats (SHRs) have shown that PLC is hyperreactive to various agonists and that the phenomenon is present within a variety of cells, fibroblasts, platelets, and myocytes. Therefore, it is likely that hypertension in SHRs is characterized by a diffuse and intrinsic cellular defect that cannot be considered a consequence of the hemodynamic changes of hypertension. On the one hand, enhanced intracellular calcium mobilization may play a role in arterial tone and contraction whereas, on the other hand, enhanced activation of proto-oncogenes, myc, fos, and jun, may be involved in the mechanisms of arteriosclerosis. The pattern of an evolution towards arterial cell proliferation with acquisition of a secretory phenotype with collagen production was indeed observed in cultured cells from the arterial wall.
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PMID:Hypertension and atherosclerosis. 169 95

Twenty patients accepted for coronary bypass surgery were randomized to receive either a concentrated ethylester compound of n-3 fatty acids, with a daily dose of 3.15 g of eicosapentaenoic acid (EPA) and 1.89 g of docosahexaenoic acid (DHA), or corn oil (controls) in a double blind study, to evaluate the effect on lipids, platelets and coagulation during the pre- and postoperative phase. Only patients with fasting triglyceride (TG) levels greater than or equal to 1.6 mmol/l at recruitment were eligible. The study was continued for 5 to 6 months. Surgery was usually performed at mid-intervention. Blood samples were collected during morning hours in fasting subjects, just prior to intervention, preoperatively and at final postoperative follow-up. Moreover, blood loss was accurately accounted for postoperatively. A threefold increase (p = 0.0001) of EPA was noted at pre- and postoperative follow-up. TG-levels were reduced 20 and 39%, respectively, in patients on n-3 fatty acids, reaching statistical significance at end of intervention (p = 0.034). TG-levels in controls remained largely unchanged. In patients on n-3 fatty acids, there was a statistically significant increase in serum total cholesterol preoperatively, but this change was no longer present at completion of the study. No significant changes were noted in platelet function, as judged by bleeding time, collagen induced platelet aggregation and release of TxB2 during aggregation. Parameters of extrinsic coagulation, including phospholipase C-sensitive factor VII (PLC-VII) and extrinsic pathway inhibitor (EPI), also remained essentially unchanged in both groups of patients. However, fibrinogen was significantly reduced in controls (p less than 0.05) at end of intervention.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Influence of a concentrated ethylester compound of n-3 fatty acids on lipids, platelets and coagulation in patients undergoing coronary bypass surgery. 177 12


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