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:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Analysis of atrial secretory granule content by sodium dodecyl sulfate-gel electrophoresis followed by a 45Ca2+ overlay assay indicates that a 17,000 protein binds 45Ca2+. This protein, which can be immunostained by atrial natriuretic factor (ANF) antiserum, corresponds to proANF. Ca2+ binding is proportional to the amount of proANF and pH dependent. Generation of ANF-(1-98) by thrombin digestion of proANF does not affect Ca2+ binding. Blocking the carboxyl groups of proANF and the use of NH2-terminal fragments bearing those carboxyl groups demonstrated that the Ca(2+)-interaction site is probably located within the highly acidic portion (11-30) of the propeptide. Ca2+ binding to proANF induces its aggregation that can be verified by sedimentation. ProANF aggregation is Ca2+ dependent, being optimal at 10 mM, partially pH dependent, and greatly increased by high concentrations of proANF. However, because of its relatively low-binding affinity, Ca2+ can be substituted by other divalent cations such as Sr2+, Ba2+, or Mg2+. The high level of Ca2+ in atrial secretory granules and the aggregation of proANF in the presence of Ca2+ suggest a possible involvement of these physicochemical properties in the condensed state of the matrix of secretory granules. Indeed, detergent solubilization of the membrane of the secretory granules in presence of Ca2+ resulted only in a partial dissolution of the dense core matrix. We therefore postulate that, in the Golgi complex, proANF and Ca2+ associate to form a condensed aggregate that helps package secretory material into secretory vesicles.
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PMID:Binding and aggregation of pro-atrial natriuretic factor by calcium. 153 94

The cytochemical localization of particulate guanylate cyclase and adenylate cyclase activities in rabbit platelets were studied after stimulation with various agents, at the electron microscope level. In the presence of platelet aggregating agents such as thrombin and ADP, the particulate reaction product of guanylate cyclase activity was detectable on plasma membrane and on membranes of the open canalicular system. In contrast, samples incubated with platelet-activating factor showed no activation of the cyclase activity. Atrial natriuretic factor stimulated the particulate guanylate cyclase. The ultracytochemical localization of this activated cyclase was the same as that of thrombin- or ADP-stimulated guanylate cyclase. Adenylate cyclase activity was studied in platelets incubated with prostaglandin E1 plus or minus insulin. The enzyme reaction product was found at the same sites where guanylate cyclase was detected. Therefore guanylate and adenylate cyclase activities do not seem to be preferentially localised in platelet membranes.
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PMID:Particulate guanylate cyclase and adenylate cyclase activities after activation with various agents in rabbit platelets. An ultracytochemical study. 168 24

Recent studies have demonstrated that phosphorylation of atrial natriuretic factor (ANF) (99-126) in vitro modulates the bioactivity of this hormone. The potential physiological relevance of this observation was revealed in latter studies showing that endogenous proANF can be 32PO4-biosynthetically labeled by primary cultured atrial myocytes and by atrial appendage explants. The site and extent of proANF phosphorylation were different, however, in these two model systems. Whereas proANF extracted from atrial explants was phosphorylated on the bioactive, carboxy (C)-terminal portion of the molecule [ANF(99-126)], cultured atrial myocytes phosphorylated proANF on the amino (N)-terminal portion of the prohormone molecule [ANF(1-98)]. It was the goal of this study, therefore, to determine whether the bioactive region of proANF, ANF(99-126), is phosphorylated in vivo. ProANF was obtained by acid extraction of isolated rat atrial secretory granules followed by purification using reverse phase-HPLC. Analysis of purified 125I-labeled proANF by isoelectric focusing (IEF) revealed two bands with isoelectric points of 5.3 and 5.0. The more acidic band comigrated on IEF gels with 32PO4-biosynthetically labeled proANF obtained from primary cultures of atrial myocytes, suggesting that this species of proANF represented endogenously phosphorylated proANF. The more acidic band accounted for only 15-25% of the total proANF found in the mature atrial secretory granule. The phosphorylation state of ANF(99-126) produced by thrombin cleavage of secretory granule proANF was examined using three complementary methods: 1) cation-exchange HPLC, 2) amino-terminal amino acid sequence analysis and 3) anti-ANF(99-105) antibody immunoreactivity. Evidence from these three independent approaches indicated that proANF is not phosphorylated on the C-terminal portion of the molecule in vivo. Therefore, phosphorylation is not a physiological regulator of ANF(99-126) bioactivity.
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PMID:Phosphorylation state of pro-atrial natriuretic factor in rat atrial secretory granules. 217 36

Atrial natriuretic peptide (ANP) and the nitrovasodilator drugs nitroglycerine and nitroprusside were shown here to decrease both basal and thrombin stimulated production of endothelin-1 (ET-1) from cultured human endothelial cells as measured by radioimmunoassay. 8-Bromo-3',5'-cyclic guanosine monophosphate (cGMP) and papaverine also inhibited ET-1 production. The inhibitory effect of ANP and nitrovasodilators on ET-1 production thus appears to be mediated by guanylate cyclase and cGMP. Part of the vasodilatory action of ANP, nitroprusside and nitroglycerine may be due to suppression of endothelial ET-1 production. This may be an additional mechanism whereby nitrovasodilators participate in the regulation of vascular tone.
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PMID:Atrial natriuretic peptide, nitroglycerine, and nitroprusside reduce basal and stimulated endothelin production from cultured endothelial cells. 217 99

Endothelium-dependent vasodilators, nitrates, and atrial natriuretic factor relax blood vessels by increasing vascular cyclic guanosine monophosphate (cGMP). The mechanisms by which cGMP relaxes vascular smooth muscle (VSM) are not known. Since contraction of VSM is associated with increased intracellular calcium and pH, we hypothesized that cGMP may decrease vascular tone by lowering ionized, intracellular calcium [( Ca2+]i) and pH. We used microfluorometry to measure cGMP-induced changes in intracellular calcium and pH of cultured A7r5 VSM cells after stimulation with contractile agonists. A cGMP analogue, 8-Br-cGMP, blocked vasopressin- but not thrombin-stimulated increases in [Ca2+]i. High extracellular potassium concentrations [( K+]) increased [Ca2+]i, but the attenuation of [Ca2+]i by 8-Br-cGMP was not statistically significant. 8-Br-cGMP also attenuated vasopressin- but not thrombin-stimulated alkalinization of VSM cells. cGMP may decrease vascular tone by decreasing [Ca2+]i and pH, but these changes are dependent on the contractile agonist studied.
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PMID:Effect of 8-bromo-cyclic guanosine monophosphate on intracellular pH and calcium in vascular smooth muscle. 254 26

The response of isolated blood vessels to a variety of vasoactive agonists is modulated by the presence of endothelial cells. Indeed, these cells can release both dilator and constrictor substances. The major endothelium-derived relaxing factor may be nitric oxide, which activates soluble guanylate cyclase in the smooth muscle, although the endothelial cells also secrete an unidentified hyperpolarizing factor. Among the natural stimuli for the release of endothelium-derived relaxing factors are circulating hormones, platelet products, thrombin, shear stress, and certain autacoids. Endothelium-derived relaxing factors may contribute to the regulation of the release of atrial natriuretic factor and renin. The endothelial cells can also release constricting factors; among the likely candidates are superoxide anions or the peptide endothelin. In hypertensive blood vessels, the ability to release endothelium-derived relaxing factors but not endothelium-derived contracting factors is blunted.
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PMID:Endothelium and control of vascular function. State of the Art lecture. 266 25

Atrial natriuretic peptide (ANP) has binding sites on a variety of tissues, including human platelets. We have used a new, quenched-flow approach coupled to single-particle counting to investigate the effects of ANP (rat, 1-28) on the initial events (within the first several seconds) following human platelet activation. While ANP alone (1 pM-100 nM) had no effect, ANP significantly potentiated thrombin (0.4 units/ml)-, epinephrine (15 microM)- and ADP (2 or 10 microM)-induced aggregation. Maximum stimulation occurred between 10 to 100 pM. ANP had no influence on the thrombin or ADP-induced increase in platelet volume associated with the "shape change." Since ANP receptors are coupled to a particulate guanylate cyclase and some ANP-induced effects may be mediated through cyclic GMP, we studied how another activator of platelet guanylate cyclase, sodium nitroprusside, affected platelet activation and cyclic nucleotide levels. Sodium nitroprusside (1 microM) inhibited ADP, but not thrombin or epinephrine-induced aggregation. Both sodium nitroprusside (1 microM) and ANP (10 nM) increased cyclic GMP levels by 80% and 37%, respectively, within 60 sec in washed platelets. ANP had no effect on platelet cyclic AMP, while sodium nitroprusside induced a 77% increase. These data suggest that the platelet ANP receptor may be coupled to guanylate cyclase and the rise in cyclic GMP may potentiate platelet function.
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PMID:Potentiation of platelet aggregation by atrial natriuretic peptide. 284 68

Three classes of vasodilators mediate their effects through the activation of guanylate cyclase and the increased synthesis of cyclic GMP. Nitrovasodilators such as nitroglycerin, nitroprusside, hydroxylamine, azide, etc. result in the generation of the nitric oxide free radical that activates the cytosolic (soluble) isoenzyme form of guanylate cyclase. These agents have been useful in increasing cyclic GMP synthesis in numerous model systems and these effects are independent of extracellular calcium. The increased synthesis of cyclic GMP and the activation of cyclic GMP-dependent protein kinase result in the altered phosphorylation of many smooth muscle proteins including the dephosphorylation of myosin light chain, which is associated with vascular and tracheal smooth muscle relaxation. These latter effects may result from cyclic GMP decreasing cytosolic free calcium concentrations and the activity of myosin light chain kinase. Another class of vasodilators, designated endothelium-dependent vasodilators, includes a long list of agents such acetylcholine, histamine, A23187, ATP, thrombin, etc. that relax vessels only when the endothelium is intact. These agents result in the increased endothelial synthesis and/or release of a factor(s) designated endothelial-derived relaxant factor (EDRF), the structure of which is unknown. This labile factor also activates the soluble isoenzyme form of guanylate cyclase in the smooth muscle resulting in cyclic GMP accumulation and the same cascade of events as above. There is evidence that even under basal, non-stimulated conditions there is EDRF release that influences vascular tone due to the increased synthesis of cyclic GMP. A third class of vasodilators, atrial natriuretic factor (ANF) or atriopeptins, includes a family of peptides that are produced in cardiac atria and other tissues and influence cardiovascular volume and dynamics by causing natriuresis, diuresis, vasodilation and decreased renin, aldosterone and vasopressin secretion. These peptide hormones also increase cyclic GMP synthesis in vascular, renal, adrenal and other tissues. These effects are mediated through specific ANF receptors that couple to and activate the membrane (particulate) isoenzyme form of guanylate cyclase and increase cyclic GMP-dependent protein kinase activity. There are two ANF receptor subtypes in most cells and tissues that are 130,000 and 66,000 daltons. The ANF receptor of about 130,000 daltons, designated receptor ANF-R1 copurifies with particulate guanylate cyclase through numerous procedures and may be part of the membrane-associated guanylate cyclase complex.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation and role of guanylate cyclase-cyclic GMP in vascular relaxation. 289 Jan 72

We examined the hypothesis that atrial natriuretic factor (ANF), a substance with known vasorelaxant activities, shares with other vasodilators the property of inhibiting platelet function. Aggregation of citrated platelet-rich plasma (PRP) from 23 healthy volunteers induced by ADP, adrenaline, arachidonic acid, collagen, gamma-thrombin, the endoperoxide analogue U-44069, serotonin, the calcium ionophore A-23187 or platelet aggregating factor was measured after incubation of PRP with ANF for 3 minutes at concentrations of 4 X 10(-9), 4 X 10(-8) and 4 X 10(-7) M or vehicle as control. ANF decreased ADP-induced aggregation significantly (P less than 0.02), but only at the highest concentration used and to a minor extent (control: 73.6 +/- 11.2%; after ANF 4 X 10(-7) M: 60.0 +/- 17.1%, mean +/- S.D., n = 39) by a selective inhibitory effect on the secondary wave; neither aggregation by all other agents tested nor thromboxane B2 generation induced by ADP and adrenaline was altered by incubation with ANF. Although ANF thus has detectable effects on ADP-induced platelet aggregation in vitro, these data suggest that ANF is unlikely to be a physiologically significant modulator of platelet function.
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PMID:Effects of atrial natriuretic factor on human platelet function. 293 66

Primary cultures of neonatal rat atrial myocytes were maintained in two different serum-free media for up to 25 days. Reversed-phase high performance liquid chromatography coupled with atrial natriuretic factor (ANF)-specific radioimmunoassay demonstrated that the cultures maintained in our previously described serum-free medium (Glembotski, C.C., and Gibson, T. R. (1985) Biochem. Biophys. Res. Commun. 132, 1008-1017) secreted primarily ANF-(1-126)-like material, whereas those cultures maintained in a different formulation of medium secreted mostly ANF-(99-126)-like material. Cultures that secreted ANF(99-126)-like material were biosynthetically labeled with [35S]cysteine followed by immunoprecipitation of secreted ANF and analysis by reversed-phase, size exclusion, and ion-exchange high performance liquid chromatography. The labeled ANF-(99-126)-like peptide was shown to be chromatographically indistinguishable from other synthetic peptides related to ANF-(99-126). Labeled ANF purified from extracts of the cultured cells was chromatographically indistinguishable from authentic ANF-(1-126), and could be cleaved specifically by thrombin into labeled ANF-(99-126)-like material. These results indicate that primary atrial myocytes maintained under certain serum-free conditions are capable of secreting ANF-related material that is chromatographically indistinguishable from ANF-(99-126), the known circulating form of the hormone. Additional preliminary studies suggest that the presence of glucocorticoids in the culture medium may confer ANF processing ability on cultured myocytes.
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PMID:The post-translational processing of rat pro-atrial natriuretic factor by primary atrial myocyte cultures. 296 92


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