Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.1 (phosphodiesterase)
 18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The present study was undertaken to evaluate whether protein kinase C (PKC) affects adenosine 3',5'-cyclic monophosphate phosphodiesterase (cAMP-PDIE) activity in microdissected rat renal medullary collecting tubules (MCT). Phorbol 12-myristate 13-acetate (PMA, 10(-8) M), an activator of PKC, significantly stimulated cAMP-PDIE activity in intact MCT (29.5 +/- 1.5 to 38.3 +/- 3.7 fmol.min-1.mm-1, P < 0.05) but not in the proximal straight tubule [4.7 +/- 0.8 vs. 4.8 +/- 0.8, not significant (NS)] or the medullary ascending limb of Henle's loop (20.5 +/- 2.1 vs. 22.4 +/- 2.8, NS). PMA-stimulated cAMP-PDIE activity was reversed by PKC inhibitors, staurosporine (10(-8) M) and calphostin C (10(-8) M), but not by the cyclooxygenase inhibitor, indomethacin (5 x 10(-6) M). 1,2-Dioctanoyl-sn-glycerol (50 micrograms/ml), a synthetic analogue of diacylglycerol that stimulates PKC, also increased cAMP-PDIE activity in broken-cell preparations from MCT. This stimulation was also suppressed by staurosporine (10(-8) M) and calphostin C (10(-8) M). The stimulatory effect of PMA on cAMP-PDIE activity was lost with rolipram (10(-4) M), a type IV PDIE inhibitor, whereas it was preserved with N-(6-amino-hexyl)-5-chloro-1-naphthalenesulfonamide hydrochloride (W-7) (10(-4) M), a calmodulin inhibitor, or vinpocetin (10(-4) M), a direct inhibitor of type I PDIE. From these results, we suggest that activation of PKC specifically stimulates rolipram-sensitive cAMP-PDIE, but not the calmodulin-sensitive isozyme, in rat MCT.
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PMID:Activation of protein kinase C stimulates cAMP phosphodiesterase in rat renal collecting tubule. 777 8

We studied the effect of amurinone, a phosphodiesterase inhibitor, on human pulmonary arterial smooth muscle in vitro. Amurinone caused dose-dependent relaxation of pulmonary arterial strips precontracted with 60 mM KCl. Preincubation with either meclofenamate (31 microM), a cyclooxygenase inhibitor, or L-NG-nitroarginine (100 microM), an endothelium-derived relaxing factor (EDRF) production inhibitor, failed to inhibit amurinone-induced pulmonary vasodilation. The cyclic AMP (cAMP) levels in the supernatant of the lung vessel homogenates significantly increased after incubation with amurinone. These results indicate that amurinone causes relaxation of human pulmonary artery in vitro, and suggest a role for cAMP in the mechanisms of amurinone-induced pulmonary vasodilation.
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PMID:[Effect of amurinone on human pulmonary artery in vitro]. 796 38

A series of 5-methyl-4-(3-pyridyl)-2-(substituted benzimidazol-5-yl)imidazole derivatives was synthesized and tested for anti-platelet and vasodilatory activities. Some compounds were found to have potent activities and low acute toxicity. In particular, 5-methyl-4-(3-pyridyl)-2-(7-chloro-6-methoxy-2- methylbenzimidazol-5-yl)imidazole (26) and 5-methyl-4-(3-pyridyl)-2-(7-chloro-3-methoxy-2-methylbenzimidazol- 5-yl)imidazole (33) exhibited 63% or 51% inhibition at a dose of 10 mg/kg for anti-patelet activity ex vivo in rats, respectively, while they showed no toxicity even at 180 or 100 mg/kg, respectively. Compound 33 also exhibited potent vasodilatory activity (ED50 = 11 micrograms/ml). Enzyme studies on these imidazoles showed that the novel imidazoles inhibit some enzymes which are involved in the platelet aggregation cascade such as cyclooxygenase, phosphodiesterase (PDE), and thromboxane A2 synthetase. The enzyme assay also suggested that the inhibitory activity on PDE may account for the vasodilatory activity of these imidazoles.
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PMID:Studies on anti-platelet agents. II. Synthesis and platelet-inhibitory activity of 5-methyl-4-(3-pyridyl)-2-(substituted benzimidazol-5-yl)imidazoles. 800 1

The compound Ro 19-3704 [3-4(R)-2-(methoxycarbonyl) oxy-3-(octadecylcarbamoyl)oxy-propoxy butylthiazolium iodide], initially described as an antagonist of platelet-activating factor, is reported here to directly inhibit rabbit platelet phospholipase (PL) A2 activity, with an IC50 value of 4 to 7 microM. Classical Michaelis-Menten analysis showed that inhibition was reversible and competitive, inasmuch as apparent Km values increased in the presence of Ro 19-3704 (from 0.2-0.4 to 2 microM), whereas Vmax values remained constant (200 +/- 20 nmol/min/10(9) cells). Ro 19-3704 inhibited platelet aggregation, PLA2 release and thromboxane B2 formation induced by thrombin (0.25 U/ml), with IC50 values of 8, 15 and below 5 microM, respectively. Aggregation and PLA2 release by arachidonic acid (100 microM) were also inhibited, but thromboxane B2 formation was unaffected, indicating that Ro 19-3704 does not inhibit cyclooxygenase. Platelet activation by collagen (5 micrograms/ml), the thromboxane mimetic U46619 ([15(S)-hydroxy-11,9(epoxymethano)-prosta-5Z,13E-dienoic acid] 1 microM) and low concentrations of thrombin (0.05-0.1 U/ml) was also inhibited by Ro 19-3704. Inhibition of platelet activation was reversible, suggesting that its suppressive effect was not due to cytotoxicity. Finally, Ro 19-3704 did not stimulate cyclic AMP formation or inhibit phosphodiesterase activity. Ro 19-3704 is a competitive inhibitor of PLA2 activity, and is also endowed with a potent suppressive effect on platelet activation induced by different agonists.
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PMID:Competitive inhibition of phospholipase A2 activity by the platelet-activating factor antagonist Ro 19-3704 and evidence for a novel suppressive effect on platelet activation. 845 Apr 79

Recent evidence strongly suggests that the hyperalgesia induced by agents acting directly on the primary afferent is mediated by stimulatory G-proteins and the cAMP second messenger system. In this study, we used the Randall-Selitto paw-pressure device to study hyperalgesia that develops in the streptozotocin-diabetic rat. Subcutaneous injection of streptozotocin in male Sprague-Dawley rats induced hyperglycemia and glucosuria detectable within 24 h of injection. A decrease in mechanical nociceptive threshold in the hindpaw was detected after one week. Intradermal injection of indomethacin, a cyclooxygenase inhibitor, had no significant effect on nociceptive threshold; and prostaglandin E2, which produces hyperalgesia by a direct action on the primary afferent, decreased nociceptive threshold similarly in streptozotocin-diabetic and control rats. Guanosine 5'-O-(2-thiodiphosphate), which blocks stimulatory G-proteins, attenuated the prostaglandin E2-hyperalgesia in both streptozotocin-diabetic and control rats, but had no effect on baseline nociceptive threshold in either group. Intradermal injection of either 2',5'-dideoxyadenosine, an inhibitor of adenylate cyclase, or phosphodiesterase, which degrades cAMP, increased mechanical nociceptive threshold in streptozotocin-diabetic rats whilst not affecting mechanical nociceptive threshold in the control rats. Intradermal injection of 8-bromo cAMP, a membrane-permeable analog of cAMP, produced hyperalgesia of significantly greater magnitude in the streptozotocin-diabetic rats than the control rats. Intradermal injection of N6-cyclopentyl adenosine, an A1-type adenosine agonist, which can activate an inhibitory G-protein and decrease cAMP production, also increased nociceptive thresholds in streptozotocin-diabetic rats. This effect was blocked by pertussis toxin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanical hyperalgesia in streptozotocin-diabetic rats. 845 Sep 73

Exposure of human platelets to U46619, a thromboxane (Tx) A2 mimetic, desensitizes the TxA2/prostaglandin (PG) H2 receptor and sensitizes adenylylcyclase to stimuli, such as PGI2 or PGD2. This phenomenon may occur in vivo in conditions associated with platelet activation. Tx synthase inhibitors produce a rediversion of arachidonic acid metabolism toward the adenylylcyclase stimulators PGD2 and PGI2. We assessed whether the desensitization of the platelet TxA2 receptor affects the antiplatelet activity of drugs acting on the arachidonic acid metabolic cascade. A Tx synthase inhibitor (OKY046), a PGH2/TxA2 receptor antagonist (BM13.505), their combination, two dual Tx synthase inhibitors/receptor antagonists (picotamide and ridogrel) or the cyclooxygenase inhibitor aspirin were studied. OKY046 alone or combined with BM13.505, picotamide and ridogrel, as well as PGD2, but not BM13.505 or aspirin, caused a stronger inhibition of platelet aggregation with desensitized platelets; this effect was potentiated by the phosphodiesterase inhibitor HL725 and was almost abolished by the adenylylcyclase inhibitor SQ22,536. A larger increase in cAMP synthesis was observed in desensitized as compared with control platelets with a Tx synthase inhibitor or with dual Tx synthase inhibition/receptor antagonism. No differences were observed in the degree of TxA2 suppression. Our observations showed that Tx synthase inhibitors exerted a stronger antiaggregatory effect in TxA2 receptor-desensitized platelets due to a stimulation of adenylylcyclase. This can be of relevance in the treatment of thrombotic disorders in which an in vivo desensitization of platelet TxA2 receptors takes place.
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PMID:Thromboxane synthase inhibitors suppress more effectively the aggregation of thromboxane receptor-desensitized than that of normal platelets: role of adenylylcyclase up-regulation. 853 Nov 21

The abilities of platelet-derived growth factor (PDGF) and insulin-like growth factor (IGF-I) to regulate cAMP metabolism and mitogen-activated protein kinase (MAP kinase) activity were compared in human arterial smooth muscle cells (hSMC). PDGF-BB stimulated cAMP accumulation up to 150-fold in a concentration-dependent manner (EC50 approximately 0.7 nM). The peak of cAMP formation and cAMP-dependent protein kinase (PKA) activity occurred approximately 5 min after the addition of PDGF and rapidly declined thereafter. Incubating cells with PDGF and 3-isobutyl-1-methylxanthine (IBMX, a phosphodiesterase inhibitor) enhanced the accumulation of cAMP and PKA activity by an additional 2.5-3-fold, whereas IBMX alone was essentially without effect. The PDGF-stimulated increase in cAMP was prevented by addition of the cyclooxygenase inhibitor indomethacin, consistent with release of prostaglandins stimulating cAMP. PDGF, but not IGF-I, stimulated MAPK activity, cytosolic phospholipase A2 (cPLA2) phosphorylation, and cAMP synthesis which indicated a key role for MAP kinase in the activation of cPLA2. Further, PDGF stimulated the rapid release of arachidonic acid and synthesis of prostaglandin E2 (PGE2) which could be inhibited by a cPLA2 inhibitor (AACOCF3). Calcium mobilization was required for PDGF-induced arachidonic acid release and PGE2 synthesis but not for MAPK activation, whereas PKC was required for PGE2-mediated activation of PKA. In summary, these results demonstrated that PDGF increases cAMP formation and PKA activity through a MAP kinase-mediated activation of cPLA2, arachidonic acid release, and PGE2 synthesis in human arterial smooth muscle cells.
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PMID:Platelet-derived growth factor stimulates protein kinase A through a mitogen-activated protein kinase-dependent pathway in human arterial smooth muscle cells. 855 Jun 11

Prostaglandins prevent gastrointestinal mucosal injury and promote healing following mucosal injury by various noxious agents. Preservation or repair of microvascular function appears to be crucial in these processes. The processes involved in prostaglandin-mediated repair and preservation of endothelial function are unclear. In the present study, we investigated the role of prostaglandins on endothelial paracellular barrier function using the filter-grown bovine aortic endothelial cell monolayers. Endothelial paracellular barrier function as assessed using a paracellular marker, mannitol. Prostaglandin analogs 16,16-dimethyl prostaglandin E2 (DMPGE2) and prostaglandin I2 (PGI2) caused an enhancement of endothelial monolayer paracellular barrier function as evidenced by a dose-dependent decrease in endothelial paracellular permeability. DMPGE2 induced enhancement of endothelial paracellular barrier function correlated directly with increasing intracellular cAMP levels. Agents which increase intracellular cAMP levels at different stages of cAMP amplification cascade including phosphodiesterase inhibitor (3-isobutyl-1 methylxanthine [IBMX]), membrane permeable cAMP (8-bromo cAMP), and adenylate cyclase activators (isoproterenol and forskolin) also produced enhancement in endothelial paracellular barrier function. DMPGE2 enhancement of paracellular barrier function correlated with dense accumulation of actin microfilaments near the intercellular junctions. IBMX, isoproterenol, forskolin, and 8-bromo cAMP also produced similar changes in endothelial actin microfilaments. Cytochalasin B prevented the DMPGE2 enhancement of paracellular barrier function. Indomethacin (INDO), a cyclooxygenase inhibitor, caused a dose-dependent increase in endothelial paracellular permeability. Pharmacologic doses of INDO resulted in condensation and disruption of actin microfilaments with formation of large paracellular openings or gaps between the adjacent cells. Pretreatment of endothelial monolayers with DMPGE2 prevented INDO-induced disturbance of actin microfilaments and paracellular barrier function. IBMX, isoproterenol, forskolin, and 8-bromo cAMP also prevented INDO-induced changes in actin microfilaments and paracellular barrier function. These findings indicate that DMPGE2 has a paracellular barrier enhancing effect on filter-grown endothelial monolayers. This effect appears to be mediated through intracellular cAMP and actin microfilaments.
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PMID:16,16-Dimethyl Prostaglandin E2 modulation of endothelial monolayer paracellular barrier function. 861 60

We perfused livers from fed rats with a balanced salt solution containing 1 mmol/L glucose. Under these conditions a low steady rate of glycogenolysis was observed (approximately 1.7 micromol glucose equivalents/g/min; 20% of the maximal glycogenolytic activity). Nitric oxide (NO) transiently stimulated hepatic glucose production. A maximal response (on average doubling basal glucose output) was observed with 34 micromol/L NO. The same concentration of nitrite (NO2-) was ineffective. Half-maximal effects were seen at 8 to 10 micromol/L NO, irrespective of the flow direction (portocaval or retrograde). This glycogenolytic response to NO corresponded to a partial activation of phosphorylase. The NO effect was not additive to maximal stimulation of glycogenolysis (7.7 +/- 0.2 micromol hexose equivalents/g/min; n = 4) by 100 micromol/L dibutyryl cyclic adenosine monophosphate (Bt2cAMP). The requirement for activation of phosphorylase was also evidenced by the ineffectiveness of NO in phosphorylase-kinase-deficient livers of gsd/gsd rats. The NO effect was blocked by co-administration of cyclooxygenase inhibitors (50 micromol/L ibuprofen, 50 micromol/L indomethacin, or 2 mmol/L aspirin), suggesting a mediatory role of prostanoids from nonparenchymal cells. This conclusion was confirmed by the fact that NO did not activate phosphorylase in isolated hepatocytes. Moreover, NO was no longer glycogenolytic in livers perfused with Ca2+-free medium, in agreement with the known mediatory role of Ca2+ in prostanoid-mediated responses. Surprisingly, in Ca2+-free medium NO inhibited the basal glucose production. This coincided with an increased elution of cyclic guanosine monophosphate (cGMP). Inhibition of glycogenolysis by NO under these conditions was blocked by 1 mmol/L theophylline, suggestive for involvement of cGMP-stimulated cAMP phosphodiesterase. However, we could not confirm that an increase in cGMP resulted in a drop in cAMP. In conclusion, NO recruits opposing mechanisms with respect to modulation of basal hepatic glycogenolysis. In the presence of Ca2+, activation of phosphorylase with stimulation of glycogenolysis dominates. Cyclooxygenase inhibitors abolish this effect. Activation by NO of the cyclooxygenase in nonparenchymal cells is a distinct possibility. In the absence of Ca2+, inhibition of basal glycogenolysis becomes observable. It remains to be established whether this results from cGMP-mediated stimulation of hydrolysis of cAMP.
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PMID:Modulation of basal hepatic glycogenolysis by nitric oxide. 867 78

Amrinone, a selective phosphodiesterase III inhibitor, has been developed as a nonglycoside, noncatecholamine agent with positive inotropic effect. In this study, we examined the effect of amrinone on human pulmonary arterial strips in vitro to understand its action on human pulmonary circulation. Amrinone (10(-5)-10(-3) g/ml) caused dose-dependent relaxation of human pulmonary arterial strips precontracted with 60 mM KCl. Preincubation with either meclofenamate (3.1 microM), a cyclooxygenase inhibitor, or L-N(G)-nitroarginine (100 microM), a competitive inhibitor of EDRF/NO, failed to inhibit amrinone-induced pulmonary vasodilation. The cyclic AMP (cAMP) levels in the supernatant of the lung vessel homogenates increased after incubation with amrinone (10(-3) g/ml). These findings indicate that amrinone causes vasodilation of human pulmonary artery in vitro, and suggest a possible role for cAMP in the mechanisms of amrinone-induced pulmonary vasodilation. Because it is suggested that amrinone has not only positive inotropic effect but also pulmonary vasodilative effect in human in this study, we speculate that amrinone could be an useful agent for the treatment of an increase in right heart afterload and consequent pulmonary hypertension and right heart failure after lung resection in human.
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PMID:Relaxation of human isolated pulmonary arteries by amrinone. 867 27


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