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)

We have investigated the role of Ca2+ and calmodulin in the stimulation of cGMP formation by mouse Leydig cells in response to rat atriopeptin-II (rAP-II). Removal of extracellular Ca2+ had no influence on the levels of cGMP accumulated by the cells stimulated with rAP-II. The amounts of testosterone produced by unstimulated and rAP-II-stimulated cells were, however, reduced by 50% in the absence of Ca2+ from the incubation medium. Addition of ionomycin to the Leydig cells led to a dose-related inhibition of rAP-II-stimulated cGMP formation, but the basal cGMP level was not affected. These experiments were carried out in the presence of a phosphodiesterase inhibitor. The inhibitory effect of ionomycin was absolutely dependent upon the presence of Ca2+ in the medium. The guanylate cyclase activity required the presence of a cation, and Mn2+, Mg2+, or Ca2+ could function as the required cation. There was no direct inhibition of the cyclase activity by Ca2+ up to as high a concentration as 8 mM. Furthermore, three structurally unrelated calmodulin antagonists, W7, trifluoperazine, and calmidazolium, but not W5, caused a dose-related inhibition of rAP-II-stimulated cGMP accumulation by the cells. The inhibitory effect of calmodulin antagonists was not exerted directly at the level of guanylate cyclase activity, since the particulate enzyme was not inhibited by any of these drugs. We conclude, therefore, that extracellular Ca2+ is not essential for rAP-II-mediated stimulation of cGMP formation by mouse Leydig cells, at least under the short term incubation conditions used. An excessive ionophoretic influx of Ca2+ into the cells impairs the ability of rAP-II to stimulate cGMP formation. Therefore, it appears that a finely regulated level of intracellular Ca2+ is required for optimal activation of atrial natriuretic peptide-responsive guanylate cyclase in mouse Leydig cells, and calmodulin plays an important role in this process.
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PMID:The role of Ca2+ and calmodulin in the regulation of atrial natriuretic peptide-stimulated guanosine 3',5'-cyclic monophosphate accumulation by isolated mouse Leydig cells. 254 43

The hypothesis that the relaxant action of many drugs on vascular and other smooth muscle is mediated by increases in intracellular cGMP, the "cGMP hypothesis," is gaining wide acceptance. While much information supporting this idea can be found in the literature, there is also a significant amount of information indicating that an elevation in the tissue content of cGMP is by itself insufficient to cause smooth muscle relaxation. The literature is reviewed with reference to the criteria that need to be fulfilled to consider cGMP as the second messenger mediating relaxation of smooth muscle by a drug; i.e., activation of guanylate cyclase, elevation of tissue content of cGMP, potentiation by phosphodiesterase inhibitors, antagonism by inhibitors of cGMP synthesis, and production of relaxation by cGMP analogues. For each criterion, key observations supporting the hypothesis are considered, followed by examples of important observations not consistent with the hypothesis. It is concluded that in some smooth muscles, for example, rat myometrium and vas deferens, cGMP is not a mediator of drug-induced relaxation. In other smooth muscles, including vascular smooth muscle, cGMP appears to play an important role in the relaxation process; but current evidence suggests that other factors are also important and that the cGMP hypothesis may need to be modified.
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PMID:Role of cGMP in relaxation of vascular and other smooth muscle. 254 2

cGMP is a second messenger that mediates numerous metabolic events; in the present work a role in myeloid cell differentiation was demonstrated. Nitroprusside and NaNO2, which activate cytosolic guanylate cyclase and increase the intracellular cGMP concentration, induced granulocytic differentiation of the human promyelocytic cell line HL-60; differentiation was measured by acquisition of the OKM1 antigen, morphological changes, and nitroblue tetrazolium reduction. When theophylline, a phosphodiesterase inhibitor, which by itself induced modest differentiation, was added to nitroprusside or NaNO2, differentiation increased in an additive fashion. The degree of differentiation correlated with the increase in the intracellular cGMP concentration. 8-Bromoguanosine 3',5'-cyclic monophosphate, a membrane-permeable cGMP analogue, also induced differentiation of HL-60 cells but was much more effective in the presence of theophylline, with the two agents interacting synergistically. The effect of theophylline in these studies could not be attributed to increasing the intracellular cAMP concentration. Dimethyl sulfoxide, and established inducer of differentiation of HL-60 cells, markedly enhanced the differentiation induced by nitroprusside and NaNO2.
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PMID:cGMP-induced differentiation of the promyelocytic cell line HL-60. 255 Sep 30

The distribution of cyclic guanosine 3',5' monophosphate (cGMP) producing cells in various organs of the rat were studied immunocytochemically using antibodies raised against formaldehyde-fixed cGMP. Sodium nitroprusside (SNP), a direct activator of guanylate cyclase and vasodilator, was used to enhance cGMP levels. In order to reach all organs optimally, whole body perfusion was performed using a modified Krebs-Ringer buffer at 37 degrees C, aerated with 5% CO2/95% O2, also containing isobutyl methyl xanthine (IBMX); a phosphodiesterase inhibitor. After 15-min pre-perfusion, SNP was added to the perfusate, followed by fast fixation with ice-cold 4% paraformaldehyde-phosphate buffer. After vehicle perfusion, only the retina showed cGMP immunoreactivity in the photoreceptor and ganglion layer, while other organs lacked cGMP immunoreactivity. After 15-min perfusion with SNP (10 microM), enhanced cGMP immunostaining was seen in smooth muscles of the aorta, amacrine-like cells in the retina, glomeruli of the kidney cortex, blood vessels in the dura mater, as well as cells in the pineal and in the median eminence. The results indicate that the distribution and the reactivity of cGMP producing cells, situated outside the blood brain barrier, can be studied by immunocytochemistry after pharmacological manipulations of the intact tissue with a nitrovasodilator using whole body perfusion.
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PMID:cGMP immunocytochemistry in aorta, kidney, retina and brain tissues of the rat after perfusion with nitroprusside. 255 68

The novel neuropeptide, brain natriuretic peptide (BNP), causes concentration-dependent relaxations in rat isolated arterial rings. The pD2 value of BNP in rat thoracic aorta is 8.05 +/- 0.06, almost identical to the pD2 value of atrial natriuretic peptide (the 28 amino acid peptide, rat sequence, AP-28, 8.11 +/- 0.08), indicating that BNP and ANP have the same potency in relaxing thoracic aorta. In addition, BNP is equally potent at causing relaxation in abdominal aorta and mesenteric and renal arteries. However, BNP is less potent in causing vasorelaxation in the common iliac and femoral arteries and shows no relaxant effects in caudal arteries. This pharmacological profile of BNP in different rat arteries is very similar to that of ANP. Like ANP, BNP induces a vasorelaxation that is independent of endothelium and is associated with very sustained increases in cyclic GMP, but not cyclic AMP, levels in rat thoracic aorta. The BNP-induced cyclic GMP elevation, like the vasorelaxation, is also independent of endothelium and is not blocked by methylene blue (10 microM), a soluble guanylate cyclase inhibitor. Furthermore, BNP-induced cyclic GMP elevation is independent of extracellular calcium and potentiated by the cyclic GMP-phosphodiesterase inhibitor M & B 22948. Therefore, the pharmacological characteristics of BNP in rat blood vessels are very similar to those of ANP, suggesting that BNP and ANP may act through a common receptor and post-receptor mechanism to cause vasodilation.
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PMID:Brain natriuretic peptide (BNP) causes endothelium-independent relaxation and elevation of cyclic GMP in rat thoracic aorta. 255 55

We have examined the interaction of zaprinast with mediators of guanylate cyclase on the relaxation of aortic smooth muscle. Zaprinast, a selective inhibitor of the low Km-cyclic GMP (cGMP) phosphodiesterase [low Km cGMP phosphodiesterase (PDE)], was equally effective in relaxing phenylephrine-contracted aortas from spontaneously hypertensive rats (SHR) and Wistar-Kyoto rats (WKY) with an intact endothelium [EC50 = 7.6 (3.5-16.6) microM vs. 9.3 (4.1-21.3) microM, respectively]. In contrast, the vasorelaxant activity of zaprinast in intact and denuded phenylephrine-contracted guinea pig aortas, as well as denuded (SHR and WKY) aortas was minimal. Sodium nitroprusside and atriopeptin II were significantly (P less than .05) more potent as vasorelaxants in denuded SHR aortas when compared with denuded aortas from WKY. Pretreatment with zaprinast potentiated the vasorelaxant potency of sodium nitroprusside in both SHR and WKY aortas whereas atriopeptin II responses were potentiated only in WKY aortas. In studies with the low Km cGMP PDE, isolated via DEAE column chromatography, the apparent Km for cGMP and potency of zaprinast were approximately 2-fold greater (P less than .05) in WKY when compared with the same PDE isozyme isolated from SHR aortic preparations. However, the Vmax (picomoles per milligram per minute) for cGMP hydrolysis was greater in SHR than in WKY. In conclusion, these data show that, although there are no apparent differences in the influence of spontaneously released endothelium-derived relaxing factor from SHR and WKY aortas, reactivity differences to other agents known to stimulate guanylate cyclase activity exist between SHR and WKY denuded aortas.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphodiesterase isozyme inhibition and the potentiation by zaprinast of endothelium-derived relaxing factor and guanylate cyclase stimulating agents in vascular smooth muscle. 256 75

Distinct increase and then decrease in content of cyclic nucleotides was observed in dog myocardium ventricles and auricles within early periods of heart infarction (10 min-4 hrs). Within a day after ligation of artery the ratio cAMP/cGMP was considerably decreased as a result of activation of guanylate cyclase and cAMP-phosphodiesterase as well as due to a decrease in activity of adenylate cyclase. Acute ischemia of small area of the heart left ventricle caused impairment of cyclic nucleotide metabolism in all the heart muscle.
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PMID:[The cyclic nucleotide system in various sections of the dog myocardium in experimental infarction]. 256 32

The primary interaction with insulin accounted for considerable increases in both the calmodulin content and guanylate cyclase activity of Tetrahymena. Both activities were still elevated after 24 h (6-8 generations), but while the calmodulin level showed a decrease, guanylate cyclase activity showed a further significant increase relative to the immediate response. A second treatment with insulin decreased rather than increased both activities, but to dissimilar degrees, in that the calmodulin content returned to the control level, whereas guanylate cyclase activity still increased over the level measured after the first treatment. It appears that insulin imprinting altered the calmodulin-dependent guanylate cyclase regulation in Tetrahymena, and caused a switch-over to an 'energy-saving' system through decelerating the breakdown of cGMP by phosphodiesterase.
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PMID:The regulatory role of calmodulin-dependent guanylate cyclase in association with hormonal imprinting in Tetrahymena. 257 53

Three isoforms of cyclic nucleotide phosphodiesterase (PDE) have been recently isolated from aortic tissue and two of them specifically hydrolyzed adenosine 3',5'-cyclic monophosphate (cAMP) and guanosine 3':5'-cyclic monophosphate (cGMP), respectively (Lugnier et al., Biochem. Pharmac. 35, 1743, 1986). The role of these forms in controlling cyclic nucleotide levels and smooth muscle tone was investigated by the use of PDE inhibitors. The effects of selective inhibitors of the two forms specifically hydrolyzing cAMP or cGMP (cAMP-PDE and cGMP-PDE, respectively) were compared to those of non-selective inhibitors of the three aortic PDE forms, including the calmodulin-sensitive one (CaM-PDE). Relaxation responses and accumulation of tissue cAMP and cGMP induced by these drugs were studied in precontracted rat isolated aorta, and compared to the effects of isoprenaline and forskolin (stimulants of adenylate cyclase) or sodium nitroprusside (SNP) and sodium azide (stimulants of guanylate cyclase). The eight PDE inhibitors tested all relaxed aorta with potencies that correlated with their potencies as inhibitors of cAMP-PDE, but not of cGMP-PDE. At a concentration producing half-maximal relaxation, all PDE inhibitors induced a moderate but significant accumulation of cAMP, which was comparable to the accumulation of cAMP elicited by half-maximally relaxing concentrations of adenylate cyclase stimulating agents. At this concentration, some PDE inhibitors (M&B 22,948, dipyridamole and to a lesser extent, trequinsin) also induced a significant increase in cGMP levels, of the same order of magnitude as that caused by agents stimulating guanylate cyclase. However, the cGMP-increasing effect of these inhibitors was dissociated from their relaxing effect. In particular, the relaxing concentrations of M&B 22,948 (a selective inhibitor of cGMP-PDE) were clearly higher than the cGMP-increasing concentrations of the compound. At a concentration at which they elicited 10% relaxation by themselves, the selective cAMP-PDE inhibitor, rolipram, as well as the mixed inhibitor of cAMP- and cGMP-PDE, AAL 05 (a cilostamide analogue) enhanced both the cAMP-increasing and the relaxing effect of isoprenaline. Under the same conditions, no clear enhancement of the relaxation induced by SNP was observed. Only M&B 22,948 showed a slight potentiating effect on SNP-induced relaxation, but this effect was limited to low concentrations of SNP (less than 10 nM).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Role of cyclic AMP- and cyclic GMP-phosphodiesterases in the control of cyclic nucleotide levels and smooth muscle tone in rat isolated aorta. A study with selective inhibitors. 282 8

Recent progress in understanding phototransduction has come primarily from studies on cell-free systems. To investigate the transduction process under physiological conditions, a fully functional preparation of retinal rod outer segments without attached inner segments was developed that allows electrical recording of light-sensitive current during intracellular dialysis with defined solutions. No light-sensitive current is recorded from detached outer segments dialyzed with nucleotide-free solutions, whereas cells detached from the retina into Ringer's solution containing 3-isobutyl-1-methyl-xanthine (a phosphodiesterase inhibitor) develop a light-sensitive inward dark current. This indicates that there is a basal level of cGMP-specific phosphodiesterase activity in the dark. Detached outer segments dialyzed with greater than or equal to 20 microM cGMP rapidly develop a light-suppressible current. A current of similar magnitude is generated more slowly during dialysis with a 50-fold greater concentration of GTP. Apparently, cGMP can be synthesized from GTP by guanylate cyclase in the outer segment. Cells dialyzed with cGMP alone show a reduced light sensitivity that is restored to normal by addition of 20 microM GTP. This action of GTP is antagonized by guanosine 5'-[beta-thio]diphosphate. These findings are in good agreement with biochemical evidence indicating that a GTP-binding protein (transducin) plays a pivotal role in the generation of responses to light. The recovery of photocurrent following a brief flash is delayed or abolished by dialysis with solutions that lack ATP or contain guanosine 5'-[gamma-thio]triphosphate, a nonhydrolyzable GTP analog. These results support the view that both GTP hydrolysis by activated transducin and ATP-dependent phosphorylation of a rhodopsin photoproduct are necessary for termination of the transduction process.
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PMID:Intracellular biochemical manipulation of phototransduction in detached rod outer segments. 282 76


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