Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The hemodynamic and antiischemic effects of a 150-mg single oral dose of the PDE inhibitor enoximone were correlated with the plasma levels of enoximone and its sulfoxide metabolite. Twenty-one patients with angiographically documented coronary artery disease were investigated by exercise testing 1 and 2 hours after drug administration. The control group consisted of 15 patients with proven coronary artery disease and stable reproducible angina pectoris on exercise. The enoximone group included 14 responders with therapeutic plasma concentrations 2 hours after drug intake and significantly reduced mean pulmonary artery pressures on exercise (from 42.4 +/- 8.6 to 30.9 +/- 11.2 mmHg, p less than 0.05). Compared to basal exercise values, responders showed a reduced ST-segment depression by 1 hour after drug intake (2.1 +/- 1.2 vs. 1.3 +/- 3 mm, p less than 0.05) and minimal values after 2 hours (0.9 +/- 1.0 mm, p less than 0.01) at comparable workloads. There were no significant changes in heart rate, blood pressure, cardiac output, and systemic vascular resistance. No significant improvement in the hemodynamic parameters and ST-segment depression was found in nonresponders with plasma concentrations below 100 ng/ml and 500 mg/ml for enoximone and its metabolite, respectively. In summary, oral administration of enoximone in patients with coronary artery disease led to favorable acute hemodynamic and antiischemic effects at sufficiently high plasma levels of enoximone and its sulfoxide metabolite.
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PMID:Antiischemic and hemodynamic effects of an oral single dose of 150 mg of the phosphodiesterase inhibitor enoximone in patients with coronary artery disease--relation to plasma concentration. 183 89

Since the discovery of cyclic nucleotide phosphodiesterase 30 years ago, there have been major advances in our knowledge of this group of isoenzymes. Five families, each composed of several isoforms and having differing tissue distributions, have been described. David Nicholson and colleagues compare the tissue distribution of phosphodiesterase isoenzymes and discuss the differential effects of inhibition of particular isoenzymes, with differing subcellular localization, on tissue function. They also review the potential use of isoenzyme selective phosphodiesterase inhibitors in a range of clinical disorders such as heart failure, asthma, depression and dementia.
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PMID:Differential modulation of tissue function and therapeutic potential of selective inhibitors of cyclic nucleotide phosphodiesterase isoenzymes. 184 33

Preliminary evidence had suggested that changes in cyclic GMP (cGMP) hydrolysis via cyclic nucleotide phosphodiesterase(s) occurred during development of tolerance to morphine. To examine this finding further and its possible role in development of tolerance to morphine, rats (150-175 g) were injected with 1 ml of a sustained-release morphine preparation (40 mg/ml). Control rats received 1 ml of the oily vehicle. Antinociception, decreased locomotor activity, respiratory depression and mydriasis were measured at various times from 0.5 through 96 hr of exposure to the drug. Particulate and soluble cGMP hydrolysis were measured for the same time periods from periaqueductal gray (PAG), striatum, medulla and oculomotor nucleus, the brain areas believed to mediate the respective behaviors. Each of the behaviors except mydriasis showed development of complete tolerance (no difference from control behaviors) during the 96 hr of continuous exposure. During development of tolerance, particulate cGMP hydrolysis decreased in PAG and increased in striatum and medulla. Particulate cGMP hydrolysis was not altered in oculomotor nucleus, the brain area mediating mydriasis to which tolerance development was partial or incomplete. Significant changes in soluble cGMP hydrolysis occurred only in PAG before decline in the behavioral effect and did not appear to be involved in tolerance phenomena. Modulation of cyclic nucleotide levels by changes in particulate cGMP hydrolysis may produce or allow for development of complete tolerance to various morphine-induced behaviors.
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PMID:Evidence for involvement of cyclic GMP phosphodiesterase in morphine tolerance. 215 95

Cardiac failure is treated with increasing success by phosphodiesterase-III (PDE-III) inhibitors such as amrinone, milrinone, and enoximone. While relatively pure positive inotropic substances (e.g., dopamine and dobutamine) are limited by tolerance development and MVO2 increase, the efficacy of PDE inhibitors is maintained by avoiding catecholamine and beta-receptors. They have positive inotropic, positive lusitropic, and vasodilatatory properties; myocardial oxygen consumption remains unaltered. PDE-III inhibitors act by selectively inhibiting PDE-III, leading to an increased cAMP concentration in myocardial and smooth muscle cells. In contrast, forskolin increases intracellular cAMP by activation of adenylate cyclase. It could be shown that parenteral administration of the PDE inhibitors sulmazole, amrinone, and enoximone resulted in preload and afterload reduction due to vasodilation with concomitant decrease of peripheral and pulmonary vascular resistance; they also led to elevated cardiac output and ejection fraction as well as a significant increase in dp/dtmax, while left ventricular filling pressures were markedly lowered. Pulmonary pressure values fell significantly, whereas heart rate and myocardial oxygen consumption showed no clinically relevant alterations. In patients with angiographically documented coronary artery disease, the anti-ischemic efficacy of enoximone could be proven both during exercise and stress pacing. The decrease of the pathologically elevated pulmonary pressures during ischemia was accompanied by reduced ST-segment depression following enoximone without changing MVO2 significantly. First tests after intracoronary application of enoximone confirmed its direct myocardial efficacy, indicating its positive inotropic and lusitropic properties. Thus, patients in cardiac failure have useful therapeutic alternatives at their disposal when taking PDE inhibitors. The anti-ischemic properties of these drugs need further evaluation.
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PMID:Present use of positive inotropic drugs in heart failure. 248 Apr 92

Cyclic GMP depresses Ba2+ current through high-voltage-activated Ca2+ channels (ICa) in acutely isolated hippocampal neurons. The effect is produced by intra-, but not extracellular, cGMP or by 5' GMP. The membrane-permeant derivative, 8-Br-cGMP, produces a reversible suppression. The effect of 8-Br-cGMP is similar to phorbol ester-induced ICa depression, except that ICa depression due to 8-Br-cGMP is not blocked by protein kinase inhibitors H-8 or H-7, whereas phorbol ester effects are. The data suggest that cGMP depresses ICa by a cGMP-kinase- and protein kinase C (PKC)-independent mechanism. Cyclic AMP, which enhances ICa, and the cyclic nucleotide phosphodiesterase inhibitor, IBMX, both antagonize ICa depression induced by 8-Br-cGMP, but not that due to phorbol esters. Cyclic IMP, a more potent activator of phosphodiesterase than of cGMP-dependent protein kinase, is also a powerful depressant of ICa. We conclude that cGMP-induced depression of ICa is mediated by activation of cyclic nucleotide phosphodiesterase with consequent reduction of intracellular cAMP.
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PMID:Cyclic GMP depresses hippocampal Ca2+ current through a mechanism independent of cGMP-dependent protein kinase. 285 1

With several notable exceptions, interest in the area of multiple molecular forms of phosphodiesterase remained relatively dormant during the decade following Thompson's discovery of more than one phosphodiesterase in brain in 1971. Within the last several years, however, over 20 novel agents have been identified that exert selective inhibitory effects on the various molecular forms of phosphodiesterase present within different cells. In addition, several studies have documented that such agents can produce discrete changes in cyclic AMP and cyclic GMP, an action that is not shared by "first generation" phosphodiesterase inhibitors such as theophylline. The purpose of this Perspective is to provide some clarity to this rapidly evolving area of selective phosphodiesterase inhibitors. Thus, we have attempted to characterize the different forms of phosphodiesterase present in various tissues and cells according to their kinetic properties, substrate specificity, etc. and also to characterize those major classes of agents that have been shown to inhibit phosphodiesterase activity, whether selectively or nonselectively. In addition, we have described several therapeutic areas wherein selective phosphodiesterase inhibitors might prove efficacious, paying particular attention to those areas in which selective phosphodiesterase inhibitors have already been shown to exert beneficial effects, namely, stimulation of myocardial contractility, inhibition of mediator release, and inhibition of platelet aggregation. Although focusing on these three areas, it is obvious that the potential therapeutic utility of selective phosphodiesterase inhibitors could conceivably extend to several other areas in which modulation of cyclic nucleotides can have desirable effects, including cancer chemotherapy, analgesia, the treatment of depression, Parkinson's disease, and learning and memory disorders. For example, the selective type III phosphodiesterase inhibitor rolipram has been shown to antagonize reserpine-induced hypothermia and also to potentiate yohimbine lethality, two tests that are indicative of antidepressant activity. In addition, microinjection of the selective PDE III inhibitor Ro 20-1724 into the rat brain stem has been shown to produce analgesia.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A new generation of phosphodiesterase inhibitors: multiple molecular forms of phosphodiesterase and the potential for drug selectivity. 298 81

The cDNA encoding rat cGMP-binding, cGMP-specific phosphodiesterase (cGB-PDE) was isolated from a rat lung cDNA library. Although the deduced amino acid sequence showed 93.4% similarity with that of bovine cGB-PDE, the N-terminal portion of rat cGB-PDE was extremely different from that of bovine. Northern blot analysis indicated that cGB-PDE transcripts in rats were expressed not only in aorta and lung, but also in several other tissues including cerebellum. In situ hybridization analysis demonstrated that cerebellar expression of cGB-PDE was confined to Purkinje cell layers in adult rats. To clarify the role of cGB-PDE in the cerebellum, we investigated expression of cGB-PDE mRNA in rats of various ages. cGB-PDE mRNA was not observed in the cerebellum of newborn rats, but levels of a cGB-PDE mRNA were markedly increased between 4 days and 28 days of age and reached a maximum in eight-week-old rats. In this study, we suggest that cGB-PDE plays important roles not only in regulating the relaxation of vascular vessels, but also in establishing neuronal networks in the cerebellum at an early postnatal stage. In addition the NO/cGMP/cGB-PDE pathway appears to be essential for the induction of long-term depression.
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PMID:Expression of rat cGMP-binding cGMP-specific phosphodiesterase mRNA in Purkinje cell layers during postnatal neuronal development. 937 Mar 51

The thiadiazinone enantiomers [+]-EMD 60263 and [-]-EMD 60264 ((+)-5-(1-(alpha-ethylimino-3,4-dimethoxybenzyl)-1,2,3,4-tetrah ydroquinoline-6-yl)-6-methyl-3,6-dihydro-2H-1,3,4-thiadiazine-2 -on) exhibit distinct stereoselectivity for Ca2+-sensitizing action ([+]-enantiomer) and phosphodiesterase inhibition ([-]-enantiomer). However, in isolated guinea pig papillary muscle, both compounds cause an action-potential prolongation that has been related to a nonselective depression of the delayed rectifier potassium current. Because [-]-EMD 60264 did not increase force of contraction despite phosphodiesterase inhibition, we postulated that one or several additional actions may oppose the anticipated positive inotropic effect. Therefore we investigated whether other membrane currents were also affected in voltage-clamped ventricular cardiomyocytes. Both [+]-EMD 60263 and [-]-EMD 60264 reduced sodium current as well as L-type calcium current in guinea pig ventricular myocytes, but steady-state inactivation or conductance curves of I(Na) and I(Ca) were not shifted along the voltage axis. Inward rectifier and transient outward current were studied in rat myocytes, but neither current was affected. We conclude that the positive inotropic action of [+]-EMD 60263 can be explained by prevalence of the Ca2+-sensitizing effect over its inhibitory actions on Na+ and Ca2+ current, whereas the negative inotropic effect of [-]-EMD 60264 may be caused by inhibition of I(Ca) predominating over PDE inhibition.
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PMID:Effects of the calcium sensitizer [+]-EMD 60263 and its enantiomer [-]-EMD 60264 on cardiac ionic currents of guinea pig and rat ventricular myocytes. 1002 41

Cyclic nucleotide second messengers (cAMP and cGMP) play a central role in signal transduction and regulation of physiologic responses. Their intracellular levels are controlled by the complex superfamily of cyclic nucleotide phosphodiesterase (PDE) enzymes. Continuing advances in our understanding of the molecular pharmacology of these enzymes has led to the development of selective inhibitors as therapeutic agents for disease states ranging from cancer and heart failure to depression and sexual dysfunction. Several PDE types have been identified as therapeutic targets for immune/inflammatory diseases. This article briefly reviews the available in vitro, preclinical, and clinical data supporting the potential for selective PDE inhibitors as immunomodulatory agents.
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PMID:Cyclic nucleotide phosphodiesterases. 1169 87

Cyclic GMP (cGMP) has been implicated in the modulation of long-term potentiation (LTP) and depression (LTD) in the hippocampus. Transcripts for subunits of several types of cGMP specific phosphodiesterase are found in the mammalian brain but their relative role in hippocampal function is unclear. The retinal degeneration (rd) mutation in the gene encoding the PDE6B subunit causes a loss of function in PDE6 enzyme and in adult mice homozygous to the mutation it causes blindness. We have used this natural mutation, and the cGMP phosphodiesterase inhibitor zaprinast, in wild-type and rd/rd mouse littermates to investigate whether PDE5 and/or PDE6 regulates excitatory synaptic transmission in the hippocampus. Mice were genotyped using two independent PCR methods. Glutamate-mediated synaptic transmission in the CA1 region or dentate gyrus was unaffected in hippocampal brain slices from mice carrying the rd mutation. Similarly the facilitation of synaptic events by paired-pulse stimuli, and LTP induced by a theta-burst (10 bursts of four events at 100 Hz with a 200-ms inter-burst interval) were normal in rd/rd mice. Inhibition of cGMP-specific PDE activity by zaprinast (10 microM, an inhibitor of PDE5 and PDE6) induced a slowly developing and sustained depression of field synaptic potentials that was quantitatively similar in both wild-type and rd/rd mice. Thus in the CA1 region synaptic plasticity is likely to be regulated by the PDE5 rather than the PDE6 isoform.
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PMID:Hippocampal synaptic plasticity in mice carrying the rd mutation in the gene encoding cGMP phosphodiesterase type 6 (PDE6). 1265 Sep 75


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