EC:3.1.4.1 - FACTA Search

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)

[3H]LY186126, an analogue of the cardiotonic agent indolidan, was shown to bind reversibly and with high affinity (Kd = 4 nM) to a single class of binding sites within canine myocardial vesicles. Binding site density measured in various cardiac membrane fractions correlated well with Ca2+-ATPase activity (r = 0.94; p less than 0.01), but not with Na+,K+-ATPase or azide sensitive ATPase, indicating a localization of these sites within sarcoplasmic reticulum membranes. Divalent cations were required for binding and displayed the following order of activation: Zn2+ greater than Mn2+ greater than Mg2+ greater than Ca2+. Differential activation of [3H]LY186126 binding by various divalent cations was due to alterations in binding site density, rather than affinity. cGMP and selective inhibitors of type IV membrane-bound phosphodiesterase (SR-PDE), for example, indolidan, milrinone, imazodan, and enoximone, selectively displaced bound [3H]LY186126 caffeine, theophylline, and rolipram were relatively impotent as inhibitors of radiolabel binding. Kd values from displacement curves were highly correlated with IC50 values for inhibition of SR-PDE (r = 0.92; p less than 0.001). In addition, Kd values correlated well with published ED50 values for increases in cardiac contractility in pentobarbital-anesthetized dogs (r = 0.94; p less than 0.001). The results support the hypothesis that [3H]LY186126 labels the pharmacological receptor for the class of positive inotropic agents characterized as isozyme-selective phosphodiesterase inhibitors. Furthermore, the data suggest that the identity of the site labeled by [3H]LY186126 is SR-PDE, the type IV isozyme of cardiac phosphodiesterase located in the sarcoplasmic reticulum.
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PMID:Characterization and pharmacological relevance of high affinity binding sites for [3H]LY186126, a cardiotonic phosphodiesterase inhibitor, in canine cardiac membranes. 254 18

Phosphodiesterase isozymes were isolated by diethylaminoethyl ether (DEAE) column chromatography from cardiac muscle (canine, guinea pig), vascular (canine and guinea pig aortic) and airway (canine tracheal) smooth muscle. All peak I phosphodiesterases had a low apparent Km (0.29-0.49 microM) for guanosine 3':5' cyclic monophosphate (cGMP) and all peak III phosphodiesterases had a low apparent Km (0.35-0.58 microM) for adenosine 3':5' cyclic monophosphate (cAMP); trachealis peak III also had a high Km for cAMP (32 microM). The potency and selectivity for inhibition of peak I or peak III phosphodiesterase by theophylline and papaverine, the peak I selective inhibitor M + B 22948, and the peak III selective inhibitors amrinone, milrinone, imazodan, CI-930 and piroximone were approximately equal when isozymes isolated from aortic smooth muscle were compared to isozymes isolated from cardiac muscle of both species. Rolipram was relatively potent as a peak III phosphodiesterase inhibitor in canine cardiac muscle, but was impotent in the other cardiovascular peak IIIs. In tracheal smooth muscle, the cardiovascular selective peak III phosphodiesterase selective inhibitors were substantially less potent while rolipram was more potent as a peak III inhibitor. In summary, these studies show that while cardiac and vascular smooth muscle phosphodiesterase isozymes are pharmacologically similar, there is pharmacological and substrate heterogeneity of peak III phosphodiesterase in aortic vs. trachea smooth muscle within the same species.
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PMID:Differential pharmacologic sensitivity of cyclic nucleotide phosphodiesterase isozymes isolated from cardiac muscle, arterial and airway smooth muscle. 284 Nov 46

Aging is an important risk factor for impotence in men. Because nitric oxide (NO) appears to be the mediator of corpora cavernosal smooth muscle relaxation, we have examined in 5-, 20-, and 30-mo-old rats, designated "adult," "old," and "senescent," respectively, whether aging causes a decrease of erectile response that may correlate with lower NO synthase (NOS) in the penis. Electric field stimulation (EFS) of the cavernosal nerve showed that the maximum intracavernosal pressure (MIP) declined in the old and senescent rats to 80 and 51% of the adult value, respectively. A low systemic dose of the NOS inhibitor, N omega-nitro-L-arginine methyl ester (L-NAME; 2 mg/kg), reduced the MIP by only 38% in the adult rats but decreased it in the old and senescent rats by 72 and 80%, respectively. In the absence of EFS, intracavernosal papaverine (phosphodiesterase inhibitor), or nitroglycerin (NO donor), caused a lower erectile response in the old and senescent rats compared with the adult animals (MIP: 41 and 14%, respectively; duration of the erection 46 and 21%, respectively). Tissue sections from old and senescent penises showed increasing degrees of sclerotic degeneration. In comparison with the adult rats, the penile soluble NOS activity per gram of tissue that is sensitive to L-NAME decreased significantly by 63% in the senescent rats but was elevated in the old rats. These results indicate that aging causes an erectile failure due to factors initially independent from an impairment of penile NO synthesis but which are compounded in the very old rats by the decrease of penile NOS activity.
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PMID:Effect of aging on nitric oxide-mediated penile erection in rats. 753 Sep 24

Erectile impotence is more common in the diabetic than the general population, occurs at a younger age, and is often associated with ejaculatory problems. For these, and possibly for other more subtle reasons, fertility may be a problem for men with diabetes. The symptoms of erectile and ejaculatory dysfunction are frequently not discussed between patient and doctor. Psychological factors are important but the vast majority of diabetic patients have an organic basis for their impotence. Both neurogenic and vascular factors are important in the pathogenesis of erectile failure. Autonomic neuropathy is almost certainly the cause of the ejaculatory failure that may be present in up to 40% of men with diabetes. The final biochemical mediator of erection within the penile erectile tissue is nitric oxide and a key enzyme in its degradation is phosphodiesterase (type V). Drugs that affect the metabolism of this enzyme are being developed to treat erectile failure. At present, the self injection of intra-cavernosal erectogenic agents (such as prostaglandin E1) provide the main form of therapy for erectile failure. Vacuum devices are a simple alternative and venous ligation surgery may be effective for a properly selected cohort of patients. Prosthetic implants are a final option for patients in whom all else has failed. Fertility problems, particularly when associated with ejaculatory failure can be overcome with modern assisted reproductive techniques. Nowadays, these will frequently involve gamete micro-manipulation.
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PMID:The aetiology and management of erectile, ejaculatory, and fertility problems in men with diabetes mellitus. 886 43

Previously, men with erectile dysfunction (ED) were frequently treated with penile prosthesis implants or considered to have psychogenic impotence. Since the reports by Virag and Brindley in 1932 and 1983, pharmacotherapy, by self-injection programs has become a new therapeutic concept for impotent men. In clinical practice, this application model has been generally accepted as the "golden standard" in the treatment of ED. Papaverine was first used as monotherapy, but because of side-effects such as prolonged erection, priapism, and fibrosis of the corpus cavernosum, single use of the drug was abandoned. Instead, papaverine was introduced in mixtures, e.g. together with alpha adrenoceptor-blockers as phentolamine, and/or prostaglandin E1 (PGE1) in these "cocktails", the dose of papaverine is reduced to 10-15 mg compared to the high doses (80-120 mg) that were used initially. By having two or more drugs in the mixture, a facilitating cascade effect as probably obtained. PGE1 is the only drug that has been approved by the FDA and is today registered in more than 50 countries. Other combination therapies such as vasoactive intestinal polypeptide+ phentolamine, or calcitonin gene-related peptide+ PGE1, have been suggested as suitable alternatives for intracavernosal injection. Transdermal and intraurethral application models may be considered in selected patients. Recently, oral administration of a phosphodiesterase inhibitor (UK-92.480) was reported to improve penile erection in patients with psychogenic impotence. Further clinical results from controlled trials will probably explain if this new oral drug will compete with PGE1 or other agents in self-injection programs.
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PMID:Pharmacotherapy in erectile dysfunction agents for self-injection programs and alternative application models. 890 79

Smooth muscle electromyographic (EMG) recording from the corpora cavernosa is a potentially useful clinical tool for the diagnosis of impotence. Controversy still exists regarding the nature of this signal, which could be resolved using animal models. The signal recorded from denuded rat corporal surface was Fourier transformed, and power at 0.01-1 Hz was calculated. Measurements were taken in the flaccid state and during erection induced by intracorporal injection of smooth muscle relaxants [the phosphodiesterase inhibitors papaverin and isobutylmethylxanthine (IBMX)]. Recorded activity decreased significantly during the pharmacologically evoked erection: the mean square root power of 250.7+/-137.1 microV decreased to 49.8+/-14.1 microV (P<0.0001) after papaverin, and IBMX caused it to decrease from 222.8+/-132.0 microV to 58.1+/-40.8 microV (P<0.0001) (mean +/- SD). Intracorporal injection of adrenaline partially reversed the response, increasing activity to 135.3+/-72.3 microV (P=0.01) and 137.5+/-122.6 microV (P=0.015), respectively, in parallel with detumescence. In order to rule out a mechanical artefactual explanation for these results, recording was also performed before and during artificial erection induced by the intracorporal infusion of saline. This manipulation did not cause any change in corporal activity, despite corporal engorgement and increased pressure. In conclusion, the signal indeed reflects changes in the tone of corporal smooth muscle, and therefore should be regarded as a genuine EMG recording.
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PMID:Electrical activity from rat corpora is affected by pharmacological but not mechanical intracorporal manipulation. 979 2

We designed and evaluated a new class of molecules, nitrosylated alpha-adrenergic receptor antagonists, as potential agents for the treatment of impotence. In in vitro studies with human and rabbit corpus cavernosum strips in organ chambers, the alpha-adrenergic receptor antagonists (alpha-ARAs) moxisylyte and yohimbine and their corresponding nitrosylated compounds, SNO-moxisylyte (NMI-221) and SNO-yohimbine (NMI-187), concentration-dependently relaxed endothelin-induced contraction. The nitrosylated compounds were significantly more potent than the parent alpha-ARA. In human tissues, the specific phosphodiesterase type 5 inhibitor zaprinast potentiated the relaxing effects of the nitrosylated compounds. Only nitrosylated compounds induced accumulation of cyclic GMP in rabbit corpus cavernosum strips. Yohimbine and NMI-187 demonstrated a potent alpha2-blocking activity, with no significant differences in pA2 values (8.9 versus 8.2, respectively). Moxisylyte and NMI-221 showed moderate potency in antagonizing phenylephrine contraction, with comparable pA2 values for both molecules (6.5 versus 6.6, respectively). alpha-Adrenergic receptor-binding studies showed similar binding affinities for the alpha-ARA and their corresponding nitrosylated compounds. In vivo, intracavernosal injection of nitrosylated molecules caused greater increases in intracavernosal pressure (NMI-221 versus moxisylyte) that were more long lasting than those of moxisylyte or yohimbine. There were no significant differences between nitrosylated and non-nitrosylated compounds in the magnitude of systemic mean arterial pressure decrease after intracavernosal injection. alpha-ARA and the nitrosylated compounds showed no pain-inducing activity as evaluated with the paw-lick model in mice. In summary, nitrosylated alpha-ARA have the dual functionalities of nitric oxide donors and alpha-ARA. These drugs induced penile erection in animals, suggesting their possible therapeutic value as agents for the local pharmacological treatment of impotence.
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PMID:Design and evaluation of nitrosylated alpha-adrenergic receptor antagonists as potential agents for the treatment of impotence. 1038 67

Erectile dysfunction (ED) is the persistent inability to achieve or maintain an erection sufficient for satisfactory sexual performance. The disorder is age-associated, with estimated prevalence rates of 39% among men 40 years old and 67% among those 70 years old. ED is a common (2 to 3 million males in Italy) and multifactorial disease due to organic and/or psychological factors that strongly impair the quality of life in man. During the last decade many advances in the understanding of the pathophysiology of ED have been made and new therapeutic strategies have become available. It has been established that an insufficient production of nitric oxide by penile nerve terminals and/or vascular endothelium may result in an impaired erection or complete impotence. Nowadays, intracavernous injection of vasoactive drugs represents a standardised approach for the diagnosis and a treatment option for ED, but is not widely accepted by the patients. The possibility of treating ED with new oral agents (i.e. sildenafil, apomorphine, phentolamine) or intraurethral administration of prostaglandin-E1 made this therapy more acceptable. Vacuum erection devices and penile prostheses represent second-line treatments. Men with ED caused by endocrine disorders (i.e. hypogonadism, prolactinomas) should be treated appropriately (i.e. testosterone and dopaminergic agonists, respectively). Amongst new drugs, sildenafil is considered the most promising: it is a potent inhibitor of type-5 phosphodiesterase in the corpus cavernosum and therefore increases the penile response to sexual stimulation. Oral sildenafil (25-100 mg when needed) is an effective and well-tolerated treatment in impotent men suffering from ED of unknown etiology.
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PMID:[Erectile dysfunction]. 1042 21

Sildenafil citrate (Viagra) is a new oral medication that inhibits phosphodiesterase-5 (PDE5) in the corpus cavernosum to facilitate penile erection for the treatment of male impotence. The drug also has a mild inhibitory effect on PDE6, which controls the level of cyclic guanosine monophosphate in the retina, and it may cause a perception of bluish haze or increased light sensitivity in some patients. Long-term retinal damage has not been reported, but long-term electroretinographic studies have not been performed. Sildenafil causes a mild lowering of blood pressure and is absolutely contraindicated in patients taking any form of nitrate medication. A number of cardiovascular deaths and retinal vascular events in patients taking sildenafil have been reported, but so far the rate of these complications does not exceed expectation for an elderly population. Ophthalmologists should alert patients to the ocular side effects and potential risks of this new drug until further clinical experience has been obtained.
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PMID:Sildenafil (Viagra) and ophthalmology. 1054 Nov 53

This discussion summarizes the potential differences in physiologically and pharmacologically induced erections and highlights the possible differences in the pathways facilitated by oral versus intracavernosal agents in penile erection. Oral agents act in conjunction with sexual stimulation either increasing corporal smooth muscle relaxation or attenuating smooth muscle contraction. However, their efficacy is dependent on sexual stimulation. Intracavernosal administration of phosphodiesterase type 5 inhibitor (sildenafil) or short-acting alpha adrenergic receptor antagonist (phentolamine), in the absence of sexual stimulation, does not initiate penile erection. In contrast, intracavernosal administration of PGE1 or papaverine induces erection independent of sexual stimulation. Thus, oral agents are not direct mediators of smooth muscle relaxation and act to facilitate relaxation in response to sexual stimulation, while intracavernosal agents directly mediate smooth muscle relaxation, independent of sexual stimulation. Although, considerable advances have been made in elucidating the physiology and pharmacology of erectile function, details of the signal transduction pathways affected by these agents in the penile corpus cavernosum are yet to be fully investigated. International Journal of Impotence Research (2000) 12, Suppl 1, S81-S88
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PMID:Comparison of oral and intracavernosal vasoactive agents in penile erection. 1084 70

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