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)

Sildenafil, a potent inhibitor of phosphodiesterase type 5, has recently been investigated in animal models of myocardial ischemia-reperfusion (MI/R) injury. Previous studies have suggested that the protective effects of sildenafil are mediated via activation of endothelial nitric oxide (NO) synthesis (eNOS) and inducible NOS (iNOS). To further investigate the protective mechanism of sildenafil, we subjected wild-type, eNOS, and iNOS null animals to 30 min of myocardial ischemia and 24 h of reperfusion. Treatment with 0.06 mg/kg sildenafil 5 min before reperfusion significantly reduced myocardial infarct size in wild-type, eNOS null mice (eNOS(-/-)), and iNOS(-/-) animals. Additionally, the low dose utilized in this study did not alter myocardial cGMP. These results suggest that acute low-dose sildenafil-mediated cardioprotection is independent of eNOS, iNOS, and cGMP. In a second series of experiments, we investigated sildenafil in db/db diabetic mice subjected to MI/R. We found that sildenafil failed to protect diabetic mice against MI/R. However, NO(.) donor therapy was found to significantly protect against MI/R injury in both nondiabetic and diabetic mice, suggesting that protection could be conferred in diabetic mice and that the upstream modulator of soluble guanylyl cyclase, NO(.), may mediate protection independent of cGMP signaling. The present study suggests that further research is needed to delineate the precise mechanisms by which sildenafil exerts cardioprotection.
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PMID:Sildenafil-mediated acute cardioprotection is independent of the NO/cGMP pathway. 1695 Oct 48

There are few discoveries with the magnitude of the impact that NO has had on biology during the 25 years since its discovery. There is hardly a disease today not associated with altered NO homeostasis. In fact, despite numerous other endothelial functions, endothelial dysfunction has become synonymous with reduced biological activity of NO. Translating the preclinical discoveries in NO biology to new modalities for disease management has not been as impressive. Beyond the success of drugs for erectile dysfunction, clinical trials of nitric oxide synthase inhibitor have been proven either ineffective or wrought with side effects. NO donors (e.g., nitroglycerine) remain frequently used cardiovascular agents, but were discovered before 1980. Gene therapy studies have yet to become clinically useful. There is no doubt that endothelial- and NO-dysfunction is a hallmark of cardiovascular disease, including diseases which are considered as major current public health concerns: hypertension, obesity, diabetes, malnutrition. In many cases, cardiovascular disease (CVD) can be prevented by identifying and controlling modifiable risk factors. One conceivable approach to the management of multiple risk factors in CVD could be to treat endothelial dysfunction (e.g., by enhancing eNOS expression), since many CVD risk factors are related to endothelial dysfunction. In this regard one goal may include optimizing eNOS function. This can be realized by supplementing co-factors, e.g., BH4, or substrate, L-arginine, by increasing cGMP availability via phosphodiesterase inhibitors or sGC activators or by increasing NO bioavailability via antioxidants. The association of other proteins with the nitric oxide synthase (NOS) isoforms and sGC could also serve as experimental and potentially therapeutic targets to modulate NO bioactivity. There is tremendous promise behind NO itself as well as the numerous other molecules and processes associated with the L-arginine-NO-cGMP pathway. Collaborative efforts among bench scientists, clinical investigators and epidemiologists are the key in realizing this promise.
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PMID:Nitric oxide and the endothelium: history and impact on cardiovascular disease. 1705 61

Single injection of a small quantity of phenol into the cortex of one kidney in rats results in development of persistent hypertension (HTN) which is thought to be mediated by activation of renal afferent and efferent sympathetic pathways and sodium retention. Nitric oxide (NO) plays a major role in regulation of renal vascular resistance, tubular Na(+) reabsorption, pressure natriuresis, and thereby systemic arterial pressure. The present study was performed to test the hypothesis that chronic renal injury-induced HTN may be associated with dysregulation of NO system in the kidney. Accordingly, urinary NO metabolite (NO(x)) and cGMP excretions as well as renal cortical tissue (right kidney) expressions of NO synthase (NOS) isoforms [endothelial, neuronal, and inducible NOS, respectively (eNOS, nNOS, and iNOS)], NOS-regulatory factors (Caveolin-1, phospho-AKt, and calmodulin), and second-messenger system (soluble guanylate cyclase [sGC] and phosphodiesterase-5 [PDE-5]) were determined in male Sprague-Dawley rats 4 wk after injection of phenol (50 mul of 10% phenol) or saline into the lower pole of left kidney. The phenol-injected group exhibited a significant elevation of arterial pressure, marked reductions of urinary NO(x) and cGMP excretions, downregulations of renal tissue nNOS, eNOS, Phospho-eNOS, iNOS, and alpha chain of sGC. However, renal tissue AKt, phospho-AKT, Calmodulin, and PDE-5 proteins were unchanged in the phenol-injected animals. In conclusion, renal injury in this model results in significant downregulations of NOS isoforms and sGC and consequent reductions of NO production and cGMP generation by the kidney, events that may contribute to maintenance of HTN in this model.
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PMID:Effect of renal injury-induced neurogenic hypertension on NO synthase, caveolin-1, AKt, calmodulin and soluble guanylate cyclase expressions in the kidney. 1712 86

Nitric oxide (NO) plays a key role in regulating vascular tone. Mice overexpressing endothelial NO synthase [eNOS-transgenic (Tg)] have a 20% lower systemic vascular resistance (SVR) than wild-type (WT) mice. However, because eNOS enzyme activity is 10 times higher in tissue homogenates from eNOS-Tg mice, this in vivo effect is relatively small. We hypothesized that the effect of eNOS overexpression is attenuated by alterations in NO signaling and/or altered contribution of other vasoregulatory pathways. In isoflurane-anesthetized open-chest mice, eNOS inhibition produced a significantly greater increase in SVR in eNOS-Tg mice compared with WT mice, consistent with increased NO synthesis. Vasodilation to sodium nitroprusside (SNP) was reduced, whereas the vasodilator responses to phosphodiesterase-5 blockade and 8-bromo-cGMP (8-Br-cGMP) were maintained in eNOS-Tg compared with WT mice, indicating blunted responsiveness of guanylyl cyclase to NO, which was supported by reduced guanylyl cyclase activity. There was no evidence of eNOS uncoupling, because scavenging of reactive oxygen species (ROS) produced even less vasodilation in eNOS-Tg mice, whereas after eNOS inhibition the vasodilator response to ROS scavenging was similar in WT and eNOS-Tg mice. Interestingly, inhibition of other modulators of vascular tone [including cyclooxygenase, cytochrome P-450 2C9, endothelin, adenosine, and Ca-activated K(+) channels] did not significantly affect SVR in either eNOS-Tg or WT mice, whereas the marked vasoconstrictor responses to ATP-sensitive K(+) and voltage-dependent K(+) channel blockade were similar in WT and eNOS-Tg mice. In conclusion, the vasodilator effects of eNOS overexpression are attenuated by a blunted NO responsiveness, likely at the level of guanylyl cyclase, without evidence of eNOS uncoupling or adaptations in other vasoregulatory pathways.
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PMID:Vasomotor control in mice overexpressing human endothelial nitric oxide synthase. 1749 13

An increasing body of evidence suggests that different genetic factors, such as angiotensin-converting enzyme (ACE) I/D, angiotensin II type-1 receptor (AT1R) A1166C, methylenetetrahydrofolate reductase (MTHFR) C677T and ENOS G894T variants are associated with an endothelial dysfunction (ED). EDs are relatively new phenomena that are presumed to contribute to vasoregulatory malfunctions at the small-vessel level. Ever more clinical observations indicate that the above genetic variants are also associated with cerebral small-vessel disorders. This article reviews the knowledge available on the roles of ED- associated genetic variants in cerebral circulatory disorders, and suggests that EDs can be causative factors for different common cerebral pathologies such as leukoaraiosis or/and small-vessel infarcts. Newly-developed drugs involving phosphodiesterase type-5 inhibitors, which improve the endothelial functions, may comprise a new approach to the treatment and prevention of small-vessel cerebral circulatory disorders.
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PMID:Genetic variant-associated endothelial dysfunction behind small-vessel cerebral circulatory disorders: a new pathomechanism behind common cerebral phenotypes. 1750 88

High altitude pulmonary edema (HAPE) is a non-cardiogenic pulmonary edema that can occur in healthy individuals who ascend rapidly to altitudes above 3000-4000m. Excessive pulmonary artery pressure (PAP) is crucial for the development of HAPE, since lowering pulmonary artery pressure by nifedipine or tadalafil (phosphodiesterase-5-inhibitor) will in most cases prevent HAPE. Recent studies using microspheres in swine and magnetic resonance imaging in humans strongly support the concept and primacy of nonuniform hypoxic arteriolar vasoconstriction to explain how hypoxic pulmonary vasoconstriction occurring predominantly at the arteriolar level can cause leakage. Evidence is accumulating that the excessive PAP response in HAPE-susceptible individuals is due to a reduced NO bioavailability. HAPE-susceptible individuals show an endothelial dysfunction in the systemic circulation in hypoxia. Lower levels of exhaled NO in hypoxia before and during HAPE suggest that this abnormality also occurs in the lungs and polymorphisms of the eNOS gene are associated with susceptibility to HAPE in the Indian and Japanese population.
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PMID:High altitude pulmonary edema: a pressure-induced leak. 1760 98

Hepatopulmonary syndrome (HPS) is found in 4-47% of patients with cirrhosis and is characterized by intrapulmonary vascular dilatations especially in the basal parts of the lung. Liver injury and/or portal hypertension trigger the release of endothelin-l, TNF-alpha, cytokines and mediate vascular shear stress and release of nitric oxide and carbon monoxide, all contributing to intrapulmonary vasodilation. Severe HPS increases mortality (30%) after liver transplantation, especially if Pa O2 is below 50 mmHg. The diagnosis is made by calculating the alveolar-arterial oxygen gradient and by performing a contrast echocardiography. Medical therapy fails and the only long-term treatment available is liver transplantation. More than 85% experience significant improvement or complete resolution in hypoxaemia, but this may take more than 1 year. Portopulmonary hypertension (PPHT) occurs in 2-8% of the patients with cirrhosis. Imbalance between vasodilating (decreased pulmonary expression of eNOS and prostacyclin I2) and vasoconstrictive agents (increased expression of ET-1 and angiotensin 1) may be responsible for misguided angiogenesis and pulmonary hypertension. The diagnosis is made by performing an echocardiography and a right heart catheterisation when systolic pulmonary artery pressure is higher than 30 mmHg on echocardiography. Although prostacyclin analogues are efficacious, adverse effects in terms of safety, tolerability and drug delivery occur. Bosentan is probably the therapy of choice for patients with PPHT because it decreases pulmonary but can also diminish portal hypertension. Sildenafil, a phosphodiesterase-5 inhibitor is used for idiopathic pulmonary hypertension, however, it should be used cautiously in patients with portal hypertension as it may increase portal hypertension by splanchnic vasodilation.
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PMID:Hepatopulmonary syndrome and portopulmonary hypertension: what's new? 1771 35

To investigate the effects of phosphodiesterase (PDE) 5 inhibitors, sildenafil citrate and vardenafil HCl, on testicular germ cell apoptosis and also on the expressions of eNOS and iNOS within the bilateral testis after a unilateral torsion in a rat model. Forty-eight Wistar Albino rats, weighing between 210 and 262 g, were housed in individual cages. The rats were randomly assigned into four main groups and each group received drugs. Saline, sildenafil citrate and vardenafil HCl were given to each for 1 month and the last received no drug. After 1 month, testicular torsion was created for 1 h of ischemia and the left testis was untwisted and replaced to the scrotum for 2 h of reperfusion. At the end of 3 h, contralateral and ipsilateral testes were removed for histopathologic and biochemical examinations. Under light microscopy; the histopathological patterns of the contralateral testes in all groups were not affected. Mean apoptotic cell, eNOS and iNOS levels were increased in saline study group. The rats treated with vardenafil and sildenafil (groups 2s and 3s) showed significantly increased apoptotic cell, eNOS and iNOS values in ipsilateral testis (P < 0.05). Sildenafil citrate and vardenafil HCl caused an exaggerated testicular apoptosis after IR injury in rats. Additionally these drugs increased the NOSs levels in the testicular tissue.
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PMID:Effect of phospodiesterase 5 inhibitors on apoptosis and nitric oxide synthases in testis torsion: an experimental study. 1798 35

In humans androgen decline is presented as a clinical picture which includes decreased sexual interest, diminished erectile capacity, delayed or absent orgasms and reduced sexual pleasure. Additionally, changes in mood, diminished well being, fatigue, depression and irritability are also associated with androgen insufficiency. The critical role of androgens on the development, growth, and maintenance of the penis has been widely accepted. Although, the exact effect of androgens on erectile physiology still remains undetermined, recent experimental studies have broaden our understanding about the relationship between androgens and erectile function. Preclinical studies showed that androgen deprivation leads to penile tissue atrophy and alterations in the nerve structures of the penis. Furthermore, androgen deprivation caused to accumulation of fat containing cells and decreased protein expression of endothelial and neuronal nitric oxide synthases (eNOS and nNOS), and phosphodiesterase type-5 (PDE-5), which play crucial role in normal erectile physiology. On the light of the recent literature, we aimed to present the direct effect of androgens on the structures, development and maintenance of penile tissue and erectile physiology as well. Furthermore, according to the clinical studies we conclude the aetiology, pathophysiology, prevalence, diagnosis and treatment options of hypogonadism in aging men.
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PMID:Hypogonadism and erectile dysfunction: an overview. 1808 42

Dipyridamole (DP) is a phosphodiesterase inhibitor that increases the intracellular levels of cyclic adenosine monophosphate (cAMP) and cyclic guanine monophosphate (cGMP) by preventing their conversion to AMP and GMP, respectively. By increasing cAMP and cGMP levels in platelets, DP reversibly inhibits platelet aggregation and platelet-mediated thrombotic disease. In addition, DP may potentiate some of the vascular protective effects of endothelium-derived nitric oxide (NO), which increases cGMP by stimulating soluble guanylyl cyclase. Endothelium-derived NO is an important regulator of vascular tone, blood flow, and tissue perfusion. Indeed, endothelial NO synthase-deficient (eNOS-/-) mice exhibit elevated systemic blood pressure and have larger myocardial and cerebral infarct size after ischemic injury. Other NO/cGMP-dependent effects that may be potentiated by DP include inhibition of vascular smooth muscle proliferation and prevention of endothelial-leukocyte interaction. In addition, DP increases local concentrations of adenosine and prostacyclin, which could affect vascular tone and inflammation. Finally, DP has antioxidant properties, which could stabilize platelet and vascular membranes as well as prevent the oxidation of low-density lipoprotein. These platelet and nonplatelet actions of DP may contribute to some of its therapeutic benefits in vascular disease.
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PMID:Translational therapeutics of dipyridamole. 1817 51

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