Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It is recognized that heart failure in patients with atherosclerotic lesion is the result of ischemia. However, there may also be cardiac cell dysfunction independent of ischemia, as factors advancing both of atherosclerosis and heart failure are discovered. The renin-angiotensin system is one of factor and angiotensin-converting enzyme inhibitor (ACEi) prevents progression of atherosclerotic lesion and heart failure. To elucidate the association of atherosclerosis and cardiac cell dysfunction, we investigated the effects of ACEi on cultured cardiac myocytes. Captopril increased beta-receptor density of myocytes and augmented the response to isoproterenol. CV-3480, a ACEi, also up-regulated beta-receptors but angiotensin I, angiotensin II and angiotensin type I receptor antagonist did not. Bradykinin B2 receptor blocker, HOE140, suppressed the effect of captopril on cultured cells. The results suggest that ACEi up-regulated beta-receptors and augmented the response to beta-receptor agonist through BK potentiation.
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PMID:[Association of atherosclerosis and cardiac cell dysfunction]. 895 33

In 10 anaesthetized cats, electroretinographic (ERG) measurements were carried out to further elucidate the involvement of bradykinin as a substrate component of the renin-angiotensin system in retinal neurotransmission. Reducing angiotensin II concentration by angiotensin-converting enzyme (ACE) inhibition increased sensitivity (0.5 log units) and gain (50%) of the rod b-wave amplitude. The b-wave implicit time was decreased only at high stimulus intensities (> 10(-2) cd/m). Blocking bradykinin receptors specifically decreased rod b-wave implicit time for all intensities, while its amplitude remained unaffected. Bradykinin effects were independent of alterations of angiotensin II activity. We therefore suggest that bradykinin influences inner retinal signal processing, hereby further supporting the hypothesis of a renin-angiotensin system involvement in retinal neurotransmission.
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PMID:Bradykinin receptor inhibition affects the rod b-wave in the cat electroretinogram. 899 85

Whether any class of antihypertensive drugs has specific renoprotective effects above and beyond lowering of blood pressure is still debatable. The renin-angiotensin system (RAS) is both localized and has many actions within the kidney, on intrarenal hemodynamics, on the mesangial cell, as well as stimulating growth factors and cytokines. Angiotensin converting enzyme (ACE) inhibitors have been shown to ameliorate the progression of renal failure. How much of this beneficial effect is due to their hemodynamic effects, how much to non-hemodynamic effects and how much to their effects on bradykinin and other putative ACE substrates is still unclear. Experimentally it can be shown that inhibiting ACE but preventing the fall in systemic blood pressure by salt loading abolishes renoprotection. Bradykinin has been implicated in both the beneficial and the adverse effects of ACE inhibitors. Because of this and because ACE inhibitors may not provide complete blockade of the RAS, angiotensin receptor (AT1R) antagonists have been developed. Experimentally AT1R antagonists have been shown to reproduce most of the beneficial effects of ACE inhibitors. The experience in humans is more limited but they have been demonstrated to be efficacious in hypertension, to reduce proteinuria, and produce a favorable hemodynamic effect in congestive cardiac failure with a low incidence of adverse effects and without cough. Calcium channel blockers (CCB) also have additional properties that may provide renoprotection beyond lowering blood pressure. However, as the different types of CCB block different calcium channels their effects may differ substantially. The inconsistency of the data in the renoprotective effect of CCB may reflect these differences. Quantitatively probably the most important factor in preventing the progress of renal failure by antihypertensive drugs is strict control of blood pressure. Lowering blood pressure by drugs is most likely effective by both reducing physical and sheer stress damage, as well as turning off the signal for the activation and production of vasoactive peptides and cytokines.
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PMID:Comparison of renin-angiotensin to calcium channel blockade in renal disease. 940 14

Angiotensin 1-7 (Ang 1-7) has been reported to induce relaxation which is partially blocked by a kinin receptor antagonist. We investigated the relationship between kinins and angiotensin peptides with use of preconstricted isolated pig coronary arteries. Ang 1-7 alone (up to 10(-5) M) had no relaxant effect. Bradykinin (BK) (10(-10)-10(-7) M) induced transient relaxation, returning to basal tone, although BK remained in the bath. In these BK-stimulated rings, Ang 1-7 but not BK (both 5 x 10(-6) M) again relaxed the rings by approximately 50%. This relaxation was blocked by a BK B2 antagonist, a kininase, and a nitric oxide synthase inhibitor. Ang 1-7 inhibited purified angiotensin-converting enzyme (ACE) by 30 +/- 3.5% (n = 4) at 10(-6) M. However, in BK-pretreated rings, the ACE inhibitor ramiprilat did not induce relaxation, nor did it affect the relaxant response to Ang 1-7, which suggests that the effect of Ang 1-7 was not caused by ACE inhibition. Ang 1-7-induced vasodilation was reduced by 69.9 +/- 6.2% by an AT2 receptor blocker, PD-123319, and 29.3 +/- 7.3% by an AT1 antagonist, losartan. Neither the nonselective AT1/AT2 receptor antagonist sarthran nor saralasin inhibited the response to Ang 1-7. Ang II did not elicit relaxation either alone or in the presence of losartan, which suggests that activation of AT2 receptors does not cause relaxation. Thus, in the presence of bradykinin, Ang 1-7 relaxes pig coronary arteries via a PD-123319-sensitive mechanism involving nitric oxide, kinins and the BK B2 receptor. The kallikrein-kinin and renin-angiotensin systems may be linked through the interaction of Ang 1-7 and BK.
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PMID:Angiotensin 1-7 induces bradykinin-mediated relaxation in porcine coronary artery. 965 85

The cardiac renin angiotensin system (RAS) is the target for number of therapeutic interventions which proved successful in heart failure. Angiotensin converting enzyme (ACE) inhibitors belong to the most efficient strategies available and angiotensin receptor (ATR) antagonists may be comparably effective. The direct myocardial effects of both classes of substances depend on the cardiac ANG II receptors. Both subtypes, AT1 and AT2, are expressed in the human heart. AT1 is localized on myocytes, non-myocytes, vascular smooth muscle and endothelial cells, nerve endings, and conduction tissues. AT2 has so far been found in fibrous tissue and endothelial cells. AT1 mediates myocyte hypertrophy, fibroblast proliferation, collagen synthesis, smooth muscle cell growth, endothelial adhesion molecule expression, and catecholamine synthesis. AT1 is downregulated in cardiac failure as well as in the hypertrophied transplanted heart, indicating that a 50% loss of AT1 does not impede cardiac hypertrophy. In heart failure therapy, AT1 antagonists differ from ACE inhibitors by their inhibition of the degradation of bradykinin. Bradykinin has a number intrinsic effect including vasodilation, proinflammatory actions, and modulation of fibrous tissue synthesis. In addition to bradykinin, the functional role of AT2 seems crucial for the therapeutic differences of AT1 antagonists versus ACE inhibitors.
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PMID:Myocardial angiotensin receptors in human hearts. 983 60

The negative charges of dextran sulfate cellulose (DSC) used for low-density lipoprotein (LDL) apheresis activate the intrinsic coagulation pathway, accompanied by bradykinin production. This study was undertaken to see whether an antagonist of angiotensin receptor (AT1), losartan, could be safely used in a patient treated by DSC-LDL apheresis. Losartan (50 mg/day) was given to a patient with coronary heart disease who had been treated by DSC-LDL apheresis and had experienced an anaphylactoid reaction by administration of an angiotensin converting enzyme inhibitor. The effects of losartan on blood pressures and humoral factors were examined by comparing these parameters between apheresis with and without losartan. Blood pressures and plasma levels of bradykinin, renin, and aldosterone were measured before and at 1,000, 2,000, and 3,000 ml of plasma treatment. Bradykinin levels during LDL apheresis tended to be higher with losartan than without losartan (without versus with, 529 +/- 121 [n = 4, mean +/- SE] pg/ml vs. 1,058 +/- 49 at the 2,000 ml stage, p < 0.01). The rise of plasma renin activity with losartan (221 +/- 26% at the 3,000 ml stage) was significantly greater than that without losartan (144 +/- 2.4%). Mean blood pressure decreased by 7% during apheresis with losartan, but blood pressure reduction was not accompanied by any complaints. These results suggest that AT1 receptor antagonists are safely used in patients treated by DSC-LDL apheresis.
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PMID:Effects of losartan on low-density lipoprotein apheresis. 1060 22

The physiological effects of angiotensin-converting enzyme (ACE) inhibition may be in part mediated by bradykinin. We investigated the effect of coadministration of the specific bradykinin B(2) receptor antagonist icatibant on hemodynamic and neurohormonal responses to acute intravenous ACE inhibition in normal men on a normal sodium diet. We performed a 4-phase, double-blind, double-dummy, placebo-controlled study in 12 male volunteers. The bradykinin antagonist icatibant (10 mg IV) was coadministered over the first 15 minutes of a 2-hour infusion of the ACE inhibitor perindoprilat (1.5 mg IV). Perindoprilat inhibited ACE activity and elicited the expected changes in active renin concentration and angiotensin peptides. Over the 3 hours after the start of drug infusion, perindoprilat lowered and icatibant increased mean arterial blood pressure (each P<0.0005 versus placebo). Coadministration of icatibant attenuated the mean arterial blood pressure response to perindoprilat (P<0.0005) but had no effect on neurohormonal responses to perindoprilat. Our study indicates that the bradykinin B(2) receptor antagonist icatibant attenuates the short-term blood pressure-lowering effect of acute ACE inhibition in normal men on a normal sodium diet. Bradykinin B(2) receptor antagonism alone increases resting blood pressure. Bradykinin may be involved in the control of blood pressure in the resting state in humans.
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PMID:Bradykinin B(2) receptor antagonism attenuates blood pressure response to acute angiotensin-converting enzyme inhibition in normal men. 1090 25

Induction of congestive heart failure by high-frequency pacing has been reported to increase plasma levels of immunoreactive kinins in dogs. In the present study, we evaluated plasma bradykinin levels in human heart failure. Utilizing a recently developed method, we specifically measured plasma levels of bradykinin-(1-9) nonapeptide in 21 patients with chronic congestive heart failure [New York Heart Association (NYHA) stages III and IV). At the same time, we measured plasma atrial natriuretic peptide levels and plasma renin activity, and, as a marker of inflammation, plasma levels of tumour necrosis factor. In addition, 18 healthy subjects matched for gender and age served as normal controls. Plasma bradykinin concentrations were not higher in patients with chronic congestive heart failure (median 2.1 fmol/ml) than in healthy subjects (2.6 fmol/ml). In contrast, plasma atrial natriuretic peptide levels were clearly higher (patients, 63 fmol/ml; controls, 24 fmol/ml; P<0.0001), despite diuretic treatment and in the presence of high plasma renin activity (patients, 13.0 ng x h(-1) x ml(-1); controls, 0.3 ng x h(-1) x ml(-1); P<0.0001). Tumour necrosis factor was elevated in heart failure patients in NYHA class IV only (27 pg/ml, compared with 21 pg/ml in controls; P=0.013). Bradykinin, atrial natriuretic peptide and plasma renin activity levels were not correlated with the severity of the disease, as assessed by NYHA classification. These results indicate that a rather selective cytokine activation, without concomitant stimulation of the kallikrein-kinin system, occurs in human chronic congestive heart failure.
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PMID:Plasma bradykinin levels in human chronic congestive heart failure. 1105 27

Hypertension is a major problem throughout the developed world. Although current antihypertensive treatment regimens reduce morbidity and mortality, patients are often noncompliant, and medications may not completely normalize blood pressure. As a result, current therapy frequently does not prevent or reverse the cardiovascular remodeling that often occurs when blood pressure is chronically elevated. Blockade of the renin-angiotensin system (RAS) is effective in controlling hypertension and treating congestive heart failure. Both angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs) inhibit the activity of the RAS, but these two classes of antihypertensive medications have different mechanisms of action and different pharmacologic profiles. Angiotensin-converting enzyme inhibitors block a single pathway in the production of angiotensin II (Ang II). In addition, angiotensin I is not the only substrate for ACE. The ACE inhibitors also block the degradation of bradykinin that may have potential benefits in cardiovascular disease. Bradykinin is, however, the presumed cause of cough associated with ACE inhibitor therapy. Data from clinical trials on ACE inhibitors serve to support the involvement of the RAS in the development of cardiovascular disease. Angiotensin receptor blockers act distally in the RAS to block the Ang II type 1 (AT1) receptor selectively. Thus, ARBs are more specific agents and avoid many side effects. Experimental and clinical trials have documented the efficacy of ARBs in preserving target-organ function and reversing cardiovascular remodeling. In some instances, maximal benefit may be obtained with Ang II blockade using both ARBs and ACE inhibitors. This review describes clinical trials that document the efficacy of ARBs in protecting the myocardium, blood vessels, and renal vasculature.
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PMID:Angiotensin receptor blockers: evidence for preserving target organs. 1128 62

The renin-angiotensin system (RAS) is present in the human prostate and may be activated in benign prostatic hyperplasia (BPH), possibly contributing to the pathophysiology of this disorder by enhancing local sympathetic tone and cell growth. The functional role of the RAS in the prostate, however, is unknown. The present study was undertaken to determine whether angiotensin (Ang) II enhances sympathetic transmission in the prostate. The neuronal stores of the rat prostate were labelled with [(3)H]noradrenaline (NA). Ang II and Ang I enhanced [(3)H]NA release in a concentration-dependent manner. The Ang II receptor subtype 1 (AT(1) receptor) antagonist losartan and the AT(2) receptor antagonist PD123319 inhibited this facilitatory effect of Ang II and Ang I, whereas the other AT(2) receptor antagonist, CGP42112, was without effect. Bradykinin also increased [(3)H]NA release, which was inhibited by the B(2) receptor antagonist Hoe140. The angiotensin-converting enzyme inhibitor captopril inhibited the effect of Ang I, but potentiated that of bradykinin. Interestingly, captopril alone produced an increase in [(3)H]NA release which was inhibited by Hoe140. Losartan, but not PD123319 or CGP42112, inhibited [(125)I]-Ang II binding in Chinese hamster ovary cells transfected with the AT(1a) or AT(1b) receptor. In contrast, in cells expressing the AT(2) receptor, PD123319 and CGP42112, but not losartan, inhibited [(125)I]-Ang II binding. In conclusion, Ang II enhances the release of NA from sympathetic nerves of the rat prostate via a novel functional receptor distinct from the cloned AT(1a), AT(1b) or AT(2). These data provide direct evidence in support of a functional role for the local RAS in modulating sympathetic transmission in the prostate, which may have important implications for the pathophysiology of BPH.
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PMID:Angiotensin II enhances noradrenaline release from sympathetic nerves of the rat prostate via a novel angiotensin receptor: implications for the pathophysiology of benign prostatic hyperplasia. 1157 94


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