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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)
Major discoveries have been made of new type-I and type-III peptidomimetic inhibitors of peptide-derived systems. Innovative reversible inhibitors of cysteine proteases and
renin
, and additional examples of peptidomimetic inhibitors of interleukin-1 beta-converting enzyme,
neutral endopeptidase
, herpes simplex virus protease, thrombin, HIV protease, Ras farnesyltransferase, the RGD motif, Factor Xa and various aspartic proteases have been discovered.
...
PMID:Peptidomimetic design. 973 16
It has been suggested that combined inhibition of angiotensin-converting enzyme (ACE) and
neutral endopeptidase
(
NEP
) may lower blood pressure more effectively than either treatment alone, independent of the degree of salt and volume status or the activity of the
renin
-angiotensin system. The effects of
NEP
inhibition in hypertension associated with diabetes mellitus are largely unknown. We therefore compared ACE inhibition,
NEP
inhibition, and dual
NEP
/ACE inhibition in diabetic hypertensive rats. Spontaneously hypertensive rats (SHR) aged 9 to 10 weeks were injected with either streptozotocin (45 mg/kg) or citrate buffer and randomized to receive either the ACE inhibitor captopril (25 mg/kg BID), the
NEP
inhibitor SCH 42495 (30 mg/kg BID), the dual
NEP
/ACE inhibitor S 21402 (25 or 50 mg/kg BID), or vehicle by gavage for 4 weeks. A group of diabetic SHR was also allocated to receive the combination of SCH 42495 (30 mg/kg BID) and captopril (25 mg/kg BID). The degree of renal
NEP
inhibition was determined by autoradiography, and plasma
renin
activity (PRA) was determined by radioimmunoassay. In diabetic SHR, the dual
NEP
/ACE inhibitor (50 mg/kg BID), as well as the combination of the
NEP
inhibitor and the ACE inhibitor, reduced systolic blood pressure more effectively than the ACE inhibitor (P<0.001) or the
NEP
inhibitor (P<0.001) alone. In nondiabetic SHR, the dual
NEP
/ACE inhibitor and the ACE inhibitor were equally effective, while the
NEP
inhibitor had only slight blood pressure lowering effects. Relative heart weight decreased in parallel to the changes in blood pressure. Renal
NEP
was clearly inhibited (70% to 92%; P<0.001) by both the
NEP
inhibitor and the dual
NEP
/ACE inhibitor. Both the ACE inhibitor and the dual
NEP
/ACE inhibitor increased PRA, but the stimulating effect of dual
NEP
/ACE inhibition on PRA was less than that observed with ACE inhibition alone (P<0.05). Albuminuria in diabetic SHR was lower during treatment with both the dual
NEP
/ACE inhibitor (50 mg/kg BID) and the combination of
NEP
inhibition and ACE inhibition compared with vehicle treatment (P<0.05). In conclusion, the present study shows that hypertension in SHR with streptozotocin-induced diabetes is modulated by natriuretic peptides and thus is sensitive to
NEP
inhibition. The increased efficacy of dual
NEP
/ACE inhibition on blood pressure in diabetic SHR, compared with ACE or
NEP
inhibition alone, suggests that this therapeutic approach may prove beneficial in the treatment of hypertension associated with diabetes mellitus and other forms of volume-dependent hypertension.
...
PMID:Dual inhibition of neutral endopeptidase and angiotensin-converting enzyme in rats with hypertension and diabetes mellitus. 977 79
It has been recently shown that angiotensin II (Ang II) is not the only active peptide of the
renin
-angiotensin system. Several of its degradation products including Ang III (obtained by deletion of the N terminal amino acids), Ang IV (obtained by deletion of the two N terminal amino acids), and Ang II (1-7) (obtained by deletion of the C terminal amino acid), also possess biological functions. These peptides are formed via the activity of several enzymes: angiotensin--converting enzyme, aminopeptidases A and N,
neutral endopeptidase
and prolylendopeptidase. Ang III possesses most of the properties of Ang II and shares the same receptors AT1 and AT2. In addition this peptide is particularly important in brain physiology and plays a major role in the secretion of arginine vasopressine. Ang IV possesses its own receptors distinct from AT1 and AT2. Some of its effects (for example, stimulation of the synthesis of the type 1 inhibitor of plasminogen activator by endothelial cells) were previously attributed to Ang II. Others effects, like renal and cerebral vasodilatation, are opposed to Ang II effects. The role of Ang IV in renal physiology remains to be determined. Ang II (1-7) exhibits direct and indirect effects, the latter resulting from Ang II (1-7)-dependent formation of nitric oxide and vasodilatory prostaglandins. Ang II (1-7) potentiates the hypotensive effect of bradykinin and plays also a major role in the control of the hydroelectrolytic balance. It possesses its own receptor: AT1-7, recognizable by (sar1-thr8) Ang II or Sarthran. Finally Ang II (1-7) is converted into Ango II (1-5), by angiotensin-converting enzyme. This peptide is inactive. All of these enzymes, peptides and receptors are present in kidney. Thus the
renin
-angiotensin system appears to be much more complicated than thought a few years ago, setting the problem of new therapeutic tools for the treatment of hypertension and glomerulosclerosis.
...
PMID:[Active metabolites derived from angiotensin II]. 985 79
Accumulating evidence suggests that angiotensin-(1-7)(Ang-(1-7)) is an important component of the
renin
-angiotensin system and that the actions of the peptide may either contribute to or oppose those of Ang II. Ang-(1-7) can be converted directly from Ang I bypassing prerequisite formation of Ang II. Formation of Ang-(1-7) is under the control of at least three endopeptidases depending on the tissue compartment and include
neprilysin
, thimet oligopeptidase and prolyl oligopeptidase. Both
neprilysin
and thimet oligopeptidase are also involved in the metabolism of bradykinin and the atrial natriuretic peptide. Moreover, recent studies suggest that in addition to Ang I and bradykinin, Ang-(1-7) is an endogenous substrate for angiotensin converting enzyme. These enzymatic pathways may contribute to a complex relationship between the hypertensive actions of Ang II and various vasodepressor peptides from either the
renin
-angiotensin system or other peptide systems. Ang-(1-7) is devoid of the vasoconstrictor, central pressor, or thirst-stimulating actions associated with Ang II. In fact, new findings reveal depressor, vasodilator, and antihypertensive actions that may be more apparent in hypertensive animals or humans. Thus, Ang-(1-7) may oppose the actions of Ang II directly or as a result of increasing prostaglandins or nitric oxide. In this review, we examine the mechanisms by which Ang-(1-7) may contribute to cardiovascular regulation.
...
PMID:Antihypertensive effects of angiotensin-(1-7). 987 88
Accumulating evidence suggests that angiotensin-(1-7) [Ang-(1-7)] is an important component of the
renin
-angiotensin system. As the most pleiotropic metabolite of angiotensin I (Ang I) it manifest actions which are most often the opposite of those described for angiotensin II (Ang II). Ang-(1-7) is produced from Ang I bypassing the prerequisite formation of Ang II. The generation of Ang-(1-7) is under the control of at least three enzymes, which include
neprilysin
, thimet oligopeptidase, and prolyl oligopeptidase depending on the tissue compartment. Both
neprilysin
and thimet oligopeptidase are also involved in the metabolism of bradykinin and the atrial natriuretic peptide. Moreover, recent studies suggest that in addition to Ang I and bradykinin, Ang-(1-7) is an endogenous substrate for angiotensin converting enzyme. This suggests that there is a complex relationship between the enzymatic pathways forming angiotensin II and other various vasodepressor peptides from either the
renin
-angiotensin system or other peptide systems. The antihypertensive actions of angiotensin-(1-7) are mediated by an angiotensin receptor that is distinct from the pharmacologically characterized AT1 or AT2 receptor subtypes. Ang-(1-7) mediates it antihypertensive effects by stimulating synthesis and release of vasodilator prostaglandins, and nitric oxide and potentiating the hypotensive effects of bradykinin.
...
PMID:Angiotensin-(1-7): a bioactive fragment of the renin-angiotensin system. 987 42
The orally active neutral metalloendopeptidase (NEP) inhibitor SCH34826 was given by oral gavage in a dose of 90 mg/kg twice daily for 3 days to rats with subtotal nephrectomy (n = 7) and effects were compared to a placebo group receiving phosphate buffer (n = 5). Inhibition of
neutral endopeptidase
in the remnant kidney was measured by in vitro autoradiography using the specific radioligand [125I]-SCH 47896. Treatment with the NEP inhibitor SCH34826 caused a 60% reduction in the
neutral endopeptidase
radioligand-binding site density in the kidneys of the SCH34826-treated animals compared to the placebo group (81.6+/-3.7 versus 214.5+/-4.2 dpm/mm2, p<0.01). This was associated with a marked increase in urinary atrial natriuretic peptide (ANP) from 3,930+/-295 to 9,094+/-1,089 pg/24 h in the SCH34826-treated group (p<0.01). Concomitantly there was a transient increase in natriuresis in the SCH34826-treated group [baseline 2.03+/-0.55 to 3.77+/-0.58 mmol/24 h on treatment day 1 (p = 0.02) and 2.58+/-0.19 mmol/24 h on treatment day 3 (p = 0.09)] which was not observed in the placebo group. Urinary protein excretion, glomerular filtration rate (determined by 99mTc-DTPA clearance), systemic blood pressure, plasma ANP concentration and urinary cyclic GMP excretion were not changed by SCH34826 treatment. These results suggest that oral administration of the NEP inhibitor SCH34826 inhibits renal
neutral endopeptidase
, increases urinary ANP and modulates natriuresis without alteration of systemic blood pressure, plasma ANP and
renin
level, glomerular filtration or protein excretion.
...
PMID:Effects of neutral endopeptidase inhibition in the rat remnant kidney model. 993 26
Brain natriuretic peptide (BNP) is increased in left ventricular impairment and
neutral endopeptidase
(
NEP
) is involved in its metabolism. In random order, eight patients with left ventricular impairment received placebo, a 4-h infusion of human BNP (3.0 pmol/kg min), a single oral dose of
NEP
inhibitor (SCH 42495, 300 mg), and combined BNP and SCH 42495. Plasma BNP, cGMP, and cortisol were significantly increased by all three treatments (P < 0.05-P < 0.001). Combined treatment had a synergistic effect on plasma cGMP. The metabolic clearance rate of exogenous BNP was reduced (25%) by
NEP
inhibition. Endogenous plasma ANP was augmented more than BNP by
NEP
inhibition. Plasma aldosterone, unchanged during infusions, rose markedly after BNP and after the combined treatment (P < 0.05 for both). Urine sodium excretion, increased by
NEP
inhibition (P < 0.05) and by BNP (P = 0.05), was unchanged during combined treatment. Urine cGMP excretion was increased, whereas blood pressure was reduced by all active treatments (P < 0.05-0.01 for all). Heart rate increased only with combined treatment (P = 0.007). Plasma
renin
activity, norepinephrine, and cardiac output were unaffected. BNP infusion and
NEP
inhibition both induced significant hemodynamic and renal responses. The augmented hypotensive effect of combined treatments, and consequent fall in renal perfusion pressure, may underly the observed blunting of the natriuretic response that occurred despite greater than additive increments in plasma BNP, ANP, and cGMP.
...
PMID:Brain natriuretic peptide and neutral endopeptidase inhibition in left ventricular impairment. 1002 44
Of the active fragments studied to-date, Ang-(l-7) is the most pleiotropic of the Ang I metabolities because it exerts effects that may be identical or opposite to those of Ang II. While much research remains to be done, accumulating evidence suggests that Ang-(1-7) stimulates the synthesis and release of vasodilator prostaglandins, augments the metabolic actions of bradykinin, and increases the release of nitric oxide. This explains why Ang-(1-7) activates antihypertensive mechanisms, particularly in situations of increased Ang II activity. In other words, Ang-(1-7) may act as a negative feedback hormone of the pressor and trophic actions of Ang II. The enzymes forming Ang-( 1-7) reinforce the idea that this peptide is a component of a vasodepressor system that regulates blood pressure. Both
neprilysin
and metalloendopeptidase 24.15 form Ang-(1-7) but also cleave bradykinin and atrial natriuretic peptide to smaller fragments. Our recent discovery that Ang-(1-7) is a major substrate for angiotensin converting enzyme (ACE) adds a new and important dimension to the understanding of the biochemical physiology of the
renin
angiotensin system. Moreover, these data explain why Ang-(1-7) augmentes the hypotensive effects of bradykinin and contributes to the antihypertensive actions of ACE inhibitors. While the bulk of the research in hypertension continues to emphasize the investigation of the cellular actions of Ang II, our research has introduced new concepts and uncovered new mechanisms through which angiotensin peptides control homeostasis and influence the pathogenesis of cardiovascular disease.
...
PMID:Angiotension-(1-7) and antihypertensive mechanisms. 1004 92
Heart-transplant recipients (Htx) generally present with body fluid and sodium handling abnormalities and hypertension. To investigate whether
neutral endopeptidase
inhibition (NEP-I) increases endogenous atrial natriuretic peptide (ANP) and enhances natriuresis and diuresis after heart transplantation, ecadotril was given orally to 8 control subjects and 8 matched Htx, and levels of volume-regulating hormones and renal water, electrolyte, and cyclic guanosine monophosphate (cGMP) excretions were monitored for 210 minutes. Baseline plasma ANP, brain natriuretic peptide (BNP), and cGMP were elevated in Htx, but
renin
and aldosterone, like urinary parameters, did not differ between groups. NEP-I increased plasma ANP (Htx, 20.6+/-2.3 to 33.2+/-5.9 pmol/L, P<0.01; controls, 7.7+/-1. 2 to 10.6+/-2.6 pmol/L) and cGMP, but not BNP. Renin decreased similarly in both groups, whereas aldosterone decreased significantly only in Htx. Enhanced urinary sodium (1650+/-370% versus 450+/-150%, P=0.01), cGMP, and water excretions were observed in Htx and urinary cGMP positively correlated with natriuresis in 6 of the Htx subjects. Consistent with a normal circadian rhythm of blood pressure, without excluding a possible effect of NEP-I, mean systemic blood pressure increased similarly in both groups at the end of the study (6.9+/-2.0% versus 7.4+/-2.8% in controls and Htx). Thus, systemic hypertension, mild renal impairment, and raised plasma ANP levels are possible contributory factors in the enhanced natriuresis and diuresis with NEP-I in Htx. These results support a physiological role for the cardiac hormone after heart transplantation and suggest that long-term studies may be useful to determine the potential of NEP-I in the treatment of sodium retention and water retention after heart transplantation.
...
PMID:Enhanced natriuretic response to neutral endopeptidase inhibition in heart-transplant recipients. 1020 32
Type 2 bradykinin (B2)-receptor antagonists have been used to define the role of endogenous kinin peptides. However, interpretation of the effects of B2-receptor antagonists has been limited by lack of information concerning the effects of these antagonists on endogenous kinin and angiotensin peptide levels. If kinin levels were subject to short-loop-feedback regulation mediated through B2 receptors, then a reactive increase in kinin levels might blunt the effects of B2-receptor antagonism and stimulate type 1 bradykinin receptors. Moreover, kinins have been implicated in the control of
renin
secretion. We investigated whether endogenous kinin levels are subject to short-loop-feedback regulation mediated by the B2 receptor and whether endogenous kinins acting through the B2 receptor influence plasma
renin
levels and circulating and tissue angiotensin peptide levels. The B2-receptor antagonist icatibant (1 mg/kg) was administered to rats by intraperitoneal injection, and circulating and tissue levels of angiotensin and kinin peptides were measured after 4 hours. Icatibant produced 75% occupancy of B2 receptors in the inner stripe of the renal medulla. Icatibant did not influence plasma levels of
renin
, angiotensinogen, angiotensin-converting enzyme,
neutral endopeptidase
, or circulating or tissue levels of angiotensin and bradykinin peptides. This study demonstrated that kinin levels are not subject to short-loop-feedback regulation mediated through B2 receptors and that endogenous kinin levels acting through the B2 receptor do not modulate the
renin
-angiotensin system.
...
PMID:Type 2 bradykinin-receptor antagonism does not modify kinin or angiotensin peptide levels. 1033 17
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