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:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The angiotensin I-converting enzyme in normal human urine was partially purified with ammonium surfate (3.2M), DEAE-Cellulose ion exchange chromatography (0-0.5M NaCl gradient), and Sephadex G 200 gel filtration. The enzyme was separated into three forms which had different molecular weights of 700000, 290000 and 40000, respectively. The enzymic biochemical characteristics of these three enzymes, however, were identical with regard to their inhibitory effects (bradykinin potentiator c, arg-pro-pro, o-phenanthroline and EDTA), Cl- dependency, optimal pH (8.3) and temperature (37 degrees C), and Km value (2.3mM). The enzymic activity was determined in five normal subjects in three conditions of dietary sodium intake (51, 153 and 340mEq for 5 days, respectively). The enzymic activity correlated well with the concentration of the excreted sodium (r = 0.87, p less than 0.001). There was no significant relation between the enzymic excretion and the concentration of the excreted potassium, nor between the activity and the creatinine excretion. It is suggested that the origin of urinary angiotensin I-converting enzyme is the kidney, and that the enzyme might regulate sodium excretion in cooperation with renal kallikrein-kinin system.
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PMID:[Clinical study on the angiotensin I-converting enzyme in human urine. (I) Partial purification, enzymic characteristics and excretion in normal subjects]. 628 86

Three structurally different drugs, MK421, SA446 and captopril, are angiotensin converting enzyme inhibitors. They induced a significantly greater fall in systolic blood pressure in sodium depleted rats than in sodium repleted ones. The combined administration of vasopressin or norepinephrine with MK421 eliminated the hypertensive effect of vasopressin or norepinephrine. Urinary kallikrein and kinin excretion were increased by MK421, SA446 or captopril in the sodium depleted rats whereas any significant changes in them were not observed in the sodium repleted rats. The combined administration of norepinephrine with MK421 induced further increases in urinary kallikrein and kinin excretion when compared to rats infused with norepinephrine alone, whereas the combined administration of vasopressin with MK421 did not induce any changes in them when compared to rats infused with vasopressin alone. Chronic infusion of captopril for up to 6 days in the rats induced a reduction of the vascular response to exogenous bradykinin; the blood pressure fall was less than that of the controls by 17% on Day 2 and by 18% on Day 6. These results indicate that the hypotensive response to angiotensin converting enzyme inhibitors was in part associated with the enhanced renal and vascular smooth muscle kallikrein-kinin system.
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PMID:Responses of the kallikrein-kinin system to angiotensin converting enzyme inhibitors in the rat. 632 15

Inhibition of angiotensin I-converting enzyme (ACE) (kininase II) provides a powerful new method for evaluating the role of the renin-angiotensin-aldosterone and kallikrein-kinin systems in the control of aldosterone secretion, renal function, and arterial blood pressure. This study compares the effects of long-term administration of a sulfhydryl inhibitor, captopril, with a nonsulfhydryl inhibitor, enalapril (1-[N-[1-(ethoxycarbonyl-3-phenylpropyl]-L-alanyl]-L-proline), in conscious sodium-deficient dogs. Plasma aldosterone concentration (PAC), plasma renin activity (PRA), urinary sodium excretion (UNaV), arterial pressure (AP), blood kinins (BK), urinary kinins (UK), and urinary kallikrein activity (UKA) were determined during long-term inhibition of ACE in sodium-deficient dogs. In response to captopril administration (20 mg/(kg . day], PAC decreased from 38.9 +/- 6.7 to 14.3 +/- 2.3 ng/dl, PRA increased from 3.58 +/- 0.53 to 13.7 +/- 1.6 ng/(ml . h), UNaV increased from 0.65 +/- 0.27 to 6.4 +/- 1.2 meq/day, AP decreased from 102 +/- 3 to 65 +/- 2 mm Hg, BK increased from 0.17 +/- 0.02 to 0.41 +/- 0.04 ng/ml, UK increased from 7.2 +/- 1.5 to 31.4 +/- 3.2 micrograms/day, and UKA decreased from 23.6 +/- 3.1 to 5.3 +/- 1.2 EU/day. Quantitatively similar changes in AP, UNaV, and PAC were observed in sodium-deficient dogs in response to long-term enalapril administration (4 mg/(kg X day]. In sodium-deficient dogs maintained on captopril or enalapril for several days, angiotensin II (AngII) infusion (3 ng/(kg X min] restored PAC, UNaV, and AP to levels observed in untreated sodium-deficient dogs. These data indicate that the long-term hypotensive and natriuretic actions of inhibitors of ACE are mediated by inhibition of AngII formation and that the renin-angiotensin system plays an essential role in regulating aldosterone secretion, renal function, and AP during sodium deficiency.
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PMID:Effects of captopril and enalapril on sodium excretion and blood pressure in sodium-deficient dogs. 632 26

The long-term effects of angiotensin I converting enzyme (kininase II) inhibition with Captopril on fluid and electrolyte metabolism, aldosterone secretion, renal function, and arterial pressure were evaluated in conscious sodium deficient dogs. Plasma aldosterone concentration (PAC), plasma renin activity (PRA), urinary sodium excretion (UNaV), arterial pressure (AP), renal blood flow (RBF), glomerular filtration rate (GFR), blood kinin concentration (BK), urinary kinin excretion (UK), and urinary kallikrein activity (UKA) were determined during long-term inhibition of angiotensin I converting enzyme (kininase II). In response to Captopril administration (20 mg/kg/day) PAC decreased from 38.9 +/- 6.7 to 14.3 +/- 2.3 ng/dl, PRA increased from 3.58 +/- 0.53 to 13.7 +/- 1.6 ng/ml/hr, UNaV increased from 0.65 +/- 0.27 to 6.4 +/- 1.2 mEq/day, AP decreased from 102 +/- 3 to 65 +/- 2 mmHg, RBF increased from 136 +/- 7 to 156 +/- 8 ml/min, GFR decreased from 65 +/- 8 to 36 +/- 7 ml/min, BK increased from 0.17 +/- 0.02 to 0.41 +/- 0.04 ng/ml, UK increased from 7.2 +/- 1.5 to 31.4 +/- 3.2 micrograms/day, and UKA decreased from 23.6 +/- 3.1 to 5.3 +/- 1.2 E.U./day. Aldosterone infusion in sodium deficient dogs maintained on Captopril failed to alter urinary sodium excretion, renal function, or arterial blood pressure. However, angiotensin II infusion (3 ng/kg/min) restored aldosterone secretion, renal function, and arterial blood pressure within three days to levels observed in untreated sodium deficient dogs. The marked alterations in renal function and urinary sodium excretion during angiotensin II infusion indicate that angiotensin II is several times more potent than aldosterone in the long-term control of sodium excretion. Also, our studies demonstrated that the long-term hypotensive and natriuretic actions of inhibitors of angiotensin I converting enzyme (kininase II) are mediated by inhibition of angiotensin II formation.
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PMID:Role of the renin-angiotensin-aldosterone and kallikrein-kinin systems in the control of fluid and electrolyte metabolism, renal function, and arterial blood pressure. 675 46

In all mammals investigated so far, an amount of 0.1 - 1 biological unit (KU) of hog pancreatic kallikrein per kg body weight injected intravenously caused a fast reduction in blood pressure with one exception, the rat. Even 1000 times higher doses of hog pancreatic kallikrein did not reduce the blood pressure in this animal. In spite of many experiments performed with rats using hog pancreatic kallikrein to influence various metabolic pathways, there has been no proof, to date, that this enzyme also causes kallikrein-specific effects via kinin liberation in rats. We found only a slow and weak reduction of rat blood pressure after injection of 100 KU hog pancreatic kallikrein per rat, when the endogenous kininases had been previously inactivated by the kininase II inhibitor captopril. However, a fast reduction in blood pressure, similar to the response observed after kinin injection, could be recorded if 90 microliter rat blood, previously incubated for a few minutes with a least 20 k.u. hog pancreatic kallikrein in the presence of captopril, was reinjected. Hence, kinin liberation from rat kininogens by hog pancreatic kallikrein does occur, but proceeds so slowly that the fast kinin degradation by kininases can prevent the typical blood pressure effect of kinin in vivo.
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PMID:Effect of hog pancreatic kallikrein on blood pressure in rats. 691 95

Dihydralazine (0.1 mg/kg), injected intravenously into male Sprague-Dawley rats, caused a decrease in mean arterial blood pressure and an increase in renal plasma flow, while urine volume remained unchanged. Dihydralazine had no effect on kallikrein excretion in the urine and on kallikrein activity in the renal cortex. No correlation was found between renal kallikrein and either renal plasma flow or mean arterial blood pressure. The excretion of kinins in the urine rose markedly after the administration of dihydralazine; no correlation between urinary kinins and urinary or renal kallikrein was observed. Dihydralazine had no influence on the kininogen content of blood-free renal cortex. The enzymatic activity of kininase II in renal cortex was not impaired by dihydralazine. It is suggested that the increased formation of kinins within the kidney could be involved in the vasodilating and blood pressure lowering effect of dihydralazine.
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PMID:Effect of dihydralazine on the renal kallikrein-kinin system of the rat. 691

Responses of smooth muscle to kallikreins (EC 3.4.21.8) are generally considered to result from kinin formation. This premise was reexamined with the isolated rat uterus. Rat urinary kallikrein or bradykinin produced dose-dependent contractions of rat uterus but kallikrein was 5-fold more potent than bradykinin. Kallikrein caused an immediate series of rhythmic contractions which could be increased gradually with subsequent addition of kininogen substrate. Kallikrein-induced contractions were unaffected by carboxypeptidase B or a bradykinin antiserum whereas bradykinin-induced contractions were attenuated or abolished. Other serine proteinases, including trypsin, either did not induce contraction in the absence of added kininogen or did so minimally. Although small amounts of kininogen-like substrate were found in uterine tissue, detectable kinin levels (greater than 4 pg) could not be found in bathing media during maximal kallikrein-induced contractions or after uterine tissue was incubated with high concentrations of the enzyme in the presence of SQ 20881, a kininase II inhibitor. The data suggest that uterine contraction produced by a homologous kallikrein does not involve kinin formation but results from an action of this serine proteinase upon other accessible systems coupled to the contractile response.
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PMID:Kallikrein-induced uterine contraction independent of kinin formation. 694 18

The effects of captopril (SQ 14.225), an orally active inhibitor of angiotensin converting enzyme, were investigated in a dose titration study of primary hypertension. In 32 patients 4 weeks titration with captopril gave a mean blood pressure (BP) reduction of 26/16 mmHg supine and 30/16 mmHg standing. No serious side effects were observed. The BP lowering effect was related to pretreatment plasma renin activity and was less in low renin hypertension (p less than 0.05). Captopril reduced angiotensin II (p less than 0.05), plasma (p less than 0.005) and urinary aldosterone (p less than 0.001) as well as urinary kallikrein excretion (p less than 0.005). Captopril (SQ 14.225) is a competitive inhibitor of peptidyl dipeptide hydrolase, also known as angiotensin converting enzyme (ACE) or kininase II, which converts angiotensin I (A I) into angiotensin II (A II), hydrolyzes des-Asp-angiotensin I to angiotensin III (A III) and inactivates bradykinin (BK) (19). Captopril has potent antihypertensive effects when used in human hypertension (review, 3) especially when the renin-angiotensin-aldosterone system (RAAS) is activated. To further investigate the mode of action and the hypotensive effect of captopril, we measured plasma renin activity (PRA), A II, plasma (PA) and urinary aldosterone excretion (UA) and urinary kallikrein excretion (UK) in 32 patients with established primary (essential) hypertension.
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PMID:Captopril in primary hypertension. Effects related to the renin-angiotensin-aldosterone and kallikrein-kinin systems. 701 90

We attempted to determine the level of sweat kallikrein (kininogenase) and to purify and characterize it using sweat collected over a white petrolatum barrier. Thermally induced eccrine sweat obtained from 24 healthy subjects showed kallikrein activity of 24.4 ng kinins generated/1 mg of sweat protein when heated plasma was used as the substrate and 16.1 ng kinin when purified low molecular weight bovine kininogen was used as the substrate. Sweat was sequentially purified by Sephacryl S-200, diethyaminoethyl Sephacel, and fast flow liquid chromatography Mono Q chromatography. Sweat kallikrein had a M(r) of 40,000 and was inhibited by aprotinin but not by soybean trypsin inhibitor. The peptide generated by sweat kallikrein was identified as lys-bradykinin using reverse phase high-performance liquid chromatography and by its amino acid sequence. Anti-human urinary kallikrein immunoglobulin G neutralized the sweat kallikrein activity completely, indicating that the sweat kallikrein is the glandular type. Purified sweat and salivary kallikrein showed similar M(r) and responses to inhibitors and antibodies. Using immunohistochemistry, kallikrein activity was localized in luminal ductal cells and in the peripheral rim of secretory coil segments, presumably the outer membrane of the myoepithelium. We also observed kininase activity in sweat at M(r) 160,000, which was inhibited by ethylenediamine tetraacetic acid, captopril, and angiotensin converting enzyme inhibitor peptide, indicating that it is kininase II (or angiotensin converting enzyme). Sweat also contains abundant non-kallikrein hydrolases for S-2266 and S-2302. The demonstration of glandular kallikrein, its tissue localization, and the presence of kininase II in sweat provide the basis for future studies on the physiologic role of the kallikrein/kinin system in the eccrine sweat gland.
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PMID:Human eccrine sweat contains tissue kallikrein and kininase II. 750 64

Angiotensin converting enzyme (ACE, i.e., kininase II), a key regulator of kinins and angiotensin II (ANG II) generation, is developmentally regulated and its expression is induced at a specific time point (day 15) of postnatal kidney development. The present study tested the hypothesis that endogenous kinins and ANG II regulate the developmental expression of the renal ACE gene. In the first protocol, newborn rats received the kallikrein inhibitor, aprotinin (100,000 KIU.kg-1.day-1 sc), or the kinin B2 receptor antagonist, HOE-140 (600 micrograms.kg-1.day-1 sc), or 0.9% saline, from birth until postnatal days 5, 15, or 20. Aprotinin prevented the postnatal rise in renal kallikrein activity without affecting blood pressure in either developing or adult rats. Chronic kallikrein blockade significantly attenuated the postnatal induction of both serum ACE activity (-11% vs. controls) and kidney ACE activity and mRNA (-50% vs. controls). In addition, aprotinin attenuated the postnatal rise of ACE activity in the developing lungs. Kidney renin mRNA and ANG II contents were not altered by aprotinin. HOE-140 also attenuated the postnatal rise in kidney ACE mRNA (-25%) and activity (-40%) without affecting blood pressure. Infusion of aprotinin or HOE-140 via osmotic minipumps for 7 days in adult rats was not associated with any changes in renal or pulmonary ACE.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Developmental regulation of ACE gene expression by endogenous kinins and angiotensin II. 754 38


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