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)

In 11 healthy, normotensive young women taking contraceptive medication (Enovid) for at least one year, plasma levels of angiotensin II were significantly higher than in healthy male and female controls. No significant difference was seen in the serum activity of angiotensin I-converting enzyme measured in vitro. Although serum angiotensin I converting enzyme activity is stimulated in several conditions in which other components of renin-angiotensin-aldosterone system are increased, this is not the case during administration of estrogens.
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PMID:Angiotensin I-converting enzyme and angiotensin II levels in women receiving an oral contraceptive. 17 73

The angiotensin I converting enzyme (kininase II; peptidyl dipeptidase; EC3.4.15.1) has a dual function: it converts angiotensin I to angiotensin II and it inactivates bradykinin. Lung, kidney, guinea pig plasma and testicles are among the richest sources of the enzyme. Vascular endothelial cells and bursh borders of renal proximal tubular cells contain high concentrations of the enzyme. The availability of synthetic peptide inhibitors was a great help in establishing the function of converting enzyme in normal and pathological conditions.
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PMID:The angiotensin I converting enzyme. 19 Dec 98

Cultured endothelial cells provide a model for the study of interactions of vasoactive peptides with endothelium. Endothelial cell cultured from veins of human umbilical cords contain both angiotensin I converting enzyme (kininase II) and angiotensinase activities. Intact monolayers of cells can both activate angiotensin I and inactivate bradykinin when the peptides are added to culture flasks in protein-free medium. Intact suspended cells or lysed cells convert angiotensin I to angiotensin II, inactivate bradykinin, and hydrolyze hippuryldiglycine to hippuric acid and diglycine. These actions are inhibited by SQ 20881, the specific inhibitor of converting enzyme. The kininase activity of endothelial cells was partially inhibited by antibody to human lung converting enzyme. Endothelial cells also inactivate longer analogs of bradykinin, such as kallidin, methionyl-lysyl bradykinin, and bradykinin coupled covalently to 500,000 mol wt dextran. The endothelial cells retained converting enzyme activity through four successive subcultures, indicating that the enzyme is synthesized by the cells surface, and it is apparently a marker for endothelial cells, since cultured human fibroblasts, smooth muscle cells, and baby hamster kidney cells do not have it. Endothelial cells also contain an aminopheptidase which hydrolyzes both angiotensin II and the synthetic substrate, alpha-L-aspartyl beta-naphthylamide. The angiotensinase activity increased when the cells were lysed, which suggests that the enzyme is localized within the cells, Hydrolysis of both alpha-L-aspartyl beta-naphthylamide and angiotensin II was inhibited by omicron-phenanthroline, indicating that the enzyme is an A-tipe anigotensinase.
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PMID:Metabolism of vasoactive peptides by human endothelial cells in culture. Angiotensin I converting enzyme (kininase II) and angiotensinase. 19 71

By means of high voltage electrophoresis experiments it could be demonstrated that the dipeptide hydrolase present in the plasma of Bothrops jararaca is similar to the angiotensin I converting enzyme of human plasma. Therefore, angiotensin I can be considered as a probable natural substrate for this potent snake peptidase in contrast to bradykinin, which is excluded in that case, since this snake plasma was previously found to be deficient in intrinsic kinin releasing system. On the other hand, the presence of angiotensinase activity in this snake plasma could also be demonstrated. Through the pharmacological comparison of angiotensin II with the pressor peptide released from the Bothrops jararaca plasma by chymotrypsin, an indirect indication of the presence of angiotensinogen in the plasma of this reptile was obtained.
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PMID:Components of the renin-angiotensin system in the plasma of Bothrops jararaca. 20 19

Serum angiotensin I converting enzyme, identical with kininase II, was measured fluorometrically in patients with acute viral hepatitis (n=18), liver cirrhosis without (n=44) and with (n=19) ascites. In all groups of patients the enzyme was significantly elevated as compared to 44 healthy controls (p less than 0.001). No correlation could be found between angiotensin I converting enzyme activity and liver function tests (serum glutamic oxalacetic transaminase, serum glutamic pyruvic transaminase, total protein, albumin, bilirubin) or other parameters (serum potassium, serum sodium). High serum converting enzyme activity in chronic liver diseases might originate primarily from an altered pulmonary circulation and indicates higher conversion rate of angiotensin I by passage through the lungs as well as increased bradykinin degradation. The reason for the enzyme liberation in acute viral hepatitis is as yet uncertain.
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PMID:Changes of serum angiotensin I converting enzyme in patients with viral hepatitis and liver cirrhosis. 22 16

Purified peptidyl dipeptidase (angiotensin I converting enzyme or kininase II) from human lung or hog kidney is inhibited by commercially prepared plasma protein preparations, by human serum albumin and by the additive albumin stabilizer, acetyltryptophan. After the initial steps of purification, albumin was detected by immunodiffusion as a component in human lung peptidyl dipeptidase preparation. Fragment C of albumin (sequence 124-298) is a more potent inhibitor than the parent molecule (Ki = 1.7 X 10(-5)M). Reduction and carboxymethylation of five of the six S-S bridges in Fragment C yield the most potent noncompetitive inhibitor (Ki = 3 X 10(-6)M). Reduction of the sixth bridge raises the K1. This indicates that maintenance of the tertiary structure in Fragment C is of importance for the inhibition. Neither albumin nor Fragment C are substrates of the enzyme. Fragment C and its derivative also inhibit the inactivation of bradykinin by the purified human enzyme and by the peptidyl dipeptidase on the surface of intact cultured human endothelial cells.
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PMID:Inhibition of human peptidyl dipeptidase (angiotensin I converting enzyme: kininase II) by human serum albumin and its fragments. 23 85

1. The response of arterial blood pressure, plasma renin activity and plasma aldosterone concentration to inhibition of angiotensin I converting enzyme (kininase II) with captopril has been studied in patients with severe, treatment-resistant, malignant hypertension. 2. Nine patients with a past history of severe hypertension, supine diastolic blood pressure greater than 120 mmHg before conventional antihypertensive therapy and resistant to conventional antihypertensive therapy were studied. 3. Captopril administration resulted in a marked decrease in arterial blood pressure and plasma aldosterone concentration and an increase in plasma renin activity. 4. Although arterial blood pressure remained significantly below the values observed during the control period, pressure did tend to increase again after 3 days. Addition of hydrochlorothiazide kept arterial pressure significantly below pretreatment control values.
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PMID:Response of arterial blood pressure, plasma renin activity and plasma aldosterone concentration to long-term administration of captopril in patients with severe, treatment-resistant malignant hypertension. 39 84

1 The vascular bed of the tongue in situ was perfused with blood through the lingual arteries at a constant pressure in anaesthetized dogs. All drugs except for SQ 14,225 were administered intra-arterially.2 Prostaglandin F(2alpha) (PGF(2alpha)) produced a dose-dependent increase in blood flow through the lingual arteries (vasodilatation).3 Marked desensitization was observed on the vasodilator responses to repeated administration of PGF(2alpha).4 The vasodilator response to PGF(2alpha) was abolished by tetrodotoxin in doses that abolished the vasodilator response to electrical stimulation of the lingual nerve.5 The vasodilator response to PGF(2alpha) was not affected by hexamethonium in doses that almost abolished the vasodilator response to lingual nerve stimulation.6 The vasodilator responses to PGF(2alpha) and to lingual nerve stimulation were scarcely modified by (-)-hyoscyamine in doses that fully antagonized the vasodilator response to acetylcholine.7 Electrical stimulation of the vago-sympathetic trunk and noradrenaline produced a decrease in blood flow through the lingual arteries.8 These results indicate that the vasodilator response of the tongue to PGF(2alpha) is due exclusively to excitation of parasympathetic postganglionic neurones and that neuronal receptors involved are quite distinct from nicotinic receptors.9 Intravenous administration of SQ 14,225, an inhibitor of angiotensin I converting enzyme or kininase II, augmented the vasodilator responses to bradykinin and kallikrein but not that to lingual nerve stimulation.10 The results suggest that neither kallikrein nor*kinin (including bradykinin) is responsible for the parasympathetically induced vasodilatation in the tongue.
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PMID:Vasodilatation by prostaglandin F2alpha in the canine tongue through a parasympathetic mechanism. 66 1

The quantitative content estimation of kininogenases, kininases and related peptides have been made for Central Asian snake venoms: V. lebetina turanica and E. multisquamatus (gen. Vipera and Echis, fam. Viperidae), Ag. halys halys (gen. Agkistrodon, fam. Crotalidae) and N. oxiana (gen. Naja, fam Elapidae). It has been demonstrated, that all venoms investigated cause the contractile effect, when acting on isolated smooth muscle preparations. Kinin-like contractile activity was found in the low molecular weight fraction of the cobra venom. This action has the prolonged character as compared with bradykinin, but apart from it, results in the inactivation of the rat uterus because of cytotoxic components presence. The specific bradykinin-potentiating effect of the low molecular weight fraction of the E. multisquamatus venom has been discovered. It has been found, that the effect is connected with inhibition of the kininase II (angiotensin I converting enzyme, ACE). Two peptide inhibitors was isolated and characterized from this fraction.
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PMID:The kallikrein, kininase and related peptides activities in central Asian snake venoms. 133 25

In a group of 20 patients with active pulmonary sarcoidosis and in 20 healthy subjects, serum levels were determined of angiotensin I converting enzyme, immunoglobulins, and of the third and fourth complement components. An increased level of IgG and IgM was found in patients with sarcoidosis, as compared with the control group. High ACE levels were observed in the second and third phase of the disease. A tendency was also observed for simultaneous increase of IgG and ACE levels in patients with sarcoidosis.
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PMID:[Evaluation of the activity of angiotensin I converting enzyme (ACE) and of humoral immunity in patients with active pulmonary sarcoidosis]. 134 29


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