EC:3.4.23.15 - FACTA Search

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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)

Genes for the small human glandular kallikrein gene family were isolated. Members of this family include renal/pancreatic kallikrein, prostate-specific antigen and a kallikrein encoded by the first gene that was isolated and completely sequenced, hGK-1. All share strong nucleotide sequence homology, although hGK-1 and the prostate-specific antigen gene are more closely related (86% identity in coding nucleotides). Renal/pancreatic kallikrein has 77% nucleotide homology to prostate-specific antigen, but only 60% amino acid homology. There is strong homology in the 5'-flanking DNA with mouse kallikrein genes, suggesting common regulatory mechanisms. In the rat one-kidney, one clip model of hypertension, renal kallikrein messenger (m)RNA increased during the initial transient rise in plasma renin, and then decreased.
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PMID:Kallikrein genes: cloning in man and expression in rat renal hypertension. 324 Dec 25

Inactive renin-like enzyme(s) in the arterial wall of the rat are converted to active renin-like enzyme in vitro by either "acid activation" (dialysis to pH 3.3 followed by dialysis to pH 7.4) or "protease-induced activation" (trypsin, alpha-chymotrypsin and glandular kallikrein). The molecular weights of the inactive renin-like enzyme(s) before trypsin activation were estimated to be about 68,000, 44,000, 36,000 and 30,000 by column chromatography. These findings may offer a new aspect for the role of the arterial renin-angiotensin system in the local control of vascular tone by interconversion of the inactive to the active renin-like enzymes in the arterial wall.
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PMID:Evidence for existence of inactive arterial renin-like enzyme in the rat. 388 57

The effects of orally administered glandular kallikrein on urinary kallikrein, aldosterone and prostaglandin E (PGE) excretion, plasma renin activity (PRA), immunoreactive 6-keto PGF1 alpha and thromboxane B2 concentrations and platelet aggregation were studied in 12 patients with essential hypertension (EH). After a 2-week control period, each patient was given orally 450 KU/day of hog glandular kallikrein for 8 weeks. Urinary kallikrein, aldosterone and PGE excretion, and plasma 6-keto PGF1 alpha and thromboxane B2 concentrations were measured by radioimmunoassay. Platelet aggregation was measured by the addition of ADP, collagen or ristocetin with an aggregometer. Urinary kallikrein excretion and plasma 6-keto PGF1 alpha concentration were significantly decreased in patients with EH. There were no significant differences in PRA, urinary aldosterone excretion and plasma thromboxane B2 concentrations between control subjects and patients with EH. There was a significant decrease in blood pressure in patients with EH coinciding with significant increases of urinary kallikrein and PGE excretion and plasma immunoreactive 6-keto PGF1 alpha concentration after administration of glandular kallikrein. There was also a significant inhibition of platelet aggregation induced by collagen in these patients. Thus, a suppression of the kallikrein-kinin-prostaglandin system in patients with EH was found, and a decrease in blood pressure with an increment of urinary kallikrein, PGE excretion, plasma immunoreactive 6-keto PGF1 alpha and inhibition of platelet aggregation in vivo by the administration of glandular kallikrein.
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PMID:Effects of orally administered glandular kallikrein on urinary kallikrein and prostaglandin excretion, plasma immunoreactive prostanoids and platelet aggregation in essential hypertension. 388 84

The biochemical properties of renin, extracted from human pituitary specimens obtained at autopsy, were studied using a specific antirenin antibody raised against human kidney renin. The following results were obtained. The molecular weight of pituitary renin was estimated to be about 37,000 daltons by gel filtration through Sephadex G-100. The optimum pH of pituitary renin was between 6.0 approximately 7.0, while that of a renin-like substance which did not react with the antirenin antibody had an acidic pH of 4.0, with a pH comparable to that of the cathepsin D-like enzyme in the pituitary tissue. The presence of two different isoelectric-point species of pituitary renin was revealed by isoelectric focusing, one with a point of pH 4.47 and the other with that of pH 5.77. The Km value of pituitary renin was 37.9 microM for synthetic human renin substrate. Affinity chromatography of the pituitary renin on a Concanavalin-Sepharose column showed that most (87.4%) of the pituitary renin did not contain glycoprotein residues. Treatment with either trypsin or glandular kallikrein increased the renin activity, indicating the presence of an inactive form of renin in the pituitary tissue. From these findings, it is concluded that specific renin exists in human pituitary tissue. It seems likely that the pituitary renin is of local origin rather than contamination of the circulating enzyme.
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PMID:[Biochemical properties of renin in human pituitary tissue]. 389 64

Inactive renin in the brain of spontaneously hypertensive rat was investigated. The results are as follows. Treatment with either trypsin or glandular kallikrein of the brain tissue extract caused a rapid and apparent increase in the renin activity at either 0 or 27 degrees C. The molecular weight of the active renin was estimated to be 41,000 or 50,000 daltons, while that of the trypsin-activatable inactive renin was found to be 44,000 or 57,000 daltons on a column chromatography with Sephadex G-100. The contents of the active renin was the highest in the hypothalamus, followed by the striatum, thalamus, midbrain, medulla oblongata, cerebral cortex and cerebellum, while the contents of the trypsin-activatable inactive renin was the highest in the hypothalamus, followed by the striatum, thalamus, cerebellum, midbrain, cerebral cortex and medulla oblongata. These results suggest that inactive renin(s) exist in the brain of spontaneously hypertensive rat. It seems likely that the brain renin-angiotensin system is modulated by the conversion of inactive to active renin(s), which, in turn, plays at least in part a role in the blood pressure regulation through generation of angiotensin II in spontaneously hypertensive rats.
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PMID:[Evidence for the existence of inactive renin in the rat brain. Part II. Distribution of inactive renin in the brain of spontaneously hypertensive rats]. 391 7

Renin-like enzyme(s) in the arterial wall of the spontaneously hypertensive rat (SHR) were activated markedly by either acidic pH or treatment of proteolytic enzymes (trypsin and glandular kallikrein). The highest concentration of renin-like enzyme (active form) was localized in the renal artery (2.51 +/- 0.59 ng angiotensin I generated/mg of protein per h, mean +/- S.D.), followed by the mesenteric (1.58 +/- 0.31), the carotid (1.44 +/- 0.27) and the major aortic trunk (0.20 +/- 0.10), while the highest concentration of the inactive renin-like enzyme was localized in the major aortic trunk (0.97 +/- 0.18), followed by the carotid (0.72 +/- 0.41), the renal (0.71 +/- 0.31) and the mesenteric (0.60 +/- 0.29) arteries. In addition, the active renin-like activity from the mesenteric and the carotid arteries of SHR rats was higher significantly than that of age-matched normotensive Wistar-Kyoto (WKY) rats, despite a similar concentration of total renin-like enzyme of the corresponding arteries of both groups. These results suggest that increased interconversion of the inactive to the active renin-like enzymes in the arterial wall of SHR rats may result in local vasospasm through generation of angiotensin II, which may contribute in part at least to systemic hypertension of SHR rats.
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PMID:Active and inactive renin-like enzymes in the arterial wall of the spontaneously hypertensive rat. 391 27

Rat renal lymph contains 254 +/- 17 ng/ml (means +/- SEM, N = 20) of immunoreactive glandular kallikrein. Like the immunoreactive glandular kallikrein in plasma, it is biologically inactive. Gel filtration of renal lymph reveals profiles for immunoreactive glandular kallikrein, protein, and inhibition of trypsin and kallikrein which resemble those seen for plasma except that high molecular weight plasma components are reduced or missing in renal lymph. In contrast, gel filtration of thoracic lymph reveals immunoreactive glandular kallikrein and protein profiles which are indistinguishable from those seen with plasma. Renin levels are 170-fold higher in renal lymph than in thoracic lymph while angiotensin-converting enzyme levels are only 16% those of thoracic lymph. In keeping with the high renin and low converting enzyme activities, renal lymph contains high levels of angiotensin I. Immunoreactive glandular kallikrein levels in renal lymph, thoracic lymph and plasma do not show the striking differences observed for renin.
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PMID:Kallikrein-kinin and renin-angiotensin systems in rat renal lymph. 608 86

Recently several reports have been presented stating that glandular kallikrein is present in human and animal blood, and that the oral administration of hog pancreatic kallikrein (HPK) normalises decreased urinary kallikrein and prostaglandin E2 (PGE2) excretions and elevated blood pressure in hypertensive patients. In this study, HPK (2,000 KU/kg body weight) was intramuscularly injected into male rabbits, and several hormones (plasma kinins, plasma PGE, plasma 6-keto PGF1 alpha, plasma thromboxane B2 (TXB2), plasma renin activity (PRA), plasma aldosterone, plasma ACTH) were measured before and after HPK administration in order to clarify the role of glandular kallikrein in the blood. Plasma kinins concentrations were significantly increased (the mean baseline level: 1 +/- 1 pg/ml (mean +/- S.E.), 30 min: 230 +/- 22 (p less than 0.001), 60 min: 288 +/- 36 (p less than 0.001), and 120 min: 130 +/- 9 (p less than 0.001] after HPK administration. Plasma levels of PGE were slightly increased after HPK administration, but the change was not significant as compared with the mean baseline level. Plasma levels of 6-keto PGF1 alpha were significantly increased from the mean baseline level of 229 +/- 38 pg/ml to 594 +/- 131 (p less than 0.05) at 30 min and to 378 +/- 67 (p less than 0.01) at 60 min but were decreased to 278 +/- 37 at 120 min after HPK administration. On the other hand, the changes in plasma TXB2, aldosterone and ACTH concentrations, and PRA were not significant before and after HPK administration. From the present study, it was clarified that the exogenous intramuscular administration of HPK increased plasma levels of kinins and PGI2, but induced no elevation in plasma levels of other hormones including PRA. Therefore, it was concluded in this acute experiment that there was a close relationship between the kallikrein-kinin system and PGs.
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PMID:[The effects of hog pancreatic kallikrein on the plasma kinins-prostaglandins and renin-angiotensin-aldosterone systems]. 609 84

Tonin is an enzyme found in the rat submaxillary glands which liberates angiotensin II from angiotensinogen, the Skeggs tetradecapeptide renin substrate, and angiotensin I. Tonin hydrolyzes benzoyl-arginine ethyl ester, benzoyl-arginine methyl ester, tosyl-arginine methyl ester, benzoyl-arginine p-nitroanilide and other small synthetic substrates at an optimum ph of 9.0. Tonin shows, however, a great specificity with respect to angiotensin I. Tonin is inhibited by diisopropyl fluorophosphate and phenylmethylsulfonyl fluoride at high concentrations (greater than 10(-2) M) and by soybean trypsin inhibitor and aprotinin. Tonin is thus an esteroprotease of the class of the serine protease with trypsin- and chymotrypsin-like activity. Tonin belongs to the same family of enzyme as glandular kallikrein and the gamma subunit of the nerve growth factor.
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PMID:Tonin, an esteroprotease from rat submaxillary glands. 626 71

Completely inactive renin was isolated from normal human plasma by DEAE-Sepharose column chromatography and Blue-Sepharose column chromatography. This inactive renin had a molecular weight of 54,000 daltons as determined by gel filtration on Ultrogel AcA 44. When the inactive renin was activated by trypsin, its molecular weight decreased to 48,000 daltons. The trypsin-activated renin differed from a native form of active renin in plasma with respect to molecular weight (active renin, 43,000), pI value (active renin, 5.20; trypsin-activated renin, 5.06), km value (active renin, 60 nmoles/liter; trypsin-activated renin, 89 nmoles/liter), Ki value for pepstatin A (active renin, 2.6 mumoles/liter; trypsin-activated renin 5.0 mumoles/liter) and pH profile for angiotensin formation. Glandular kallikrein (human urinary or pig pancreatic) did not activate the inactive renin. When the trypsin-activated renin was treated with glandular kallikrein, its activity was unchanged, but its molecular and kinetic properties except pI value (trypsin-activated kallikrein-treated renin, 4.82) coincided with those of a native form of active renin in plasma. These results indicate that glandular kallikrein does not directly activate inactive renin but participates in the activation process of inactive renin. The results also suggest that inactive renin in human plasma is a renin precursor.
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PMID:Role of glandular kallikrein in the activation process of human plasma inactive renin. 633 49

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