EC:3.4.21.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this paper, we present the amino-terminal sequence of rat tonin, an endopeptidase responsible for the conversion of angiotensinogen, the tetradecapeptide renin substrate, or angiotensin I to angiotensin II. It is shown that isoleucine and proline occupy the amino- and carboxy-terminal residues respectively. The N-terminal sequence analysis permitted the identification of 34 out of the first 40 residues of the single polypeptide chain composed of 272 amino acids. These results showed an extensive homology with the sequence of many serine proteases of the trypsin-chymotrypsin family. This information, coupled with the slow inhibition of tonin by diisopropylfluorophosphate, classified this enzyme as a selective endopeptidase of the active serine protease family.
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PMID:N-Terminal amino acid sequence of rat tonin: homology with serine proteases. 21 93

Plasma and serum of healthy subjects apparently contain a precursor form of renin, or 'prorenin,' which can be activated by the ice-cold temperature at which samples are customarily handled for prolonged periods in laboratories and blood banks. The effect of such prior cryoactivation for 9 days at 4 degrees C is to increase subsequent plasma renin activity (PRA) at 37 degrees C by 108 +/- 16.3% (mean +/- SE) over the nonactivated control value (P less than 0.001). At a lower temperature (-4 degrees C), the cryoactivation effect is considerably greater than at 4 degrees C. Cryoactivation is not obliterated by the prefreezing of plasma, or reduced by inclusion of bacteriostats. Nor is it attributable to any detectable reduction in angiotensinase activity. In rats, cryoactivation at 4 degrees C is much lower than in humans, suggesting a marked species difference either in prorenin concentration or in the rapidity of its spontaneous conversion after blood collection. Trypsin at near optimal concentrations also consistently activates human plasma prorenin, whether at 4, 23, or 37 degrees C indicating that cold is not an essential concomitant of tryptic activation. In excess, the magnitude of which varies among individuals, trypsin at first produces activation and later a decline in PRA, probably due to degradation of the reactants (prorenin, renin, angiotensinogen) and of the initial product (angiotensin I). The identity of angiotensin I in activated and control plasmas can be established by specific radioimmunoassay, and bioassay. Our data indicate that tryptic activation involves little direct production of angiotensin I but rather converts prorenin, thereby enhancing the angiotensin generating capacity of the plasma renin system itself. Tryptic activation in plasma of anaesthetized dogs is lower than in humans, but higher than in conscious or anaesthetized rabbits in whom the effect appears to be slight. In anaesthetized rats there is virtually no tryptic activation, which is in line with the results by cryoactivation. Since the renin--angiotensin systems of dogs, rabbits, and rats have been extensively studied in experimental models of human hypertension, these observed departures from human levels of cryoactivation and tryptic activation of prorenin deserve further investigation.
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PMID:Cryoactivation and tryptic activation of blood 'prorenin' in normal man and animals. 70 20

The renin inhibitory activity of 2-[4-(4'-chlorophenoxy)phenoxyacetylamino]ethylphosphorylethanolamine (PE-104) was examined in vitro and in vivo. PE-104 inhibited the reaction between dog renal renin and homologous plasma angiotensinogen. The Ki value was 2 mM and the inhibitory mode was competitive and reversible. Data concerning the relationship between renin inhibitory activity and the chemical structure indicated that the whole structure was required for inhibitory activity of PE-104. PE-104 did not inhibit the caseinolytic activities of pepsin, papain and trypsin at 10 mM, the dose of which inhibited renin activity by more than 80%. In normotensive rats, infusion of PE-104 (20 mg/kg/min) abolished increases in blood pressure, plasma renin activity and plasma angiotensin I concentration after injection of renin. In two kidney model renal hypertensive rats, infusion of PE-104 resulted in decreases in blood pressure, plasma renin activity and plasma angiotensin I concentration.
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PMID:Renin inhibitory effect of 2-[4-(4'-chlorophenoxy)phenoxyacetylamino]-ethylphosphorylethanolamine (PE-104) in vitro and in vivo. 90 77

A naturally occurring competitive inhibitor of pig kidney renin has been identified in human plasma. The inhibitor was shown to be alpha-1 anti-trypsin and the effect in vitro on the renin activity was examined. The slope in the Hill plot is compatible with the assumption of one-site competitive inhibition. Other proteinase inhibitors, such as alpha-2-macroglobulin and C1 inactivator, however, have no inhibitory effect on the renin-angiotensinogen reaction.
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PMID:alpha-1-Anti-trypsin, an inhibitor of renin. 108 51

Two closely related kallikrein-like proteinases having little activity toward the standard synthetic amide substrates of tissue kallikreins were isolated from the rat submandibular gland. They were found to be the protein products of the rKlk2 (tonin) and the rKlk9 genes by amino acid sequence analysis (nomenclature of the genes and proteins of the kallikrein family is according to the proposal of the discussion panel from the participants of the KININ '91 meeting held Sept. 8-14, 1991, in Munich, Germany). These two proteinases of similar structure also had very similar physicochemical properties. They differed from other kallikrein-related proteinases in having high pHi values of 6.20 (rK2) and 6.85 (rK9). Kallikrein rK2 was purified as a single peptide chain, whereas rK9 appeared as a two-chain protein after reduction. Their enzymatic properties were also very similar and differed significantly from those of other rat kallikrein-related proteinases. Unlike the five other kallikrein-related proteinases we have purified so far, kallikrein rK9 was not inhibited by aprotinin. rK9 also differed from rK2 by its tissue localization. The prostate gland contained only rK9 where it was the major kallikrein-like component. The amino acids preferentially accommodated by the proteinase S3 to S2' subsites were identified using synthetic amide and protein substrates. Unlike other kallikrein-related proteinases, rK2 had a prevalent chymotrypsin-like specificity, whereas rK9 had both chymotrypsin-like and trypsin-like properties. Both rK2 and rK9 preferred a prolyl residue in position P2 of the substrate and did not accommodate bulky and hydrophobic residues at that position, as did most of the other kallikrein-related proteinases. This P2-proline-directed specificity is necessary for processing the precursors of several biologically active peptides. Subsites accommodating residues COOH-terminal to the scissile bond were also important in determining the overall substrate specificity of these proteinases. rK2 and rK9 both showed a preference for hydrophobic residues in P2'. Other subsites upstream of the S3 subsite were found to intervene in substrate binding and hydrolysis. The restricted specificity of rK2 and rK9 is consistent with the presence of an extended substrate binding site, and hence with a processing enzyme function. Their P1 specificities enabled both proteinases to release angiotensin II from angiotensinogen and from angiotensinogen I, but rK9 was at least 100 times less active than rK2 on both substrates. The substrate specificities of rK2 and rK9 were correlated with key amino acids defining their substrate binding site.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Protein products of the rat kallikrein gene family. Substrate specificities of kallikrein rK2 (tonin) and kallikrein rK9. 131 52

Cleavage of prorenin's prosegment causes irreversible formation of renin. In contrast, renin activity is reversibly exposed when prorenin is acidified to pH 3.3. Nonetheless, acidification of plasma results in irreversible activation of prorenin, because endogenous proteases cleave the prosegment of acid-activated prorenin. Chilling of plasma results in irreversible cryoactivation of prorenin. In this study we investigated whether cryoactivation of purified prorenin is reversible. The intrinsic renin activity of recombinant human prorenin was measured by an enzyme kinetic assay using partially purified human angiotensinogen as substrate. Results are expressed as a percent (mean +/- S.E.) of the maximal activity exposed after limited proteolysis by trypsin. The intrinsic renin activity of two pools (0.3 and 0.06 Goldblatt units/ml) was 1.5% +/- 0.3 and 1.2% +/- 0.6 at 37 degrees C. Activity increased to 19% +/- 0.3 and 26% +/- 0.5 after incubation at 0 degrees C and to 5.4% +/- 0.5 and 2.1% +/- 1.2 at room temperature. Cryoactivation did not occur in buffers containing more than 1 M NaCl. It took 8 min at 37 degrees C or 180 min at room temperature for cryoactivated prorenin to lose half of its intrinsic renin activity. It took 48 and 26 h, respectively, at 0 degree C for the two pools of prorenin at 37 degrees C to regain half of their maximum intrinsic activity at 0 degrees C. A direct immunoradiometric assay that detects active renin but not prorenin was able to detect cryoactivated prorenin. These results show that human prorenin can be reversibly cryoactivated in buffers of low ionic strength and has greater intrinsic activity at room temperature than at 37 degrees C.
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PMID:Reversible cryoactivation of recombinant human prorenin. 160 50

Prorenin determination in rat plasma has been problematic from the outset. Consequently, its existence is questioned by some and its quantity by others, making it difficult for knowledge to advance as to its function relative to the renin system. The present study examines major variables in the determination of rat plasma prorenin and renin, notably different prorenin activation protocols involving blood samples obtained under various conditions from animals under different anesthetics. We found that a trypsin activation step with 5 mg/mL plasma, 60 min at 23 degrees C, followed by a PRA step of 10 min at 37 degrees C, resulted in the highest prorenin estimates, up to approximately 400 ng.mL-1.h-1 in terms of angiotensin I, as compared with published values of 0-190, based on other protocols. These estimates were obtained despite considerable destruction of angiotensinogen (renin substrate) by trypsin. Cryoactivation of prorenin was much less effective than in human plasma but, when followed by trypsin, it facilitated greater activation than with trypsin alone. Comparable fresh and fresh-frozen plasmas had similar prorenin-renin values, but lower values were observed in plasmas that had been repeatedly frozen and thawed. Conscious rats and those anesthetized with Inactin or ether had higher renins and prorenins than those anesthetized with methoxyflurane or halothane. Rats with kidneys in place during blood collection had higher renins (but not prorenins) than those whose kidneys were clamped off, suggesting that last-minute renin release during blood collection had occurred. We conclude that (i) trypsin generates increased renin, or renin-like, activity in plasma, suggesting activation of a precursor; (ii) on this basis, high prorenin levels exist in normal rat plasma; (iii) renin and prorenin levels are variously influenced by different anesthetics and blood handling procedures; (iv) variation in prorenin levels suggests that it is a dynamic (functional?) component of the renin system; (v) prorenin measurements are heavily influenced by methodological variations during the trypsin step or the subsequent PRA step; (vi) using standardized methodology, the rat can serve as a model for investigating the function of prorenin in normotension and hypertension.
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PMID:Activation and measurement of plasma prorenin in the rat. 175 34

In a new method for measurement of inactive rat plasma renin, the trypsin generated angiotensin I immunoreactive material, which was HPLC characterized as similar to tetradecapeptide renin substrate, is removed by a cation exchange resin before the renin incubation step. The method also corrects for trypsin destruction of endogenous angiotensinogen by the addition of exogenous angiotensinogen. When measured with this method inactive renin in rat plasma decreased after nephrectomy and increased after adrenalectomy. This is in accordance with findings in humans. A sexual dimorphism of prorenin (inactive renin) in rat plasma, similar to that reported in humans and mice, was demonstrated. Thus, inactive renin in the rat is no exception among species, and the rat might be a suitable animal model for further studies dealing with the physiology of prorenin in plasma and tissues.
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PMID:Measurement of inactive renin in normal, nephrectomized, and adrenalectomized rats. 175 42

We have studied the effects of bilateral nephrectomy and adrenalectomy on angiotensinogen concentration, plasma renin activity, and total plasma renin activity obtained after trypsin activation in rats and compared with controls. Our results show that the plasma angiotensinogen concentration of nephrectomized (NX) rats is 5-fold higher than that of adrenalectomized (AX) rats. On the other hand, plasma angiotensinogen concentration of AX rats was about 2.5-fold lower than that of control rats. While NX rat plasma possess no renin activity, its mixing (1:1, v/v) with AX plasma results in 2-fold increase in renin activity over that observed for AX plasma alone. These results suggest that the apparent increase in renin activity upon mixing these two plasmas is at least partly due to an overall increase in angiotensinogen concentration in the mixture. To show that it is not due to activation of NX plasma prorenin by a convertase from AX plasma, prorenin-free NX rat plasma was prepared by using an anti-renin immunoaffinity column. When this prorenin-free NX plasma was mixed (1:1, v/v) with AX, again a 2-fold increase in renin activity was observed which is attributed to the overall increase in plasma angiotensinogen in the mixture. It is concluded that rat plasma prorenin is probably not activated within the circulation by a prorenin convertase from the rat kidney.
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PMID:Effect of angiotensinogen concentration on renin activity following nephrectomy and adrenalectomy: implications in the activation of plasma prorenin. 208 76

In this paper we describe a routine method of measuring inactive renin in rat plasma. The activation was performed by trypsin, at optimal concentration and incubation conditions. The trypsin treatment formed an interfering and high-performance liquid chromatography-verified tetradecapeptide-like material, which was removed before the assay by a simple batchwise use of a cation-exchange resin. The concentration of activated inactive renin was measured by an antibody-trapping method after the addition of exogenous angiotensinogen. Angiotensinogen was added in order to compensate for the trypsin destruction of angiotensinogen and in order to measure the parameter of renin concentration. The inactive renin concentration in plasma of conscious male rats was 0.48 +/- 0.13 Goldblatt units (GU) per litre (n = 38). This corresponds to 66% (range 42-92%) of the total renin concentration. Physiological experiments in conscious rats were initiated, demonstrating that nephrectomy decreased the inactive renin concentration from 0.45 +/- 0.14 to 0.27 +/- 0.05 GU/l after 24 h (n = 21; P less than 0.01). Submandibular sialoadenectomy decreased the plasma inactive renin concentration from 0.45 +/- 0.11 to 0.34 +/- 0.06 GU/l (n = 12; P less than 0.05) after 7 days. Combined sialoadenectomy and nephrectomy decreased the plasma inactive renin concentration from 0.45 +/- 0.11 to 0.24 +/- 0.06 (n = 12; P less than 0.01).
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PMID:Measurement of inactive renin in rat plasma: effect of nephrectomy and sialoadenectomy on the plasma concentration. 216 Apr 91

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