The kallikrein-kinin system in the colon and lung fluid from a cribriform degeneration (cri) mutant mouse

The cribriform degeneration (cri) mutant mouse was widely studied in regard to the electrolyte and kallikrein metabolism because of its potentiality as a cystic fibrosis (CF) genetic animal model. In this paper the activity of the kallikrein-kinin system, and the kininase activity and glycoproteins concentration in colon and pulmonary lavage fluid (PLF) in homozygous mutant (cri/cri) and control sibling mice are described. The mutant mice showed a diminished kininogenase and kininase activity and glycoproteins concentrations in both studied organs. It is concluded that a kallikrein-kinin system alteration could be responsible of the cri/cri electrolyte defect.     

Sexual difference in kininase activity in the mouse submandibular gland

A marked sexual difference in kininase activity was found in the adult mouse submandibular gland. The activity was over 3-fold higher in females than in males between 10 and 12 weeks of age. Castration of male mice increased kininase activity up to the level of females. Testosterone administration to castrated males restored enzyme activity to about the normal level. Moreover, testosterone administration to normal females decreased enzyme activity to about the level of normal male mice, while ovariectomy had no effect. These results suggest that kininase activity in the mouse submandibular gland is suppressively regulated by endogenous androgen.     

Synergistic effects of thyroxine and glucocorticoid in induction of trypsin-like esteroprotease in mouse submandibular gland.

The actions of thyroxine, 5 alpha-dihydrotestosterone and hydrocortisone singly or in combination in enzyme regulation in the submandibular gland were studied in intact and adrenalectomized female mice. 1. Adrenalectomy decreased the activity of trypsin-like esteroprotease (EC 3.4.4.-), and administration of hydrocortisone to adrenalectomized mice restored the activity to normal. 2. Hydrocortisone and thyroxine had synergistic effects in induction of esteroprotease in adrenalectomized mice, but 5 alpha-dihydrotestosterone and hydrocortisone did not have synergistic effects in either intact or adrenalectomized mice. 3. The activity of glucose-6-phosphate dehydrogenase (EC 1.1.1.49) was not influenced by change in the glucocorticoid level, but was increased by thyroxine and 5 alpha-dihydrotestosterone in both adrenalectomized mice and intact mice.4. Isoelectric focusing in polyacrylamide gel showed that there are three distinct activities of esteroprotease in this gland with isoelectric points of 5.6, 6.2 and 7.3. Both thyroxine and 5 alpha-dihydrotestosterone similarly induced these activities and glucocorticoids did not affected the isozyme patterns induced by the other two hormones.     

Regulation of trypsin-like esteroprotease synthesis by 5 alpha-dihydrotestosterone and triiodothyronine in mouse submandibular gland.

The hormonal regulation of trypsin-like esteroprotease synthesis in mouse submandibular gland was studied at the isozyme level. Antiserum to a mixture of two purified esteroproteases precipitated all the esteroproteases in a crude extract of this gland. Measurement of incorporation of [3H]leucine showed that total esteroprotease synthesis was stimulated by both 5 alpha-dihydrotestosterone and triiodothyronine and that the two hormones had synergistic effects. The observed correlation between the increases of synthetic rate and specific activity of this enzyme suggests that the enzyme level is regulated mainly by the rate of enzyme synthesis. Newly synthesized esteroprotease-antibody complexes gave four peaks of radioactivity with esteroprotease activity and one peak without enzyme activity on isoelectric focusing in acrylamide gel containing 8 M urea. The radioactivities of these five peaks were increased similarly by the two hormones separately or in a combination. These results suggest that the actions of androgens and thyroid homrones in esteroprotease synthesis are indistinguishable at the isozyme level.     

Umbilical plasma kininase I activity in fetal hypoxia.

To shed light on the role of bradykinin in preeclampsia in addition to acute hypoxia, we measured the activity of kininase I, the enzyme responsible for its degradation, in umbilical plasma. Kininase I activity in umbilical arteries was compared with that in the umbilical veins. The relationship between kininase I and pH values was also evaluated in women with and without preeclampsia. Also, enzyme activity in supernatants of fetal hepatic cells (NFL/T) cultured under hypoxic or normoxic conditions were determined. Kininase I activity levels in fetal umbilical arteries and veins (n = 33) were similar (r = 0.77). Hypoxia caused suppression of kininase I activity in the supernatant cultures of NFL/T after one hour. However, after 8 and 24 hours, kininase I activity was significantly greater than under normoxic conditions (p < 0.05). Kininase I activity of fetal umbilical vein significantly decreased in the presence of acidemia in the uncomplicated group (n = 75, r = 0.42), whereas the activity negatively correlated with umbilical arterial pH in the preeclamptic group (n = 10, r = - 0.65). Kininase I activity levels in cases complicated with preeclampsia were significantly higher than without preeclampsia (49.2 +/- 9.1 vs. 66.2 +/- 11.3 nmol/ml/min). The present study indicates that kininase I acts as a regulatory factor in bradykinin degradation.     

Proliferative response of mouse submandibular gland to androgen but not to thyroid hormone

Hormone-induced differentiation and proliferation of cells were investigated in the submandibular gland of castrated female mice, by determining the esteroprotease activity and 3H-thymidine labelling index, respectively. Injections of 5 alpha-dihydrotestosterone (4 micrograms/g body weight/day) or L-thyroxine (0.5 microgram/g body weight/day) induced a significant increase in the activity of esteroprotease, which has been shown to be localized in the convoluted tubule cells of the submandibular gland. Injections of the above-mentioned dose of 5 alpha-dihydrotestosterone for 3 days induced a 43-fold increase in the labelling index of the convoluted tubule cells, but injections of the above-mentioned dose of L-thyroxine for any duration did not induce a significant increase in the labelling index. The present result suggests that hormones which induce differentiation of cells in mouse submandibular gland do not necessarily induce cell proliferation.     

Potentiation of bradykinin effects and inhibition of kininase activity in isolated smooth muscle.

Prolongation of bradykinin half-life following kininase inhibition has been proposed as the reason for the potentiation of kinin effects. We have reassessed this assumption by using three different isolated smooth muscle preparations and simultaneously studying the inhibition of kininase activity and the potentiation of bradykinin effects by enalaprilat and BPP9a. Rat duodenum displayed higher total kininase activity, metabolizing half of the added bradykinin in 6.5 min, while this time for rat uterus was greater than 60 min. Guinea-pig ileum showed the intermediate value of 14.6 min. Enalaprilat and BPP9a slowed the metabolism of bradykinin by 50-100% in rat duodenum and by 50-180% in guinea-pig ileum, showing that a significant fraction of total kininase activity appears to be due to kininase II. In rat duodenum, an almost complete blockade of kininase activity was achieved when bacitracin and mergetpa were used together with enalaprilat. Enalaprilat and BPP9a potentiated bradykinin effects in guinea-pig ileum and rat uterus. In contrast, bradykinin-induced relaxations and contractions in rat duodenum were not potentiated by enalaprilat, BPP9a, or by the enzyme inhibitor mixture (enalaprilat--bacitracin--mergetpa). The results suggest that inhibition of bradykinin enzymatic metabolism by kininases does not necessarily lead to the potentiation of bradykinin effects.     

Increased serum kininase I activity in pregnancy complicated by pre-eclampsia

Serum kininase I activity was measured in normal pregnancy and pre-eclampsia. The mean value in nonpregnant controls was 180 +/- 25 (SD) nmol/min/ml. Kininase I activity during normal pregnancy significantly increased after week 14, reaching the highest value (240 +/- 20 nmol/min/ml) at weeks 38 and 40. The kininase I activity in pregnancy complicated by severe pre-eclampsia was higher than that in normal pregnancy. The possible role played by elevated kininase I levels in pre-eclampsia was discussed.     

Proliferative Response of Mouse Submandibular Gland to Androgen But Not to Thyroid Hormone

Abstract. Hormone-induced differentiation and proliferation of cells were investigated in the submandibular gland of castrated female mice, by determining the esteroprotease activity and ³H-thymidine labelling index, respectively. Injections of 5α-dihydrotestosterone (4 μg/g body weight/day) or l -thyroxine (0.5 μg/g body weight/day) induced a significant increase in the activity of esteroprotease, which has been shown to be localized in the convoluted tubule cells of the submandibular gland. Injections of the above-mentioned dose of 5α-dihydrotestosterone for 3 days induced a 43-fold increase in the labelling index of the convoluted tubule cells, but injections of the above-mentioned dose of l -thyroxine for any duration did not induce a significant increase in the labelling index. the present result suggests that hormones which induce differentiation of cells in mouse submandibular gland do not necessarily induce cell proliferation.     

Prostaglandin-induced storage and secretion of esteroproteases in the mouse submaxillary gland

The submaxillary glands of adult C3H mice which received intraperitoneal injections of prostaglandins F2 alpha and E2 (PGF2 alpha and PGE2) were examined biochemically and ultrastructurally. Results indicated that the specific activity of esteroprotease in an homogenate of submaxillary glands was significantly increased when mice were treated with PGF2 alpha (96 or 480 micrograms/kg), and decreased when they were treated with PGE2 (96 or 480 micrograms/kg). Ultrastructural findings were correlated with these biochemical data. Thus, it appeared that PGF2 alpha stimulated the secretion and synthesis of bioactive proteins, and that PGE2 stimulated only the secretion.     

Kallikrein and amylase contents in tissues from a mutant mouse model for human cystic fibrosis

Kallikrein and amylase activities are decreased in the pancreas and salivary glands from $\text{cri/cri}$ homozygote mutant mice. Kallikrein is decreased in the $\text{cri/cri}$ kidney too. With reference to nucleic acid concentrations there is no difference between control and mutant mice. The previously described electrolyte abnormalities of the cribriform degeneration $\text{(cri)}$ mutant mouse, could be due to the abnormal activity of the kallikrein-kinin system on the transport mechanism of tubular cells in the organs mentioned. These findings represent a new step on our efforts to develop a useful animal model for human cystic fibrosis research.     

Cattle tick Boophilus microplus salivary gland contains a thiol-activated metalloendopeptidase displaying kininase activity

This work reports on the characterization of a metalloendopeptidase kininase present in Boophilus microplus salivary glands. Using the guinea pig ileum assay, salivary gland whole extracts (SGE) were found to have a potent kininase activity. Ion-exchange chromatography separated two kininase activities from SGE. The major enzymatic component, eluted at lower ionic strength, was named BooKase (Boophilus Kininase). Analysis of the hydrolysis products by capillary electrophoresis identified Phe5-Ser6 as the only hydrolyzable peptide bond in bradykinin after BooKase treatment. This is the same specificity as the mammalian thimet oligoendopeptidase (EC 3.4.24.15). Like this enzyme, BooKase is also a metallo-peptidase (requires Mn2+) and is activated by-SH protecting reagents. In addition, BooKase was partially inhibited by cFP-AAF-pAB, a specific inhibitor of thimet oligopeptidase. Contrary to other kininases, BooKase had no activity upon angiontensin I. Our results show that BooKase behaves as a typical peptidase with kinase activity.     

Carboxypeptidase N (kininase I) activity in blood and synovial fluid from patients with arthritis

Carboxypeptidase N (CPN, kininase I) and kininase II (angiotensin converting enzyme) activities were measured simultaneously in blood plasma and synovial fluid in patients suffering from rheumatoid arthritis (RA), psoriatic arthritis (PA) and osteoarthritis (OA) and in the plasma of normal volunteers. CPN levels (defined as the rate of hydrolysis of furylacryloyl-Ala-Lys) in blood were modestly increased and correlated with erythrocyte sedimentation rate in RA and PA. Based on the hydrolysis of synthetic substrates, CPN activity was much higher than kininase II activity in synovial fluid (SF). SF kininase activities were always inferior to the blood levels in all patients and were correlated with the logarithm of SF leukocyte counts, an indicator of the intensity of inflammation. In addition, CPN and albumin levels in SF were highly correlated when expressed as a percent of the plasma concentrations. Biochemical properties of CPN in crude SF confirmed its similarity to blood CPN. Polymorphonuclear leukocytes derived from inflammatory SF did not release CPN. It is concluded that kininases diffuse from the blood into SF through increased vascular permeability and that CPN could be a major metabolic pathway for kinins in this form of exudate. CPN leads to the formation of des-Arg kinins, selective agonists of the B1 receptors for kinins.     

Changes in the activity of enzymes of renin-angiotensin and kinin systems in the rat brain after adrenalectomy and administration of hydrocortisone

It is shown that the activity of enzymes participating in renin-angiotensin and brain kinin systems' metabolism depends on functional state of hypothalamo-pituitary-adrenocortical system. Under experimental hypocorticism the activity of angiotensin-converting enzyme and kininase I in the hypothalamus, hippocamp, corpus striatum and rat pituitary decreases; the renin-like enzyme activity decreases in the corpus striatum but increases in the hypothalamus and hippocamp. After hydrocortisone administration to adrenalectomized rats the angiotensin-converting enzyme activity of the hippocamp and pituitary is shown to be normalized as well as renin-like enzyme and kininase I of the hippocamp and corpus striatum. The activity of the studied enzymes in the hypothalamus decreases in this case.     

Liver-derived IGF-I regulates exploratory activity in old mice

Growth hormone (GH) replacement in hypopituitary patients improves well-being and initiative. Experimental studies indicate that these psychic effects may be reflected in enhanced locomotor activity in mice. It is unknown whether these phenomena are mediated directly by GH or by circulating IGF-I. IGF-I production in the liver was inactivated at 6-10 wk of age (LI-IGF-I-/- mice), resulting in an 80-85% reduction of circulating IGF-I, and, secondary to this, increased GH secretion. Using activity boxes on three different occasions during 1 wk, 6-mo-old LI-IGF-I-/- mice had similar activity levels, and 14-mo-old mice had a moderate but significant decrease in activity level, compared with control mice. At 20 mo of age, the LI-IGF-I-/- mice displayed a more prominent decrease in activity level with decreased horizontal activity throughout the test period, and at day 1, there were several signs of an altered habituation process with different time patterns of locomotor activity and horizontal activity compared with the control mice. At days 3 and 5, rearing activity was lower in the 20-mo-old LI-IGF-I-/- mice. Anxiety level was unaffected in all age groups, as measured using the Montgomery's elevated plus-maze. In conclusion, old LI-IGF-I-/- mice displayed a decrease in both horizontal and rearing (exploratory) activity level and an altered habituation process. These results indicate that liver-derived IGF-I mediates at least part of the effects of GH on exploratory activity in mice.     

Tissue specificities of protease A-like esteroprotease in male mice

An esteroprotease hydrolyzing p-tosyl-L-arginine methyl ester (TAME) has been purified to homogeneity from male mice submandibular glands by the ammonium sulphate precipitation, Sephadex gel chromatography and DEAE-cellulose chromatography. The enzyme was shown as a single chain acidic protein (pI = 5.7) with the molecular weight of 27.5 K and evidence was obtained to reveal that it was similar to protease A. Using this enzyme as antigen we prepared anti-TAMEase antibody. The immunoblotting studies on tissue specificity using 20 different tissues from male mice revealed that cross-reactivities with anti-TAMEase antibody were observed in the crude extract from the sublingual gland, parotid gland and pancreas. The species specificity studies with the submandibular glands of 7 different species indicated that only the crude extract from rat submandibular glands reacted against anti-TAMEase antibody but it exerted a low TAMEase activity.     

The kininases of Bothrops jararaca plasma

Evidence is presented to suggest that kininase activity of Bothrops jararaca plasma is due to the presence of at least three distinct enzymes: a carboxypeptidase B type enzyme, similar to that found in human plasma in that its activity is enhanced by Co2+ (1 X 10(-4) M); a carboxypeptidase B type enzyme whose activity is unaffected by Co2+, and an enzyme which cleaves bradykinin to liberate Phe-Arg as the major peptide fragment formed. The latter enzyme is responsible for the major kininase activity of this snake plasma and is identified as a dipeptide hydrolase.     

Compensatory increase in adrenomedullary angiotensin-converting enzyme activity (kininase II) after unilateral adrenalectomy

Angiotensin-converting enzyme (ACE, kininase II, dipeptidyl carboxypeptidase, EC 3.4.15.1) was characterized in the adrenal medulla of male Sprague-Dawley rats. Rat adrenal medulla and lung ACE were similar in their susceptibility to Cl- activation and to the inhibition by EDTA, captopril, bacitracin and thiorphan, suggesting that rat adrenal medulla and lung ACE have similar properties. Changes in right adrenal weight and in adrenomedullary ACE activity 5 and 12 days following left unilateral adrenalectomy (UADX) were examined. Compensatory adrenocortical hypertrophy 12 days following UADX was associated with a significant increase in adrenal medullary ACE activity. This change was due not to a modified affinity of ACE for the substrate but to an alteration in ACE maximal velocity or number of available molecules. UADX had no effect on adrenocortical ACE activity. When UADX was combined with right splanchnic denervation, the increase in adrenomedullary ACE activity was blocked. The results support the existence of a functional ACE in adrenal medulla that is under neuronal control.     

Isolation of brain endopeptidases: influence of size and sequence of substrates structurally related to bradykinin.

Two thiol-activated endopeptidases with pH optima near pH 7.5 were isolated from the supernatant fraction of rabbit brain homogenates by DEAE-cellulose chromatography, gel filtration and isoelectrofocusing. Peptide bond hydrolysis was measured quantitatively by ion-exchange chromatography with an amino acid analyzer. Brain kininase A hydrolyzes the Phe5-Ser6 peptide bond in bradykinin (Bk), Arg1-Pro2-Pro3-Gly4-Phe5-Ser6-Pro7-Phe8-Arg9. It is isoelectric near pH 5.2 and has a molecular weight of approximately 71 000. The enzyme also hydrolyzes the Phe-Ser peptide bond in Lys-Bk, Met-Lys-Bk, des-Arg1-Bk, Lys9-Bk, Pro-Gly-Phe-Ser-Pro-Phe-Arg, and Gly-Pro-Phe-Ser-Pro-Phe-Arg, but does not hydrolyze (0.1%) this bond in des-Phe8-Arg9-Bk. Brain kininase B hydrolyzes the Pro7-Phe8 peptide bond in Bk. It is isoelectric at pH 4.9 and has a molecular weight of approximately 68 000. Brain kininase B also hydrolyzes the Pro-Phe bond in Lys-Bk, Met-Lys-Bk, Lys9-Bk, Ser-Pro-Phe-Arg, and Phe-Ser-Pro-Arg. Pretreatment of denatured kininogen with brain kininase A or B did not reduce the amount of trypsin-releasable Bk from this precursor protein, indicating that the Bk sequence, when part of a large protein, is not a substrate for either enzyme. However, kininase A and B hydrolyze the octadecapeptide Gly-Leu-Met-Lys-Arg-Pro-Pro-Gly-Phe-Ser-Pro-Phe-Arg-Ser-Val-Gin-Val. The data show that a large part of the C-terminal portion of bradykinin is important for the brain kininase A activity and, for both enzymes, the size of the peptide and presumably the residues adjacent to the scissle bond are important in determining the rate of peptide bond hydrolysis by these endopeptidases.