UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study was designed to determine whether the kallikrein-kinin system exerts a protective action in hypertension induced by chronic inhibition of nitric oxide synthase. N omega-nitro-L-arginine methyl ester (L-NAME, 40 mg/100 ml water) was given orally to Sprague-Dawley rats, while controls received regular tap water. Hepatic kininogen mRNA levels in the L-NAME-treated group were 2.9- and 2.5-fold higher at 3 and 4 wk, respectively, compared with control rats, whereas kallikrein-binding protein (KBP) mRNA levels were 82% and 45% of the values found in control rats at 3 and 4 wk, respectively. There was no significant change in hepatic alpha 1-antitrypsin mRNA levels under the same conditions. At 3 and 4 wk post L-NAME treatment, renal kallikrein mRNA levels were 2.5- and 3.4-fold higher than in controls, whereas renal beta-actin mRNA levels were similar between groups. Changes in the transcript levels of renal kallikrein, kininogen, and KBP were consistent with their protein levels. Immunoreactive total kininogen and low-Mr kininogen levels in sera and tissue kallikrein levels in kidney were significantly higher in the L-NAME-treated group, whereas KBP levels in the circulation were lower compared with controls. Systolic blood pressure was increased by 58 +/- 4 mmHg after 4 wk of L-NAME treatment. This effect was enhanced in rats given L-NAME in combination with HOE-140, a bradykinin B2-receptor antagonist, at the dose of 100 micrograms/day ip (79 +/- 5 vs. 58 +/- 4 mmHg, P < 0.05). This difference was confirmed by direct measurement of mean blood pressure (MBP). An intra-arterial bolus injection of 200 ng bradykinin significantly decreased MBP of L-NAME-treated rats, and this effect was blunted in the group treated with the bradykinin antagonist (-29 +/- 3 vs. -9 +/- 2 mmHg, P < 0.01). These results suggest that enhanced kallikrein and kininogen synthesis may have a protective role against the cardiovascular effects induced by chronic inhibition of nitric oxide synthesis.
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PMID:Differential regulation of kallikrein, kininogen, and kallikrein-binding protein in arterial hypertensive rats. 876 Feb 46

Frusemide (f) is a potent natriuretic and diuretic that acts mainly on the luminal side of the ascending loop of Henle (Schlatter et al. (1983) Pflug. Arch. 396: 210-217). F increases the urinary excretion of prostaglandin (PG) E (Mackay et al. (1984) Contr. Nephrol. 41: 160-162) and its diuretic and natriuretic effects are blunted by indomethacin, suggesting that PGs are involved in the cellular action of this drug (Chennavasin et al. (1980) J. Pharmacol. Exp. Ther. 215: 77-81; Waller et al. (1987) Arch. Pharmacodyn. Ther. 290: 145-150). Several investigators have shown a rapid but short-lived rise in urinary kallikrein (UK) excretion after F administration in man, which could represent a 'wash-out' phenomenon rather than indicating a direct involvement of the kallikrein-kinin system (KKS) in mediating the action of F (Zschiedrich et al. (1979) Clin. Sci. 57: 247-250; Waller et al. (1987); Waller et al. (1990) Clin. Sci. 79: 117-121). However, using a mouse model, 5 days treatment with F has been shown to stimulate renal cortical tubular messenger RNA for tissue kallikrein (Penchow and Coghlan (1994) J. Hypertension 12 (Suppl. 3): 887). Urinary excretion of the components of the KKS is believed to reflect the intra-renal activity of the system (Bhoola et al. (1992) Am. Soc. Pharmacol. Exp. Ther. 44: 1-80). Therefore, if the KKS is directly involved in the natriuretic action of F, a dose-related release of the active components of the system would be expected. This study was designed to examine the effect of three intravenous (i.v.) doses of F on the urinary excretion of components of the renal KKS and the relationships of these components with the excretion of water, electrolytes and F.
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PMID:The acute effects of intravenous frusemide on the renal kallikrein kinin system in man: relationship to dose. 879 87

Tissue kallikrein is a serine proteinase which processes kininogens to release bioactive kinins. Kinins mediate a variety of biological processes through the interaction with kinin receptors. Kinins are involved in the regulation of blood pressure and local blood flow, vasodilation, smooth muscle contraction and relaxation, production of pain and inflammation, and stimulation of cell proliferation. The tissue kallikrein-kinin system has been implicated in a number of pathophysiological processes such as hypertension, allergy and diabetes mellitus. In the present study, we have identified the expression and localization of components of the kallikrein-kinin system in the human eye by reverse transcription-polymerase chain reaction (RT-PCR) and Southern blot analyses, and in situ hybridization histochemistry. RT-PCR and Southern blot analyses have detected mRNAs of the key components of the system including tissue kallikrein, low molecular weight kininogen, and bradykinin B1 and B2 receptors at high levels in human retina, choroid and ciliary body, and relatively low levels in the optic nerve. In situ hybridization has identified cellular localization of these four mRNAs in ocular tissues. They are expressed in retinal neuronal cells including the outer nuclear layer, inner nuclear layer and ganglion cell layer. These mRNAs were also identified in endothelial cells of ocular blood vessels, ciliary muscle and lens epithelial cells. The sense riboprobes showed negative staining, which indicates the specificity of the antisense riboprobes. These results suggest that the tissue kallikrein-kinin system is produced endogenously in human ocular tissues. Similar expression patterns of kallikrein, kininogen and kinin receptors indicate that the kallikrein-kinin system may function in an autocrine or paracrine fashion in the eye.
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PMID:Expression and cellular localization of the kallikrein-kinin system in human ocular tissues. 898 60

Human kallistatin, or human tissue kallikrein-binding protein (HKBP), is a serine proteinase inhibitor (serpin). Transgenic mice overexpressing rat kallikrein-binding protein are hypotensive. To elucidate therapeutic potentials of kallistatin in hypertension, the human kallistatin gene in an adenoviral vector was directly introduced into spontaneously hypertensive rats (SHR) through portal vein injection. The kallistatin cDNA construct (RSV-cHKBP) under the promoter control of Rous sarcoma virus 3' long terminal repeat (LTR) was incorporated into adenovirus (Ad.RSV-cHKBP). Recombinant kallistatin in 293 cells transfected with RSV-cHKBP or Ad.RSV-cHKBP was measured by ELISA and by its complex formation with tissue kallikrein. A single intraportal vein injection of Ad.RSV-cHKBP at a dose of 8 x 10(10) pfu results in a significant reduction of blood pressure of SHR for 4 weeks. Human kallistatin mRNA was detected in the liver, spleen, kidney, aorta, and lung of rats receiving gene delivery. Immunoreactive human kallistatin in rat serum was detected at the highest level 1 day post injection and at lesser amounts in rat tissues. This study shows that adenovirus harboring Ad.RSV-cHKBP produces functional kallistatin, and adenovirus-mediated transfer of the human kallistatin gene reduces blood pressures of SHR. The results suggest that kallistatin may function as a vasodilator in vivo and provide important information for a potential gene therapy approach to hypertension.
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PMID:Adenovirus-mediated delivery of human kallistatin gene reduces blood pressure of spontaneously hypertensive rats. 904 1

We investigated whether long-term infusion of kallikrein would attenuate renal injury in salt-induced hypertension in Dahl salt-sensitive (Dahl S) rats. A subdepressor dose of purified rat urinary kallikrein (RUK) (700 ng/day) was infused intravenously by an osmotic minipump for 4 weeks in male Dahl S rats fed a high-salt (2% NaCl) diet. This dose did not affect the time-dependent elevation of blood pressure. However, urinary protein excretion was significantly decreased, and the glomerular filtration rate was increased. These beneficial effects were reflected morphologically by an attenuation of the glomerulosclerotic lesions and tubular injury seen in the hypertensive Dahl S rats. The kallikrein infusion increased the urinary excretion of bradykinin and stimulated the excretion of cyclic GMP, suggesting that the kallikrein-kinin-prostaglandin and nitric oxide axes were enhanced by the RUK infusion. The alterations induced by such infusion were potentiated by the concomitant administration of the angiotensin converting enzyme inhibitor alacepril. These studies indicated that long-term replacement with rat tissue kallikrein attenuates renal injury in hypertensive Dahl S rats, and this is probably mediated by an enhanced function of the kallikrein-kinin-prostaglandin and nitric oxide systems.
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PMID:Long-term infusion of kallikrein attenuates renal injury in Dahl salt-sensitive rats. 916 Jul 87

Kallistatin is a serine proteinase inhibitor which binds to tissue kallikrein and inhibits its activity. The aim of this study is to evaluate if kallistatin has a direct effect on the vasculature and on blood pressure homeostasis. We found that an intravenous bolus injection of human kallistatin caused a rapid, potent, and transient reduction of mean arterial blood pressure in anesthetized rats. Infusion of purified kallistatin (0.07-1.42 nmol/kg) into cannulated rat jugular vein produced a 20-85 mmHg reduction of blood pressure in a dose-dependent manner. Hoe 140, a bradykinin B2-receptor antagonist, had no effect on the hypotensive effect of kallistatin yet it abolished the blood pressure-lowering effect of kinin and kallikrein. Relaxation of isolated aortic rings by kallistatin was observed in the presence (ED50 of 3.4 x 10(-9) M) and in the absence of endothelium (ED50 of 10(-9) M). Rat kallikrein-binding protein, but not kinin or kallikrein, induced vascular relaxation of aortic rings. Neither Hoe 140 nor Nomega-nitro--arginine methyl ester, a nitric oxide synthase inhibitor, affected vasorelaxation induced by kallistatin. Kallistatin also caused dose-dependent vasodilation of the renal vasculature in the isolated, perfused rat kidney. Specific kallistatin-binding sites were identified in rat aorta by Scatchard plot analysis with a Kd of 0.25+/-0.07 nM and maximal binding capacity of 47.9+/-10.4 fmol/mg protein (mean+/-SEM, n = 3). These results indicate that kallistatin is a potent vasodilator which may function directly through a vascular smooth muscle mechanism independent of an endothelial bradykinin receptor. This study introduces the potential significance of kallistatin in directly regulating blood pressure to reduce hypertension.
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PMID:Kallistatin is a potent new vasodilator. 920 51

The tissue kallikrein-kinin system has been postulated to play a role in blood pressure homeostasis and the pathogenesis of clinical hypertension. To demonstrate the potential therapeutic effects of somatic gene delivery in treating hypertension, we used spontaneously hypertensive rats (SHR) as a model. The gene encoding the human tissue kallikrein was used because of its powerful hypotensive action. The human kallikrein DNA constructs were placed under the control of the metallothionein metal response element, the cytomegalovirus promoter/enhancer or the Rous sarcoma virus 3'-LTR. The human tissue kallikrein DNA constructs were incorporated into adenoviral vectors via homologous recombination. The naked plasmid DNA constructs or adenovirus containing the kallikrein gene were first introduced into kidney 293 cells and the expression of human tissue kallikrein was identified by ELISA. The kallikrein gene was delivered into SHR via intramuscular, intravenous, portal vein, intraperitoneal, and intracerebroventricular routes. A single injection of naked human kallikrein DNA constructs caused a prolonged reduction of high blood pressure for up to 8 weeks. Adenoviral-mediated gene delivery results in high efficiency of human tissue kallikrein expression. Immunoreactive human kallikrein was detected in rat serum at the highest level at 1 day post gene delivery. Portal vein delivery of a reporter gene, AdCMV-LacZ, results in intense staining of beta-galactosidase in rat liver, suggesting that recombinant kallikrein is mainly produced in liver and secreted into the circulation. These results show that kallikrein gene delivery causes a sustained reduction of blood pressure in genetically hypertensive rats and provide important information for a potential gene therapy approach to human hypertension and related diseases.
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PMID:Kallikrein gene therapy: a new strategy for hypertensive diseases. 922 51

Increased renal production of vasodilator mediators like kinins would counteract the vasospasm of pre-eclampsia. This study examines the cellular localisation of tissue kallikrein (TK), the potent kinin forming enzyme within the nephron of patients with early onset pre-eclampsia. Using the peroxidase-antiperoxidase immunoenzyme complex, TK was immunolocalised in the principal cells of the distal connecting tubule and the cortical collecting duct cells of the distal nephron of control tissue. Moderate reactivity was observed in the epithelial cells lining the Bowmans capsule. In early onset pre-eclampsia, TK was additionally localised in the proximal tubule cells, however, the intensity of reactivity was reduced when compared to that of the distal tubule cells. In patients with hypertension of pregnancy, the occurrence of TK in the proximal tubule suggests either gene induction or emiocytosis of TK.
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PMID:Localisation of tissue kallikrein in the kidney of black African women with early onset pre-eclampsia: a pilot study. 922 54

The tissue kallikrein-kinin system has been postulated to play an important role in blood pressure regulation. Kallikreins are serine proteinases that release potent vasodilating kinin peptides from precursor kininogens by limited proteolysis. Our recent studies show that systemic delivery of the human tissue kallikrein gene into adult spontaneously hypertensive rats (SHR) results in a sustained reduction of blood pressure for several weeks. The goal of this study is to evaluate whether early delivery of the kallikrein gene into newborn SHR could exert a suppressive effect on blood pressure phenotype during rat growth and development. A human tissue kallikrein cDNA construct, under the control of cytomegalovirus promoter (CMV-cHK), or vector DNA was injected subcutaneously into the necks of 2-day-old SHR. Blood pressures were monitored biweekly from 3 to 19 weeks by the tail-cuff method. A single injection of the human kallikrein cDNA construct caused a significant reduction of blood pressure (n = 6, p < 0.001) from 11 to 17 weeks after injection compared with control rats receiving vector DNA. Intravenous delivery of the human tissue kallikrein gene into adult SHR produced blood pressure lowering effects (n = 6, p < 0.001) that lasted for 6 weeks in male but not in female rats. The expression of human tissue kallikrein in rats was identified by reverse transcription polymerase chain reaction followed by Southern blot analysis and an ELISA specific for human tissue kallikrein. Kallikrein gene delivery did not cause any changes in body weight, urine volume, or water intake in the experimental animals compared with the control group. No antibodies to either human tissue kallikrein or its DNA were detected in rat sera 19 weeks postinjection. These results show that delivery of the kallikrein gene at an early stage of life has a protective effect against development of hypertension in adult SHR and that gender differences could be a factor in kallikrein gene therapy for the treatment of hypertensive disorders.
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PMID:Kallikrein gene therapy in newborn and adult hypertensive rats. 927 59

The aim of the study was to evaluate if short-term mineralocorticoid administration activates the circulating kallikrein-kinin systems in normotensive humans and patients with hypertension. Fludrocortisone was given daily for 1 week and circulating components of the plasma and tissue kallikrein-kinin systems and renin-angiotensin-aldosterone system were measured repeatedly. Fludrocortisone increased blood pressure in the normotensive group. A significant reduction in circulating pre-kallikrein and increase in tissue kallikrein occurred only in the normotensive group. Changes in blood pressure in the normotensive group correlated negatively with changes in plasma pre-kallikrein and positively with changes in circulating tissue kallikrein. In the hypertensive group the correlation with pre-kallikrein was non-significant and with tissue kallikrein negative. We conclude that short-term administration of fludrocortisone in moderate doses to normotensive humans induces changes compatible with increased activity in the circulating plasma and tissue kallikrein-kinin systems and that this activation may be abnormal in subjects with primary hypertension.
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PMID:Circulating kallikreins in normotensive and hypertensive humans: effects of mineralocorticoid administration. 929 8

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