Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Angiotensin-converting enzyme inhibitors block left ventricular hypertrophy in vivo. A component of this effect has been attributed to tissue accumulation of bradykinin. Little is known regarding the effect of bradykinin on cardiomyocytes. The objectives of the present study were to define the effects of bradykinin on isolated ventricular cardiomyocytes (from adult and neonatal rat hearts) and to determine the extent to which bradykinin blocks hypertrophy in vitro. Bradykinin was found to be a hypertrophic agonist, as defined by increased protein synthesis and atrial natriuretic peptide secretion and expression. Bradykinin (10 micromol/L) increased [3H]phenylalanine incorporation by 23+/-3% in adult and by 36+/-10% in neonatal cardiomyocytes. Constitutive atrial natriuretic peptide secretion by neonatal myocytes was increased 357+/-103%. All effects of bradykinin were abolished by the B2-kinin receptor antagonist Hoe 140. These increases were similar in magnitude to those observed with phenylephrine (20 micromol/L) and angiotensin II (1 micromol/L). However, in cardiomyocytes cocultured with endothelial cells, bradykinin did not increase protein synthesis. Angiotensin II increased [3H]phenylalanine incorporation by 24+/-3% in adult cardiomyocytes in monoculture and by 22+/-2% in adult rat cardiomyocytes cocultured with endothelial cells. Bradykinin abolished this angiotensin II-induced hypertrophy in myocytes cultured with endothelial cells but not in myocytes studied in the absence of endothelial cells. In conclusion, bradykinin has a direct hypertrophic effect on ventricular myocytes. The presence of endothelial cells is required for the antihypertrophic effects of bradykinin. The results suggest that the increase in local concentration of bradykinin associated with angiotensin-converting enzyme inhibition is an important mechanism by which hypertrophy can be blocked. Manifestation of this mechanism appears to require bradykinin-stimulated release of paracrine factor(s) from endothelial cells, which are also able to block the hypertrophic effects of Ang II.
Hypertension 1998 Jan
PMID:Bradykinin blocks angiotensin II-induced hypertrophy in the presence of endothelial cells. 944 88

Nerve growth factor (NGF) determines sympathetic innervation of target tissues, and NGF levels are increased in young spontaneously hypertensive rats (SHR). Angiotensin can affect NGF levels, and the persistent reduction in blood pressure after brief angiotensin-converting enzyme inhibition in young SHR may involve long-term changes in NGF and sympathetic innervation. We measured the relative abundance of renal NGF mRNA by reverse transcription-polymerase chain reaction in SHR during and after treatment from 6 to 10 weeks of age with vehicle, perindopril (3 mg/kg per day), the bradykinin B2 antagonist Hoe 140 (0.5 mg/kg per day), both perindopril and Hoe 140, or angiotensin II (Ang II; 200 ng/kg per minute). Glomerular filtration rates were estimated at 10 and 20 weeks of age. At 10 weeks of age, Ang II caused a significant (P<.01) increase and perindopril caused a significant (P<.01) decrease in renal NGF mRNA levels. Blockade of the bradykinin B2 receptor during perindopril treatment attenuated (P<.05) the reduction in NGF mRNA levels. Renal NGF mRNA (P=.005) and blood pressure (P<.001) remained significantly lower than control 10 weeks after perindopril treatment was stopped. The partial reduction in blood pressure at 20 weeks of age in rats that had received perindopril and Hoe 140 was not associated with any difference in renal NGF mRNA. Perindopril-induced long-term reduction in renal NGF mRNA levels may decrease sympathetic innervation and thereby contribute to the long-term posttreatment blood pressure reduction.
Hypertension 1998 Feb
PMID:Persistent reduction in renal nerve growth factor mRNA after perindopril treatment of young spontaneously hypertensive rats. 946 Dec 40

The use of angiotensin-converting enzyme (ACE) has been associated with the occurrence of adverse effects, including cough and angioneurotic edema. Accumulation of kinins has been suggested to play a major role in these adverse effects of ACE inhibitor, although conclusive evidence for such a role is lacking. We investigated whether ACE inhibition increases plasma extravasation in mice (Swiss, C57Bl/6J, and J129Sv/Ev strains) via inhibition of bradykinin metabolism and stimulation of neurogenic inflammatory mechanisms. Intravenous captopril and enalapril increased the extravasation of Evans blue dye in all tissues examined (trachea, stomach, duodenum, and pancreas). This effect was evident 15 minutes after drug administration. The particulate dye Monastral blue identified the sites of captopril-induced leakage in the microvasculature. Pretreatment with the bradykinin B2 receptor antagonist Hoe 140 or with the tachykinin NK1 receptor antagonist SR 140333 inhibited captopril-evoked increase in plasma extravasation. In mice in which the gene encoding the bradykinin B2 receptor was disrupted by gene targeting, neither bradykinin nor captopril increased plasma extravasation. Pretreatment with Hoe 140 did not reduce the hypotensive response induced by captopril. The present findings suggest that ACE inhibition increases kinin levels in tissues and/or plasma. These increased kinin levels increase microvascular leakage in mouse airways and digestive tract via the release of tachykinins from terminals of primary sensory neurons. Exaggerated kinin production and the subsequent stimulation of peptide release from sensory nerves may be involved in adverse effects of ACE inhibitors.
Hypertension 1998 Jun
PMID:Acute ACE inhibition causes plasma extravasation in mice that is mediated by bradykinin and substance P. 962 45

Bradykinin plays an important role in the regulation of renal hemodynamics. However, there have been few studies of the effect of bradykinin on isolated afferent arterioles, vascular segments that are important for the regulation of renal blood flow and glomerular filtration rate. Our purpose was to study (1) the effects of bradykinin on isolated perfused rabbit afferent arterioles and (2) the mechanisms of actions. Afferent arterioles dissected from rabbits were perfused in vitro at 60 mm Hg. In afferent arterioles preconstricted with phenylephrine, 10(-12) to 10(-10) mol/L bradykinin increased luminal diameter from 9.0+/-1.0 to 14.3+/-1.2 microm (P<0.003). In contrast, 10(-9) and 10(-8) mol/L bradykinin decreased luminal diameter to 10.8+/-1.4 and 9.7+/-1.2 microm, respectively (P<0.001). Bradykinin added to the bath had no effect on preconstricted afferent arterioles. The addition of [des-Arg9]-bradykinin (10(-9) and 10(-8) mol/L), a B1 receptor agonist, to the lumen decreased diameter from 9.7+/-1.2 to 6.7+/-1.2 microm at 10(-8) mol/L (P<0.002). Icatibant (Hoe 140), a B2 receptor antagonist, blocked both the vasodilation and vasoconstriction induced by bradykinin as well as the vasoconstriction induced by [des-Arg9]-bradykinin. L-NAME had no effect on bradykinin-induced dilation or constriction. Indomethacin blocked both the dilation induced by 10(-12) to 10(-10) mol/L bradykinin and the constriction induced by 10(-9) to 10(-8) mol/L bradykinin. In fact, in the presence of indomethacin, 10(-9) and 10(-8) mol/L bradykinin increased luminal diameter from 6.2+/-0.7 to 10.7+/-0.6 microm at 10(-8) mol/L (P<0.001), which was attenuated by L-NAME. Finally, in the presence of SQ29548, a prostaglandin H2/thromboxane A2 receptor antagonist, bradykinin caused dilation at all concentrations tested. In conclusion, bradykinin has a biphasic effect on afferent arterioles. Both dilation and constriction may be mediated by bradykinin B2 receptors. The mechanisms of vasodilation and vasoconstriction are due to cyclooxygenase products, not nitric oxide.
Hypertension 1998 Aug
PMID:Biphasic effect of bradykinin on rabbit afferent arterioles. 971 56

We studied in anesthetized rats whether aminopeptidase P (AMP) may be involved in bradykinin (BK) metabolism and responses. For this we inhibited AMP with the specific inhibitor apstatin (Aps). Studies were done with Aps alone or together with the angiotensin-converting enzyme inhibitor lisinopril (Lis). Aps increased the vasodepressor response to an intravenous bolus of BK (400 ng/kg): vehicle, -3.0 +/- 0.7 mmHg; Aps, -7.8 +/- 0.7 mmHg (P < 0.01 vs. vehicle); Lis, -23.8 +/- 1.8 mmHg; Aps + Lis, -37.5 +/- 1.9 mmHg (P < 0.01 vs. Lis). Aps did not affect the vasodepressor response to BK given into the descending aorta. Plasma BK increased only in Aps + Lis-treated rats (in pg/ml): control, 48.0 +/- 1.4; Lis, 57.5 +/- 7.6; Aps + Lis, 121. 8 +/- 30.6 (P < 0.05 vs. control or Lis), whereas in rats infused with BK (400 ng. kg-1. min-1 for 5 min), Aps increased plasma BK (in pg/ml): control, 51.9 +/- 2.5; Aps, 83.5 +/- 20.5; Lis, 725 +/- 225; Aps + Lis, 1,668 +/- 318 (P < 0.05, Aps vs. control and Lis vs. Aps + Lis). In rats with aortic coarctation hypertension, the acute antihypertensive effects of Aps plus Lis were greater than Lis alone (P < 0.01). Hoe-140, a BK B2-receptor antagonist, abolished the difference. We concluded that in the rat AMP contributes to regulation of BK metabolism and responses.
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PMID:Effects of aminopeptidase P inhibition on kinin-mediated vasodepressor responses. 1033 Feb 52

Insulin responsiveness was studied in isolated adipocytes from the normotensive Wistar Kyoto (WKY) rat and the spontaneously hypertensive rat (SHR). The effect of insulin (0.1 to 5 nmol/L) on glucose uptake (glucose transport and lipogenesis) was measured, and the maximal effect of insulin (Emax) and the dose of insulin required to elicit 50% of the maximal response (EC50) were calculated. A diminished Emax on lipogenesis without changes in the EC50 was detected in SHRs. The Emax was 0.49 +/- 0.09 (SHR) and 1.16 +/- 0.14 (WKY) micromol/10(5) cells (P < .05), and the EC50 was 0.13 +/- 0.03 and 0.11 +/- 0.02 nmol/L for WKY and SHR, respectively. Similar results were obtained when measuring insulin-stimulated glucose transport. A 30-day long-term treatment with enalapril (20 mg/kg/d) normalized insulin responsiveness in adipocytes from SHRs. The effect of enalapril was suppressed when SHRs were pretreated with enalapril and 150 microg/kg/d of the bradykinin (BK) B2-receptor blocker Hoe 140. Pretreatment with losartan (40 mg/kg/d) did not improve insulin action in the SHR. Since these results were obtained with isolated cells in which glucose availability was not a function of blood flow, and the effect of insulin in the SHR was improved by pretreatment with an angiotensin-converting enzyme (ACE) inhibitor but not with the AT1-receptor blocker, it appears that the insulin resistance linked to the hypertension is not related to changes in blood flow.
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PMID:Insulin resistance in adipocytes from spontaneously hypertensive rats: effect of long-term treatment with enalapril and losartan. 1045 71

It is well-known that angiotensin converting enzyme (ACE) inhibitor not only decreases blood pressure (BP) but also improves insulin sensitivity. To elucidate the mechanisms of these actions of ACE inhibitor, we evaluated its effect on both BP and insulin sensitivity (M-value) as estimated by the glucose clamp technique in essential hypertensives in comparison with the effect of angiotensin receptor (AT) antagonist. We also evaluated the effect of ACE inhibitor on BP, M-value and muscle fiber composition in fructose-fed rats (FFR) as an insulin-resistant hypertensive model with or without treatment with Hoe 140 (kinin receptor antagonist). In essential hypertensives, both ACE inhibitor and AT antagonist decreased BP and improved insulin sensitivity to the same extent. In FFR, ACE inhibitor also decreased BP and improved insulin sensitivity. Moreover, Hoe 140 showed no effect on these actions of ACE inhibitor. The composite ratio of type I fiber of soleus muscle was decreased significantly in FFR compared to control and ACE inhibitor produced a recovery of the composite ratio of type I fiber to the same as control. These results suggested that muscle fiber composition of skeletal muscle is linked to insulin resistance, and that ACE inhibitor may modulate muscle fiber composition through its vasodilative effect in hypertension. These results also suggest that for vasodilation, it is more important to inhibit angiotensin II than to block degradation of kinins or to improve insulin sensitivity by ACE inhibitor.
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PMID:The mechanisms of insulin sensitivity improving effects of angiotensin converting enzyme inhibitor. 1060 39

Previous studies in rats have shown that blockade of bradykinin B2 receptors (B2R) in combination with a high-salt intake during gestation result in poor postnatal survival and long-term hypertension in the offspring. In this study, we examined the fetal ontogeny of B2R and determined the consequences of gestational B2R blockade and high salt on kidney development. B2R gene expression is induced on embryonic day (E16) of fetal metanephrogenesis and remains sustained until term. The earliest expression of the B2R protein is observed on apical membranes of ureteric bud branches and in capillary loop stage glomeruli. By the end of gestation, B2R becomes restricted to more-differentiated tubules in the deep cortex and medulla. Pairs of rats on normal (0.12 mmol/g) or high (0.84 mmol/g) salt diets were mated at 14 weeks of age. The B2R antagonist, Icatibant (previously known as Hoe-140) (300 nmol/kg per day) or saline (vehicle) was infused intraperitoneally during gestation via osmotic minipumps. Fetuses were examined on E20 (n=27-36 per group). No significant differences in litter size or body weight were observed among the groups. Combined high-salt and Icatibant treatment caused aberrant fetal renal development characterized by tubular dysgenesis, widened stromal mesenchyme, and glomerular cysts. The dysgenetic tubules stained positively for the distal nephron lectin, Dolichos biflorus, and exhibited enhanced Bax expression and apoptosis. Renal microvascular development, the number of mature glomeruli, and percentage of proliferating glomerular cells were not affected. Gestational Icatibant or high salt alone had no deleterious effects on fetal nephrogenesis. We conclude that gestational blockade of the kallikrein-kinin system impairs fetal nephrogenesis if combined with an intrauterine stressor such as high-salt intake. B2R may play a protective role during segmental nephron differentiation.
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PMID:Fetal ontogeny and role of metanephric bradykinin B2 receptors. 1077 71

Angiotensin (Ang)-(1-7) elicits a facilitatory presynaptic effect on peripheral noradrenergic neurotransmission, and because biological responses to the heptapeptide on occasion are tissue specific, the present investigation was undertaken to study its action on noradrenergic neurotransmission at the central level. In rat hypothalamus labeled with [(3)H]-norepinephrine, 100 to 600 nmol/L Ang-(1-7) diminished norepinephrine released by 25 mmol/L KCl. This effect was blocked by the selective angiotensin type 2 receptor antagonist PD 123319 (1 micromol/L) and by the specific Ang-(1-7) receptor antagonist ([D-Ala(7)]Ang-(1-7) (1 micromol/L) but not by losartan (10 nmol/L to 1 micromol/L), a selective angiotensin type 1 receptor antagonist. The inhibitory effect on noradrenergic neurotransmission caused by Ang-(1-7) was prevented by 10 micromol/L N(omega)-nitro-L-arginine methylester, an inhibitor of nitric oxide synthase activity, and was restored by 100 micromol/L L-arginine, precursor of nitric oxide synthesis. Methylene blue (10 micromol/L), an inhibitor of guanylate cyclase considered as the target of nitric oxide action, as well as Hoe 140 (10 micromol/L), a bradykinin B(2)-receptor antagonist, prevented the inhibitory effect of the heptapeptide on neuronal norepinephrine release, whereas no modification was observed in the presence of 0.1 to 10 micromol/L indomethacin, a cyclooxygenase inhibitor. Our results indicate that Ang-(1-7) has a tissue-specific neuromodulatory effect on noradrenergic neurotransmission, being inhibitory at the central nervous system by a nitric oxide-dependent mechanism that involves angiotensin type 2 receptors and local bradykinin production.
Hypertension 2000 Jun
PMID:Angiotensin-(1-7) reduces norepinephrine release through a nitric oxide mechanism in rat hypothalamus. 1085 72

Bradykinin evokes endothelium-dependent relaxation in some vascular beds; on the other hand, the possibility has been demonstrated that in certain organs, such as the adrenal medulla or atria, bradykinin may enhance transmitter release from the sympathetic nerves. We hypothesized that bradykinin may also enhance postganglionic sympathetic neurotransmission in blood vessels. To test this hypothesis, we recorded excitatory junction potentials (EJPs), a measure of sympathetic purinergic neurotransmission, in rat mesenteric resistance arteries with a conventional microelectrode technique. EJPs were elicited by repetitive perivascular nerve stimulation (1 Hz, 20 to 50 V, 30 to 60 micros, 11 pulses). In this preparation, bradykinin (10(-7) or 10(-6) mol/L) significantly enhanced the amplitude of EJPs without altering the resting membrane potential. This effect of bradykinin was blocked by Hoe 140, a bradykinin B2 receptor antagonist, but not by des-Arg(9),[Leu(8)]-bradykinin, a bradykinin B1 receptor antagonist. The cyclooxygenase inhibitor indomethacin or NO synthase inhibitor N(G)-nitro-L-arginine did not alter the effect of bradykinin. Captopril, an ACE inhibitor, but not candesartan, an angiotensin II type 1 receptor antagonist, enhanced the action of a low concentration (10(-8) mol/L) of bradykinin on EJPs. These findings suggest that in rat mesenteric resistance arteries, bradykinin enhances sympathetic purinergic neurotransmission, presumably through presynaptic bradykinin B2 receptors. The clinical relevance of the present findings remains unclear; however, the fact that the ACE inhibitor, but not the angiotensin II type 1 receptor antagonist, enhanced the action of bradykinin on sympathetic neurotransmission may warrant further investigation.
Hypertension 2002 Jan
PMID:Bradykinin enhances sympathetic neurotransmission in rat blood vessels. 1179 74


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