Urinary Kallikrein Excretion in Essential and Mineralocorticoid Hypertension

Holland, O. B.; Chud, J. M.; Braunstein, Herbert

doi:10.1172/jci109678

Cited by 101 publications

(41 citation statements)

References 32 publications

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“…20 The seminal finding that the renal KKS, a potent natriuretic and vasodilator system, is typically activated in human hypermineralocorticosteroidism as well as in rats given longterm DOC has been interpreted as a compensatory response to counteract the vasopressor and sodium-retaining effects of mineralocorticoids. [11][12][13] Consistent with the results obtained in other species is the finding that urinary kinins are increased in DOC-treated mice. The mechanism by which mineralocorticoids stimulate the renal KKS is not yet clear.…”

Section: Discussionsupporting

confidence: 84%

“…Interestingly, at variance with other models of genetic or experimental hypertension characterized by a defective renal synthesis and excretion of kallikrein, 6 -10 clinical forms of primary aldosteronism as well as experimental hypertension induced by DOC show an activated KKS. [11][12][13] The possibility that this alteration represents a compensatory response to counteract the development of hypertension induced by DOC is based mainly on pharmacological studies in rats, 14,15 showing that the hypertensive effect of mineralocorticoid administration is enhanced by the concomitant blockade of B 2 receptors with icatibant, a longacting analogue antagonist of bradykinin. 16,17 Unfortunately, receptor antagonists are not devoid of unspecificity.…”

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confidence: 99%

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Enhanced Blood Pressure Sensitivity to Deoxycorticosterone in Mice With Disruption of Bradykinin B ₂ Receptor Gene

Emanueli

Fink²,

Milia³

et al. 1998

Hypertension

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Abstract-The renal kallikrein-kinin system is activated under conditions of mineralocorticoid excess. To evaluate whether endogenous kinins exert a protective role against the development of mineralocorticoid-induced hypertension, we studied the cardiovascular effects induced by long-term administration of deoxycorticosterone (DOC; 0.3 mol/g body wt SC once per week for 6 weeks) or vehicle in transgenic mice (Bk2r Ϫ/Ϫ ) lacking the bradykinin B 2 receptor gene and in wild-type controls (Bk2r ϩ/ϩ ). Under basal conditions, Bk2r Ϫ/Ϫ mice showed higher systolic blood pressure (tail-cuff plethysmography) than wild-type Bk2r ϩ/ϩ and heterozygous Bk2r ϩ/Ϫ mice (121Ϯ2 versus 114Ϯ2 and 115Ϯ2 mm Hg, respectively; PϽ0.05 for both comparisons). Heart rate was higher in Bk2r Ϫ/Ϫ and Bk2r ϩ/Ϫ than in Bk2r ϩ/ϩ (459Ϯ12 and 418Ϯ7 versus 390Ϯ7 bpm; PϽ0.05 for both comparisons). Systolic blood pressure was increased by DOC in transgenic as well as in wild-type mice, whereas no change was induced by the vehicle. The pressor response to DOC was more rapid and pronounced in Bk2r Ϫ/Ϫ than in Bk2r ϩ/ϩ and Bk2r ϩ/Ϫ (30Ϯ5 versus 15Ϯ4 and 6Ϯ3 mm Hg, respectively, at 3 weeks; PϽ0.01 for both comparisons). The difference in systolic blood pressure was consistent with that detected by direct intra-arterial measurements of mean blood pressure. Neither DOC nor its vehicle altered heart rate or gain in body weight over time. Under basal conditions, urinary sodium excretion did not differ between strains. During DOC administration, cumulative urinary sodium excretion was lower in Bk2r Ϫ/Ϫ than in Bk2r ϩ/ϩ (2.59Ϯ0.15 versus 3.31Ϯ0.22 mmol, respectively, during the first week; PϽ0.05). Urinary kinin excretion was increased by DOC in both Bk2r Ϫ/Ϫ (from 0.65Ϯ0.17 to 4.27Ϯ0.80 pmol/24 h; PϽ0.01) and Bk2r ϩ/ϩ (from 0.55Ϯ0.09 to 6.27Ϯ1.48 pmol/24 h; PϽ0.05). The increase in urinary kinin excretion was similar between strains. These results show that integrity of the bradykinin B 2 receptor is essential for regulation of blood pressure and heart rate under basal conditions. In addition, they indicate that activation of the kallikrein-kinin system represents a compensatory response against the development of hypertension induced by mineralocorticoid excess. (Hypertension. 1998;31:1278-1283.) Key Words: mineralocorticoids Ⅲ blood pressure Ⅲ kallikrein-kinin system K inins, the enzymatic products of kininogen cleavage by kallikrein, induce vasodilatation, diuresis, and natriuresis by promoting the release of endothelium-derived relaxing factors and prostaglandins.1-4 They act as local hormones by activating specific receptors named B 1 and B 2 , with most of the cardiovascular and renal effects being mediated by the B 2 receptor.5 It has been hypothesized that a dysfunction of the KKS, leading to unbalanced predominance of vasoconstrictor and antinatriuretic systems, may contribute to the pathogenesis of arterial hypertension. Interestingly, at variance with other models of genetic or experimental hypertension characterized by a defective renal synthesis...

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Section: Discussionsupporting

confidence: 84%

mentioning

confidence: 99%

Enhanced Blood Pressure Sensitivity to Deoxycorticosterone in Mice With Disruption of Bradykinin B ₂ Receptor Gene

Emanueli

Fink²,

Milia³

et al. 1998

Hypertension

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“…'4 18 In addition, black hypertensive subjects have a deficiency of the kallikrein-kinin renal vasodilatory and natriuretic system. 39 We measured urinary kallikrein in the present study, but there was no significant difference in urinary kallikrein in the young patients with borderline hypertension and the normotensive subjects. The sympathetic nervous system40 and the renin-angiotensin system4' have important influences over renal sodium excretion.…”

Section: Discussionmentioning

confidence: 52%

Sodium susceptibility and potassium effects in young patients with borderline hypertension.

Fujita¹,

Noda²,

Ando³

1984

Circulation

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To evaluate sodium susceptibility in subjects with borderline hypertension at increased risk of developing essential hypertension, the effect of salt loading after sodium deprivation with a diuretic was studied in 21 young patients with borderline hypertension and 12 age-matched normal subjects. Treatment with a diuretic caused significant decreases in mean blood pressure (MBP) in subjects with borderline hypertension but not in normotensive subjects. In borderline hypertensives, the subsequent sodium loads resulted in a significant rise in MBP (5.8 ± 1.7%; p < .01), but sodium did not change MBP in normotensives. There is a good correlation between the increments in MBP with sodium loads and the decrements in MBP with a diuretic for each patient (r = -.759, p < .001). After diuretics, cardiac index (CI) as measured echocardiographically fell significantly but calculated total peripheral resistance (TPR) remained unchanged in subjects with borderline hypertension. After 180 meq sodium chloride each day was added for 7 days, CI (9.1 ± 2. 1 %; p < .01 ) and stroke index (21.0 + 3.4%; p < .01) rose significantly but TPR remained unchanged. Overall, the increments of MBP with sodium loads did not correlate with the changes in CI but did correlate with the changes in TPR (r = .567, p < .01). In these young patients with borderline hypertension, plasma norepinephrine and epinephrine concentrations and plasma renin activity (PRA) were significantly higher than in normotensive subjects. These results suggest that young patients with borderline hypertension differ from normal subjects in that they display a blood pressure increase due to a disproportionate rise in CI and inadequate fall in TPR in response to a short-term increase in dietary sodium and that adrenosympathetic overactivity and increased activity of the renin-angiotensin system may be partly involved. Moreover, during salt loading the 11 patients with borderline hypertension who received a dietary supplementation of 96 meq potassium chloride each day had less of an increase in MBP ( -1.6 2. 1% vs 5.8 + 1.7%; p < .05) andCl (-1.8 ± 2.0% vs9.1 ± 2.1%;p <.05) thandidthe21 patientswhohadnot taken the potassium supplement. PRA and plasma aldosterone concentration during salt loading were relatively higher in the potassium-supplemented patients as compared with in the ones that did not receive supplements. It is suggested that potassium supplementation may prevent the blood pressure rise with the sodium loading by attenuating the increase in cardiac output possibly as a result of the natriuresis. Circulation 69, No. 3, 468-476, 1984. YOUNG PATIENTS with borderline hypertension are at least three times more likely to develop established essential hypertension than are age-matched normotensive subjects.'l 2 Thus, young patients with borderline hypertension have been of particular interest to investigators because they may provide insight into the pathogenesis of essential hypertension. Borderline hypertensive subjects have been reported to have abnormali...

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“…Urinary and/or arterial TK can also be decreased in renovascular hypertension and genetically hypertensive rats (43,47,52,124). Although these reductions may be secondary to increases in blood pressure, decreased urinary kallikrein in (i) normotensive children of patients with essential hypertension, (ii) genetically hypertensive rats, and (iii) Dahl salt-sensitive rats that have not yet developed hypertension (48,108,159,257,278) suggests that the cause of the decrease may differ in each model.…”

Section: Kinins In Blood Pressure Regulation and The Pathogenesis Of mentioning

confidence: 99%

The Kallikrein-Kinin System as a Regulator of Cardiovascular and Renal Function

Carretero¹,

Yang²,

Rhaleb³

2005

Hypertension

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Urinary Kallikrein Excretion in Essential and Mineralocorticoid Hypertension

Cited by 101 publications

References 32 publications

Enhanced Blood Pressure Sensitivity to Deoxycorticosterone in Mice With Disruption of Bradykinin B ₂ Receptor Gene

Enhanced Blood Pressure Sensitivity to Deoxycorticosterone in Mice With Disruption of Bradykinin B ₂ Receptor Gene

Sodium susceptibility and potassium effects in young patients with borderline hypertension.

The Kallikrein-Kinin System as a Regulator of Cardiovascular and Renal Function

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Urinary Kallikrein Excretion in Essential and Mineralocorticoid Hypertension

Cited by 101 publications

References 32 publications

Enhanced Blood Pressure Sensitivity to Deoxycorticosterone in Mice With Disruption of Bradykinin B 2 Receptor Gene

Enhanced Blood Pressure Sensitivity to Deoxycorticosterone in Mice With Disruption of Bradykinin B 2 Receptor Gene

Sodium susceptibility and potassium effects in young patients with borderline hypertension.

The Kallikrein-Kinin System as a Regulator of Cardiovascular and Renal Function

Contact Info

Product

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Enhanced Blood Pressure Sensitivity to Deoxycorticosterone in Mice With Disruption of Bradykinin B ₂ Receptor Gene

Enhanced Blood Pressure Sensitivity to Deoxycorticosterone in Mice With Disruption of Bradykinin B ₂ Receptor Gene