K Stepniakowski scite author profile

Hypertension is common and occurs in a majority of autosomal dominant polycystic kidney disease (ADPKD) patients prior to loss of kidney function. Hypertension relates to progressive kidney enlargement, and is a significant independent risk factor for progression to end stage renal disease. The pathogenesis of hypertension in ADPKD is complex and dependent on many factors that influence each other. Pkd1 and Pkd2 expression levels are highest in the major vessels and are present in the cilia of endothelial cells and in vascular smooth muscle cells. Decreased or absent polycystin 1 or 2 expression is associated with abnormal vascular structure and function. Pkd1/Pkd2 deficiency results in reduced nitric oxide (NO) levels, altered endothelial response to shear stress with attenuation in vascular relaxation. 10–20% of ADPKD children demonstrate hypertension and the majority of adults are hypertensive before any loss of kidney function. Cardiac abnormalities such as left ventricular hypertrophy and carotid intimal wall thickening are present prior to the development of hypertension in ADPKD. Activation of the renin-angiotensin-aldosterone system occurs in ADPKD due to decreased NO production as well as bilateral cyst expansion and intra-renal ischemia. With increasing cyst size, further activation of the RAAS occurs, blood pressure increases and a vicious cycle ensues with enhanced cyst growth and hypertension ultimately leading to ESRD. Inhibition of the angiotensin aldosterone system is possible with angiotensin converting enzyme inhibitors and angiotensin receptor blockers. However, interventional studies have not yet demonstrated benefit in slowing progression to renal failure in ADPKD. Currently, large multicenter studies are being performed to determine the beneficial effects of RAAS inhibition both early and late in ADPKD.

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Oleic Acid Inhibits Endothelial Nitric Oxide Synthase by a Protein Kinase C–Independent Mechanism

Davda

et al. 1995

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Many obese hypertensive individuals have a cluster of cardiovascular risk factors. This cluster includes plasma nonesterified fatty acid concentrations and turnover rates that are higher and more resistant to suppression by insulin than in lean and obese normotensive individuals. The higher fatty acids may contribute to cardiovascular risk in these patients by inhibiting endothelial cell nitric oxide synthase activity. To test this hypothesis, we quantified the effects of oleic (18:1[cis]) and other 18-carbon fatty acids on nitric oxide synthase activity in cultured bovine pulmonary artery endothelial cells by measuring the conversion of [3H]L-arginine to [3H]L-citrulline. Oleic acid (from 10 to 100 mumol/L) caused a concentration-dependent decrease in nitric oxide synthase activity at baseline and during ATP and ionomycin (Ca2+ ionophore) stimulation. At 100 mumol/L, linoleic (18:2[cis]) and oleic acids caused similar reductions of nitric oxide synthase activity, whereas elaidic (18:1[trans]) and stearic (18:0) acids had no effect. Oleic acid also inhibited the endothelium-dependent vasodilator response to acetylcholine in rabbit femoral artery rings preconstricted with phenylephrine (P < .05) but had no effect on the response to nitroprusside. The pattern of 18-carbon fatty acid effects on nitric oxide synthase activity in endothelial cells is consistent with activation of protein kinase C. Although oleic acid increased protein kinase C activity in endothelial cells, neither depletion of protein kinase C by 24-hour pretreatment with phorbol 12-myristate 13-acetate nor its inhibition with staurosporine eliminated the inhibitory effect of oleic acid on nitric oxide synthase.(ABSTRACT TRUNCATED AT 250 WORDS)

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Fatty Acids Enhance Vascular α-Adrenergic Sensitivity

1995

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Hypertensive patients are heavier and have a more centralized body fat distribution, which is associated with risk factor clustering and resistance to insulin's actions, including suppression of plasma nonesterified fatty acids. We postulated that abnormalities of nonesterified fatty acids contribute to the increased vascular alpha-adrenergic reactivity and tone observed in our previous studies of obese hypertensive subjects. To test this hypothesis, in two separate protocols 10% Intralipid was infused into a dorsal hand vein with heparin to activate lipoprotein lipase and raise fatty acid levels locally. In protocol 1, the effects of Intralipid/heparin compared with those of 5% dextrose/heparin on dorsal hand vein sensitivity to phenylephrine were assessed by use of the linear variable differential transformer technique in 8 normotensive subjects. In protocol 2, the effects of Intralipid/heparin were compared with those of saline/heparin on hand vein responses to both phenylephrine and angiotensin II in 11 normotensive African American women. Intralipid/heparin reduced the dose of phenylephrine required to produce 50% of the maximal venoconstrictor response from 582 to 137 ng/min (compared with dextrose/heparin, P < .01) in protocol 1 and from 293 to 137 ng/min (compared with saline/heparin, P < .01) in protocol 2. Intralipid/heparin did not significantly alter hand vein responses to angiotensin compared with saline/heparin. These data suggest that abnormalities of nonesterified fatty acids in obese hypertensive patients with risk factor clustering may contribute to their increased neurovascular tone.

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Relationships Among Plasma Aldosterone, High-Density Lipoprotein Cholesterol, and Insulin in Humans

Goodfriend

Egan²,

Stepniakowski³

et al. 1995

Hypertension

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To investigate the pathogenesis of hypertension in patients with obesity and insulin resistance and to explore the role of plasma lipids, we studied 30 subjects at the end of 7 days of low (20 mEq/d) then high (200 mEq/d) sodium diets. Glucose and insulin tolerance tests were performed at the end of each week and blood and urine collected for measurements of plasma aldosterone, renin activity, electrolytes, insulin, and lipoproteins. There was a strong negative correlation between plasma aldosterone and high-density lipoprotein cholesterol during both diets. There were weaker positive correlations between plasma aldosterone and insulin or triglycerides. When the aldosterone-renin ratio was the dependent variable and the correlation controlled for serum potassium, the inverse relationship with high-density lipoprotein cholesterol and the positive correlation with insulin remained, but only during the high salt diet. Subjects were divided into three groups based on high-density lipoprotein cholesterol. Subjects with the lowest high-density lipoprotein cholesterol levels showed the highest aldosterone, plasma triglycerides, body mass index, and waist-to-hip ratio. Those subjects also demonstrated the greatest resistance to insulin action on glucose and plasma unesterified fatty acids. There was a weak direct correlation between plasma aldosterone and systolic blood pressure during the high salt diet. These data suggest that high aldosterone levels may be a link between dyslipidemia, insulin resistance, and hypertension, a relationship made more evident by high salt intake.

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K Stepniakowski

Hypertension in Autosomal Dominant Polycystic Kidney Disease

Oleic Acid Inhibits Endothelial Nitric Oxide Synthase by a Protein Kinase C–Independent Mechanism

Fatty Acids Enhance Vascular α-Adrenergic Sensitivity

Relationships Among Plasma Aldosterone, High-Density Lipoprotein Cholesterol, and Insulin in Humans

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