High calcium diet down-regulated kidney ACE, reduced albuminuria and blood pressure, and favorably influenced kidney morphology in experimental renal failure. These findings suggest a link between calcium metabolism and kidney ACE expression, which may play a role in the progression of renal damage.
As oxonic acid diet increased plasma renin activity, plasma aldosterone, and urine K to Na ratio, these changes may play a significant role in the harmful cardiovascular actions of hyperuricemia.
Oxonic acid-induced hyperuricemia reduced oxidative stress in vivo, as evaluated using urinary 8-iso-PGF(2 alpha) excretion, increased plasma TRAP, and improved NO-mediated vasorelaxation in the carotid artery in experimental renal insufficiency.
High-phosphate intake had a detrimental influence on secondary hyperparathyroidism and vasodilatation, whereas high-calcium intake reduced blood pressure and PTH, alleviated volume overload and improved vasorelaxation in experimental renal insufficiency. Therefore, alterations in the calcium-phosphorus balance can significantly modulate small artery tone during impaired kidney function.
Aim: To examine whether treatment of secondary hyperparathyroidism with paricalcitol provides benefits to arteries in uremic rats. Methods: 5/6-nephrectomized rats were treated (NX+Pari) or not treated (NX) with paricalcitol (200 ng/kg, thrice weekly) for 12 weeks. Aortic histology and isolated segments of the main and 2nd-order mesenteric arterial branches were studied. Results: Creatinine clearance was reduced by 54–61%, plasma phosphate increased 2.1- to 2.5-fold, and blood pressure by 40 mm Hg in both NX groups. PTH increased 13-fold in NX and 5-fold in NX+Pari rats. Calcification in aortic cross-sections increased from 2.1 to 7.1% after paricalcitol. In the large mesenteric artery, vasoconstriction to noradrenaline was reduced in NX+Pari rats. In the large and small arteries, vasorelaxation to acetylcholine was impaired in NX rats and unaffected by paricalcitol. In the small artery, paricalcitol increased nitric oxide synthase inhibition-resistant relaxation to acetylcholine, and maximal relaxation to levcromakalim. The small arteries of NX rats featured increased wall cross-sectional area, while paricalcitol further increased wall thickness and the wall:lumen ratio. Conclusion: Paricalcitol treatment showed both benefits and harmful effects in uremic rats: in the large artery vasoconstriction was reduced but calcification increased, while in the small artery vasorelaxation via potassium channels was moderately improved but hypertrophic remodeling was aggravated.
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