Evidence for distal tubular inhibition of calcium efflux by nisoldipine in the SHR rat.

Nisoldipine, a calcium channel blocking agent, is known to have antihypertensive, renal tubular and hemodynamic effects. The present studies were designed to examine the effects of this drug on the renal tubular transport of calcium in 12 saline-loaded SHR rats. Calcium-45 was infused into three different nephron segments: early proximal, late proximal and early distal sites with or without nisoldipine.

Renal response to volume expansion in streptozotocin-induced diabetic rats: influence of calcium channel blockade.

The renal response to volume expansion (VE) has been shown to be impaired in streptozotocin (STZ)-induced diabetes. This may contribute to the abnormal maintenance of fluid balance in diabetics. Since calcium channel blockade (CaCb) has been shown to improve renal hemodynamic and tubular functions, the present studies were designed to examine the ability of CaCb to enhance the response of kidneys from diabetic rats to a volume load.

Normalization of pressure-natriuresis by nisoldipine in spontaneously hypertensive rats.

This study examined whether the calcium antagonist nisoldipine can shift the relations between sodium excretion, papillary blood flow, renal interstitial pressure, and renal perfusion pressure toward lower pressures in spontaneously hypertensive rats. Mean arterial pressure decreased similarly by 9% and 12% in Wistar-Kyoto and spontaneously hypertensive rats after nisoldipine (0.5 microgram/kg bolus + 0.

Post-obstruction diuresis: influence of renal prostaglandins.

The possible role of altered renal prostaglandin metabolism in the generation of post-obstruction diuresis (POD) was examined in 16 adult male Sprague-Dawley rats. Inhibition of cyclooxygenase by the administration of a combination of two nonsteroidal anti-inflammatory drugs (NSAID), meclofenamate and indomethacin in 8 of these rats exaggerated, rather than lowered the degree of natriuresis and diuresis that followed the release 24 h after bilateral ureteral ligation. Urine osmolarity was similar in the two groups of rats treated with the NSAID and vehicle.

Blunting of the renal response to volume expansion by a bradykinin receptor antagonist: influence of denervation.

The interaction of renal sympathetic nervous influences with the intrarenal kallikrein-kinin system was examined during graded expansion of the extracellular fluid volume in rats. One group of rats was pretreated with a specific and highly efficacious competitive antagonist of bradykinin receptor (BKRA), whereas the other group received only a vehicle infusion. The left kidney was denervated in each animal and the right kidney remained intact.