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  • Title: Role of atrial natriuretic factor, hemodynamic changes and renal nerves in the renal effects of intraperitoneal morphine in conscious rats.
    Author: Flores O, Camera LA, Hergueta A, Gallego B, Pérez Barriocanal F, Gutkowska J, López Novoa JM.
    Journal: Kidney Blood Press Res; 1997; 20(1):18-24. PubMed ID: 9192906.
    Abstract:
    The aim of the present study was to investigate the role of renal nerves and atrial natriuretic factor (ANF) in the mechanisms responsible for the diuresis and antinatriuresis induced by morphine in rats in a normal state of hydration. Male Wistar rats weighing 350-400 g were divided into two groups: one group was subjected to bilateral renal denervation, whereas the other consisted of sham-operated controls. The animals were placed in individual metabolic cages, and morphine (1.25, 2.5, 5.0 or 10.0 mg/kg body weight) or vehicle (0.5 ml isotonic saline) was injected intraperitoneally. Urine was collected hourly for 1 h before and 3 h after morphine injection. The lower doses of morphine (1.25 and 2.5 mg/kg body weight) induced a transient increase in urine output (from 1.17+/-0.12 to 2.49+/-0.34 and from 0.78+/-0.08 to 1.71+/-0.18 microl/min, respectively). The diuretic response to these doses was similar in bilaterally denervated rats. Higher doses (5.0 and 10.0 mg/kg body weight) induced a marked but transient reduction in the urinary flow rate during the first hour (from 0.90+/-0.11 to 0.48+/-0.05 and from 1.37+/-0.17 to 0.45+/-0.08 microl/min, respectively), followed by a delayed diuretic effect. The antidiuretic action of morphine was not observed in bilaterally denervated rats. In control rats, morphine induced a dose-dependent decrease in sodium excretion 1 h after administration, an effect that was blunted in the denervated group. The lower morphine doses (1.25 and 2.5 mg/kg body weight) elicited a transient increase in the glomerular filtration rate (GFR) in both control (from 1.23+/-0.12 to 1.67+/-0.17 and from 1.28+/-0.14 to 2.41+/-0.18 ml/min) and bilaterally denervated rats (from 1.29+/-0.14 to 1.66+/-0.17 and from 1.18+/-0.22 to 1.72+/-0.19 ml/min), whereas the higher doses (5.0 and 10.0 mg/kg body weight) produced a marked, transient GFR decrease in the controls (from 1.25+/-0.11 to 0.43+/-0.05 and from 1.13+/-0.17 to 0.47+/-0.08 ml/min) and bilaterally denervated animals (from 1.48+/-0.16 to 0.74+/-0.09 and from 1.22+/-0.15 to 0.73+/-0.06 ml/min), although the reduction was less pronounced with renal denervation. Morphine induced a transient, dose-dependent reduction in blood pressure (from 114+/-1 to 71+/-6 mm Hg at 10.0 mg/kg body weight) and a dose-dependent elevation of plasma ANF. No differences in plasma ANF were observed between control and denervated animals under basal conditions (60+/-7 vs. 42+/-6 pg/ml) or after injection of 2.5 or 5.0 mg/kg of morphine (155+/-11 vs. 167+/-9 and 360+/-9 vs. 401+/-9 pg/ml, respectively). Our data suggest that the renal responses to intraperitoneal morphine administration derive from the integration of several different actions: (1) increased ANF release; (2) decreased arterial pressure; (3) subsequent activation of renal sympathetic activity, and (4) the direct effect of morphine on tubular function.
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