The present experiment was designed to determine if electrolytic ablation of the periventricular tissue surrounding the anteroventral third ventricle (AV3V) altered the natriuresis typically seen during isotonic volume expansion. Control and AV3V-lesioned rats received intravenous infusions of 0.9% NaCl at 0.5 ml/min until 10% body weight was given. Arterial blood pressure was monitored, and urine was collected throughout the experiment. Following expansion, blood was processed for analysis of natriuretic hormonelike activity by chromatographic separation of plasma extracts followed by measuring antinatriferic activity across the isolated toad bladder. Urinary sodium excretion and urine volume during expansion were significantly less in rats with lesions surrounding the AV3V region than in control rats. Toad bladder bioassay showed a high level of natriuretic hormonelike activity in control animals following volume expansion, but no natriuretic hormonelike activity in plasma from volume-expanded rats with AV3V lesions. These data demonstrate that AV3V periventricular ablation attenuates the natriuresis induced by isotonic-volume expansion. In addition, preliminary results indicate the AV3V region may be a central site critical for natriuretic hormonelike activity and control of extracellular fluid volume.
Vasopressin (VP) was administered for 1 h intravenously to hydropenic, anesthetized dogs in doses of 1.0-1.25 mU/kg per min. In 14 experiments, sodium excretion (UNA V) increased from a mean of 13 +/- 5 to a peak of 96 +/- 21 mueq/min 40 min after beginning infusion (P less than .001). Urine flow and potassium excretion increased from 0.18 +/-.04 ml/min and 20 +/- 2 meuq/min to peak values of 0.6 +/- .08 ml/min and 61 +/- 9 mueq/min, respectively (P less than .001), with no significant increase in glomerular filtration rate. No significant changes in UNA V occurred in eight sham control experiments of in six experiments in which VP was given at 75 muU/kf per min. To test the hypothesis that VP might be natriuretic indirectly by releasing a natriuretic substance, plasms ultrafiltrates were tested for toad bladder antinatriferic activity(AA). During steady-state control, AA was -10 +/- 3%. Thirty and sixty minutes after beginning VP, AA increased to -24 +/- 3% (P less than .05) and -26 +/- 2% (P less than .001), respectiviely. No significant change in plasma AA occurred in either sham controls or in animals given the subnatriuretic VP dose. Incubation of plasma with 1,000 muU/ml VP caused no increase in AA. The data show that VP natriuresis is accompanied by an increase in plasms AA. The results suggest that vasopressin natriuresis in hydropenic dogs at least in part to the release of a humoral inhibitor of renal tubular sodium transport.
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