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Influence of Oxytocin on Renal Hemodynamics and Sodium Excretion

Acute administration of physiological doses of synthetic OT to conscious Long-Evans and Brattleboro homozygous diabetes insipidus rats produced a modest increase in GFR and effective filtration fraction. Chronic administration of OT to DI rats for 9 days in dosages that were antidiuretic (plasma OT...

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Published in:Annals of the New York Academy of Sciences 1993-07, Vol.689 (1), p.346-362
Main Authors: CONRAD, KIRK P., GELLAI, MIKLOS, NORTH, WILLIAM G., VALTIN, HEINZ
Format: Article
Language:English
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Summary:Acute administration of physiological doses of synthetic OT to conscious Long-Evans and Brattleboro homozygous diabetes insipidus rats produced a modest increase in GFR and effective filtration fraction. Chronic administration of OT to DI rats for 9 days in dosages that were antidiuretic (plasma OT ca. 100 pg/ml) increased both GFR and ERPF by 40%. Table 1 summarizes these renal hemodynamic changes and compares them to the renal effects of VP. Further investigation is needed to define the mechanisms responsible for the changes in GFR and/or ERPF produced by acute and chronic administration of OT to conscious rats. Acute administration of physiological doses of synthetic OT to conscious LE and DI rats also produced a brisk natriuresis with a marked increase in the fractional excretion of sodium. A natriuresis was also observed in conscious Sprague-Dawley rats administered physiological amounts of OT by subcutaneous osmotic minipump. The natriuretic effect of the hormone was short lived, however, being observed only during the first 24-hr period of treatment. The nephron site where OT exerts its natriuretic action, either directly or indirectly, is unknown. Renal prostaglandins may contribute to OT-induced natriuresis, but other mechanisms such as increased renal production of nitric oxide and cGMP have not been tested. Although the natriuretic response to OT has also been described for conscious dogs, it probably does not occur in humans and nonhuman primates. Precise localization of specific renal OT receptors has recently been reported for the rat. OT receptors were identified in the macula densa cells of the adult, rat kidney. This location suggests a possible role for OT in the regulation of tubuloglomerular feedback and solute transport. The signal transduction of the renal OT receptor has been recently evaluated in various kidney epithelial cells in culture. OT stimulates phosphoinositide hydrolysis and increases cytosolic calcium concentrations. In fact, VP produces similar cellular responses in renal epithelia, possibly through the OT receptor. Also, OT stimulates soluble guanylate cyclase and increases intracellular cGMP. Whether OT activates soluble guanylate cyclase secondarily through the production of nitric oxide has not been tested. An important role for OT in renal sodium homeostasis under basal conditions is likely, at least for the rat. Moreover, OT possibly mediates dehydration natriuresis in lower animal species. The contribution of OT t
ISSN:0077-8923
1749-6632
DOI:10.1111/j.1749-6632.1993.tb55559.x