Abstract

We investigated the effects of hyperosmolality, chronic treatment with lithium chloride (LiCl), and the addition of LiCl in vitro on vasopressin-sensitive (VP) adenylate cyclase (AdC) and cAMP phosphodiesterase (cAMP-PDIE) activities in the medullary thick ascending limb of Henle's loop (MAL) and medullary collecting tubule (MCT) microdissected from the outer medulla of the rat kidney. A hyperosmolar medium (800 mosmol) markedly enhanced AdC activity stimulated by 10(-6) M VP specifically in MCT, while having little effect or slightly decreasing VP-stimulated AdC in MAL, compared to activities under standard isotonic conditions. Hyperosmolality decreased cAMP-PDIE activity to about the same degree in MAL and MCT. Inclusion of LiCl in the incubation medium (15-20 mM) caused a significant dose-dependent inhibition of VP-stimulated AdC activity in both MAL and MCT, but had no effect on CAMP-PDIE in either segment. AdC and cAMP-PDIE activities in MAL and MCT from chronic LiCl-treated polyuric rats did not differ from controls when assayed under standard isotonic conditions. However, when assayed in a hyperosmolar (800 mosmol) medium, VP-sensitive AdC activity was significantly lower (P < 0.01) in MCT from LiCl-treated rats compared to control levels, while VP-sensitive AdC in MAL did not differ in LiCl-treated and control rats. The present results suggest that lowered VP-sensitive AdC activity in MCT of LiCl-treated polyuric rats may contribute to the observed lower concentrating ability and collecting tubule resistance to VP. Inhibition of VP-sensitive AdC in MAL as well as MCT by the acute addition of LiCl in vitro may explain the decreased urinary diluting ability observed with acute infusions of Li salts in vivo in the rat.