Effects of systemically administered lithium on phosphoinositide metabolism in rat brain, kidney, and testis

Abstract

A single subcutaneous dose of 10 mEq/kg LiCl gives rise to an increase in the cerebral cortex level of myo-inositol-1-P (I1P) that closely follows cortical lithium levels and, at maximum, is 40-fold above the control value. Kidney and testis show smaller increases in I1P level following LiCl administration. The I1P level is still sixfold greater than that of untreated rat cortex 72 h later. In cortex, parallel increases also occur in myo-inositol-4-P (I4P) and myo-inositol 1,2-cyclic-P (cI1,2P), whereas myo-inositol-5-P (I5P) remains unchanged. The cortical increases in I1P and I4P levels are partially reversed by administering 150 mg/kg of atropine 22 h after the LiCl, treatment that does not affect cI1,2P. When doses of LiCl from 2 to 17 mEq/kg are given, the cerebral cortex levels of I1P and myo-inositol, measured 24 h later, are found to reach a plateau at about 9 mEq/kg of LiCl, whereas cortical lithium levels continued to increase with greater LiCl doses. Levels of all three of the brain phosphoinositides are unchanged by the 10 mEq/kg LiCl dose, as is the uptake of 32Pi into these lipids. Chronic dietary administration of LiCl for 22 days showed that the effects of lithium on I1P and myo-inositol levels persist for that period. Over the course of the chronic administration of the lithium, levels of I1P, myo-inositol, and of lithium in cortex remained significantly correlated. We believe that these increases in inositol phosphates result from endogenous phosphoinositide metabolism in cerebral cortex and that lithium is capable of modulating that metabolism by reducing cellular myo-inositol levels. The size of the effect is a function of both lithium dose and the degree of stimulation of receptor-linked phosphoinositide metabolism. This property of lithium may explain part of its ability to moderate the symptoms of mania. Our chronic study suggests that prolonged administration of LiCl does not result in compensatory changes in myo-inositol-1-P synthase or myo-inositol-1-phosphatase.