Effects of Mn2+ and other divalent cations on adenylate cyclase activity in rat brain.

Abstract— Mn²⁺ caused an 8-to 16-fold stimulation of adenylate cyclase activity in homogenates as well as synaptosomcs. isolated synaptic membranes, and slices prepared from rat brain. The stimulation occurred at low concentrations of Mn²⁺. with a doubling of activity at 50-60μM. and was unaffected by a 60-fold excess of Mg²⁺. Whether or not Mg²⁺ was added, inclusion of a low concentration of Mn²⁺ reduced, but did not prevent the stimulation of adenylate cyclase caused by dopaminc in homogenates of corpus striatum. In contrast, Ca²⁺. at a concentration that had little effect on basal cyclase activity, completely prevented the stimulation by dopamine. The increase of cyclase activity produced by Mn²⁺ in brain homogenates was potentiated by F^?. Other ions, notably Hg²⁺. Pb²⁺. Cu²⁺ and Zn²⁺. in order of decreasing potency, inhibited both basal and Mn^2--stimulated cyclase activity. It is proposed that the effect of Mn²⁺ on adenylate cyclase activity may involve only the catalytic subunit of the enzyme, and that the mechanism is different from that by which either dopamine or F^? stimulates the enzyme. These results suggest that the effects of low concentrations of Mn²⁺ and certain other divalent metal ions on adenylate cyclase activity may be involved in their neuropsychiatrie or other toxic effects, and that such ions may also participate in normal physiological mechanisms involving cyclic nucleotides.