Methyl Mercury Increases Intracellular Ca2+ and Inositol Phosphate Levels in Cultured Cerebellar Granule Neurons

Abstract: In an effort to explain the previously observed methyl mecury (MeHg)-induced stimulation of protein phosphorylation in cerebellar granule neuron cultures, the effect of MeHg on protein kinase activities in cell-free assays and on second messenger systems in cultured neurons has been examined. Using cell-free assays for several protein kinases, no stimulation of enzyme activity was found at any concentration of MeHg tested. After 24 h exposure, 1–5 μ M MeHg was found to have no significant effect on neuronal cyclic AMP levels. In contrast, intracellular levels of Ca²⁺ and rates of ⁴⁵Ca²⁺ uptake were elevated 2.2-fold and 3.6-fold, respectively, by 5 μ M MeHg. These effects were not observed with mercuric chloride, triethyllead, or lead acetate. Measurement of inositol phosphate production in granule cell cultures revealed a sensitive, pretoxic effect of MeHg with twofold stimulation following 30-min exposure to 5 μ M MeHg and 1.6-fold after 24-h exposure to 3 μ M MeHg. Detection of inositol phosphate production after 30 min of MeHg was largely neuron-specific. These results suggest that second messenger-mediated activation of select protein kinase enzymes may be the mechanism underlying MeHg-induced stimulation of protein phosphorylation in cerebellar neuronal culture. In addition, these findings indicate a specific interference with neuronal signal transduction and suggest a basis for the selective neurotoxic action of this agent.