Modification of Glutamate Receptor Channels: Molecular Mechanisms and Functional Consequences

-methyl-d-aspartate (NMDA) types] by phosphorylation and changes in subunit composition. AMPA- and kainate-activated receptors are modulated by adenosine 3, 5-monophosphate (cAMP) dependent protein kinase A (PKA) coupled via D1 dopamine receptors. An increase in the intracellular concentration of cAMP and protein kinase A potentiates kainate-activated currents in α-motoneurons of the spinal cord by increasing the affinity of the ligand (glutamate) for the phosphorylated receptor protein (GluR6 and 7). The rapid desensitization of AMPA-evoked currents normally observed in horizontal cells of the retina is completely blocked by increasing the intracellular concentration of cAMP. The effects of changes in subunit composition were examined in rat hippocampal neurons. The subunit composition of the NMDA receptor determines the kinetic properties of synaptic currents and can be regulated by the type of innervating neuron. Similar changes also occur during development. An important determinant here is the activity of the system. Dynamic regulation of excitatory receptors by both mechanisms may well be associated with some forms of learning and memory in the mammalian brain.