Control of spontaneous synchronous Ca2+ oscillations in hippocampal neurons by GABAergic neurons containing kainate receptors without desensitization

Previously we have shown that in culture of rat hippocampal neurons, the calcium responses of individual cells (changes of cytoplasmic free Ca2+ concentration in response to agonists of glutamate kainate receptors) differed in shape and amplitude (Kononov A.V., Bal’ N.V., Zinchenko V.P. 2011. Biochemistry (Moscow) Suppl. Series A: Membrane and Cell Biology.5 (2), 162–170). In the majority of neurons, the amplitudes of calcium response were regularly distributed, although there were a small number of cells that generated the desensitization-free signals of far greater amplitudes. In these cells, the desensitization inhibitors did not increase the amplitude of calcium response. We identified these neurons and revealed their function. The agonists of kainate receptors inhibited the synchronized spontaneous Ca2+ oscillations, decreased the baseline calcium level in the majority of neurons, and considerably elevated it in some of them. After washout of the agonists, the oscillations were restored in all neurons only after a certain time lag determined by the period needed for calcium concentration to decrease to subbasal level in specific neurons with high calcium signal amplitude. This observation indicates the command role of these neurons in synchronizing the activity of the entire population. To identify the subtype of KA receptors in these neurons, we used especially selective agonists and showed that KA receptors of the neurons characterized with desensitization-free calcium signals of unusually great amplitude contained GluR5/GLUK1 subunits. These receptors are known to be located mostly in the presynaptic membrane, where they promote exocytosis of neurotransmitters due to elevation of the Ca2+ conductivity. Having marked the positions of these neurons, we fixed the preparation and stained the cells with fluorescently labeled antibodies raised against glutamate decarboxylase, an enzyme which is selectively expressed in GABAergic neurons. The experiments demonstrated that antibodies were localized only in the neurons, where the kainate receptor agonist evoked desensitization-free calcium responses of especially large amplitude. Thus, GABAergic neurons control the synchronous activity of a large number of neurons via glutamate-evoked activation of specific presynaptic kainate receptors with GluR5/GLUK1 subunits leading to desensitization-free calcium signals of especially large amplitude.