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RECEPTORS AND SIGNAL TRANSDUCTION

Evidence for Ca²⁺-permeable AMPA receptors in the olfactory bulb

Department of Biological Science, Florida State University, Tallahassee, Florida

Submitted 3 August 2005 ; accepted in final form 25 October 2005

-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptors (AMPARs), a subtype of glutamate receptor, contribute to olfactory processing in the olfactory bulb (OB). These ion channels consist of various combinations of the subunits GluR1–GluR4, which bestow certain properties. For example, AMPARs that lack GluR2 are highly permeable to Ca²⁺ and generate inwardly rectifying currents. Because increased intracellular Ca²⁺ could trigger a host of Ca²⁺-dependent odor-encoding processes, we used whole cell recording as well as histological and immunocytochemical (ICC) techniques to investigate whether AMPARs on rat OB neurons flux Ca²⁺. Application of 1-naphthylacetyl spermine (NAS), a selective antagonist of Ca²⁺-permeable AMPARs (CP-AMPARs), inhibited AMPAR-mediated currents in subsets of interneurons and principal cells in cultures and slices. The addition of spermine to the electrode yielded inwardly rectifying current-voltage plots in some cells. In OB slices, olfactory nerve stimulation elicited excitatory responses in juxtaglomerular and mitral cells. Bath application of NAS with D,L-2-amino-5-phosphonovaleric acid (AP5) to isolate AMPARs suppressed the amplitudes of these synaptic responses compared with responses obtained using AP5 alone. Co²⁺ staining, which involves the kainate-stimulated influx of Co²⁺ through CP-AMPARs, produced diverse patterns of labeling in cultures and slices as did ICC techniques used with a GluR2-selective antibody. These results suggest that subsets of OB neurons express CP-AMPARs, including functional CP-AMPARs at synapses. Ca²⁺ entry into cells via these receptors could influence odor encoding by modulating K⁺ channels, N-methyl-D-aspartate receptors, and Ca²⁺-binding proteins, or it could facilitate synaptic vesicle fusion.

GluR2; polyamines; cobalt; glutamate receptor; olfaction

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