Quantal amplitude at the cone ribbon synapse can be adjusted by changes in cytosolic glutamate
نویسندگان
چکیده
PURPOSE Vision is encoded at photoreceptor synapses by the number of released vesicles and size of the post-synaptic response. We hypothesized that elevating cytosolic glutamate could enhance quantal size by increasing glutamate in vesicles. METHODS We introduced glutamate (10-40 mM) into cone terminals through a patch pipette and recorded excitatory post-synaptic currents (EPSCs) from horizontal or OFF bipolar cells in the Ambystoma tigrinum retinal slice preparation. RESULTS Elevating cytosolic glutamate in cone terminals enhanced EPSCs as well as quantal miniature EPSCs (mEPSCs). Enhancement was prevented by inhibiting vesicular glutamate transport with 1S,3R-1-aminocyclopentane-1,3-dicarboxylate in the patch pipette. A low affinity glutamate receptor antagonist, γD-glutamylglycine (1 mM), less effectively inhibited EPSCs evoked from cones loaded with glutamate than control cones indicating that release from cones with supplemental glutamate produced higher glutamate levels in the synaptic cleft. Raising presynaptic glutamate did not alter exocytotic capacitance responses and exocytosis was observed after inhibiting glutamate loading with the vesicular ATPase inhibitor, concanamycin A, suggesting that release capability is not restricted by low vesicular glutamate levels. Variance-mean analysis of currents evoked by flash photolysis of caged glutamate indicated that horizontal cell AMPA receptors have a single channel conductance of 10.1 pS suggesting that ~8.7 GluRs contribute to each mEPSC. CONCLUSIONS Quantal amplitude at the cone ribbon synapse is capable of adjustment by changes in cytosolic glutamate levels. The small number of channels contributing to each mEPSC suggests that stochastic variability in channel opening could be an important source of quantal variability.
منابع مشابه
Vesicle pool size at the salamander cone ribbon synapse . 1 2
23 Cone light responses are transmitted to post-synaptic neurons by changes in the rate of 24 synaptic vesicle release. Vesicle pool size at the cone synapse constrains the amount of release 25 and can thus shape contrast detection. We measured the number of vesicles in the rapidly 26 releasable and reserve pools at cone ribbon synapses by performing simultaneous whole cell 27 recording from co...
متن کاملModeling and measurement of vesicle pools at the cone ribbon synapse: Changes in release probability are solely responsible for voltage-dependent changes in release.
Postsynaptic responses are a product of quantal amplitude (Q), size of the releasable vesicle pool (N), and release probability (P). Voltage-dependent changes in presynaptic Ca(2+) entry alter postsynaptic responses primarily by changing P but have also been shown to influence N. With simultaneous whole cell recordings from cone photoreceptors and horizontal cells in tiger salamander retinal sl...
متن کاملRegulation of presynaptic strength by controlling Ca channel mobility: effects of cholesterol depletion on release at the cone ribbon synapse
Mercer AJ, Szalewski RJ, Jackman SL, Van Hook MJ, Thoreson WB. Regulation of presynaptic strength by controlling Ca channel mobility: effects of cholesterol depletion on release at the cone ribbon synapse. J Neurophysiol 107: 3468–3478, 2012. First published March 21, 2012; doi:10.1152/jn.00779.2011.—Synaptic communication requires proper coupling between voltage-gated Ca (CaV) channels and syn...
متن کاملVesicle pool size at the salamander cone ribbon synapse.
Cone light responses are transmitted to postsynaptic neurons by changes in the rate of synaptic vesicle release. Vesicle pool size at the cone synapse constrains the amount of release and can thus shape contrast detection. We measured the number of vesicles in the rapidly releasable and reserve pools at cone ribbon synapses by performing simultaneous whole cell recording from cones and horizont...
متن کاملSynaptic Ribbon Active Zones in Cone Photoreceptors Operate Independently from One Another
Cone photoreceptors depolarize in darkness to release glutamate-laden synaptic vesicles. Essential to release is the synaptic ribbon, a structure that helps organize active zones by clustering vesicles near proteins that mediate exocytosis, including voltage-gated Ca2+ channels. Cone terminals have many ribbon-style active zones at which second-order neurons receive input. We asked whether ther...
متن کامل