Heterogeneity of Postsynaptic Receptor Occupancy Fluctuations among Glycinergic Inhibitory Synapses in the Zebrafish Hindbrain |
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Authors: | Jean-Michel Rigo Carmen Ionela Badiu Pascal Legendre |
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Institution: | UMR 7102 CNRS, UniversitéPierre et Marie Curie, Bât B 6ème étage, 7 Quai Saint Bernard, 75252 Paris Cedex 05, France;Center for Cellular and Molecular Neurobiology, University of Liège, 17 place Delcour, 4020 Liège, Belgium |
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Abstract: | The amplitude of glycinergic miniature inhibitory postsynaptic currents (mIPSCs) varies considerably in neurons recorded in the isolated hindbrain of 50-h-old zebrafish larvae. At this age, glycinergic synapses are functionally mature. In order to measure the occupancy level of postsynaptic glycine receptors (GlyRs) and to determine the pre- and/or postsynaptic origin of its variability, we analysed mIPSCs within bursts evoked by α-latrotoxin (0.1–1 n m ). Two types of burst were observed according to their mIPSC frequencies: 'slow' bursts with clearly spaced mIPSCs and 'fast' bursts characterised by superimposed events. Non-stationary noise analysis of mIPSCs in some 'slow' bursts recorded in the presence or in the absence of Ca2+ denoted that mIPSC amplitude variance did not depend on the quantity of neurotransmitters released (presynaptic origin), but rather on intrinsic stochastic behaviour of the same group of GlyRs (postsynaptic origin). In these bursts, the open probability measured at the peak of the mIPSCs was close to 0.5 while the maximum open probability is close to 0.9 for the synaptic isoform of GlyRs (heteromeric α1/β GlyRs). In 'fast' bursts with superimposed events, a correlation was found between the amplitude of mIPSCs and the basal current level measured at their onset, which could suggest that the same group of GlyRs is activated during such bursts. Altogether, our results indicate that glycine synapses can display different release modes in the presence of α-latrotoxin. They also indicate that, in our model, postsynaptic GlyRs cannot be saturated by the release of a single vesicle. |
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