The outward postsynaptic currents could be blocked by SR95531 (50 μM, n = 8, Figure 1C) but not by CNQX (40 μM, n = 44, Figure 1E) or a combination of HEX (200 μM) and CNQX (40 μM, n = 4, Figure 1D). These results demonstrated, at a synaptic level, that SACs released both ACh and GABA onto DSGCs, and that both of these transmitters mediated fast synaptic transmission. Notably, the maximum amplitude of the nicotinic current in a DSGC (typically evoked by presynaptic depolarization of a SAC from −70 mV to
−10 mV or above, Figure 1B) showed no statistically significant difference, regardless of whether the presynaptic SAC was located on the preferred (n = 22), null (n = 20), or intermediate (n = Depsipeptide supplier 4) side of the DSGC (mean ± standard error of the mean [SEM]: 183 ± 19, 138 ± 20, and 135 ± 12 pA, respectively; p = 0.22, one-way analysis of variance (ANOVA), Figure 1F). Proteasome inhibitor In contrast, the maximum GABA response amplitude in DSGCs (evoked typically by presynaptic depolarization from −70 mV to about −10 mV or above) was significantly smaller for preferred side (34 ± 9 pA, n = 22, Figure 1F) than for null side (321 ± 28 pA, n = 20, p < 0.01),
and intermediate side (228 ± 35 pA, n = 5, p = 0.01) SAC stimulation, though no statistical difference was resolved between the null and intermediate directions (p = 0.14) (one-way ANOVA with Games-Howell post hoc test). To rule out the possibility that extrasynaptic spill-over of a large amount of
released ACh might lead to similar cholinergic response amplitudes from preferred and null directions, we also compared postsynaptic responses Oxalosuccinic acid to a low-level ACh release (evoked by depolarizing the presynaptic SAC to just above the threshold for ACh release). We define first-detectable response as the first postsynaptic response generated by a series of presynaptic depolarizing steps (in 10 mV amplitude increments). The first-detectable nicotinic response (typically evoked by a depolarizing step from −70 to −30 mV), which was much smaller than the maximum response, also showed no statistically significant difference in amplitude among the preferred (n = 22), null (n = 20), and intermediate (n = 4) directions (mean ± SEM: 49 ± 6, 50 ± 9, and 41 ± 2 pA, respectively; p = 0.86, one-way ANOVA, Figure 1H). However, the first-detectable GABA responses were again significantly smaller from the preferred (16 ± 4, n = 22) direction than from the null (271 ± 27, n = 20, p < 0.01) and intermediate (189 ± 42 pA, p < 0.05, Figure 1I) directions (one-way ANOVA with Games-Howell post hoc test).