We next examined paired-pulse facilitation (PPF), a form of short-term synaptic plasticity that predicts release probability (Zucker and Regehr, 2002). Selleckchem PI3K Inhibitor Library Strikingly, the PPF ratios calculated at multiple intervals were significantly lower in slices expressing WT CaV2.2 HSV than in those expressing GFP HSV. The PPF ratios were not significantly different between slices expressing GFP HSV and 8X CaV2.2 HSV (Figure 7B). However, the reduction
in PPF ratio observed in slices expressing WT CaV2.2 HSV alone was absent in slices coexpressing WT CaV2.2 and DNK5 HSV (Figure S7B). The results are consistent with the hypothesis that neurons transduced with WT CaV2.2 HSV have a higher release probability and indicate that the enhancement of synaptic transmission relies on the activity of Cdk5. To explore whether Cdk5-mediated phosphorylation of CaV2.2 affects synaptic facilitation, another form of presynaptic plasticity, we applied different stimulus trains to the Schaffer collateral pathway. Synaptic facilitation did not differ between slices expressing GFP and 8X CaV2.2 HSV. As predicted for neurons with lower PPF, and therefore higher release probability, slices expressing WT CaV2.2 HSV exhibited a reduction in transient VE-821 chemical structure facilitation elicited during the stimulation (100 Hz at 0.5 mM [Ca2+]o) (Figure 7C). Moreover, the facilitation in slices expressing WT CaV2.2 HSV alone was absent when DNK5 HSV was coexpressed with WT CaV2.2 HSV, demonstrating the
requirement of Cdk5 activity 4-Aminobutyrate aminotransferase for CaV2.2-mediated synaptic facilitation (Figure S7C). We next examined short-term synaptic plasticity elicited by high-frequency stimuli (HFS). Compared to slices transduced with GFP HSV, there was a strong reduction in the initial field excitatory postsynaptic potential (fEPSP) slope following HFS in slices transduced with WT CaV2.2 HSV (Figure 7D). There were no differences in initial fEPSP slope between slices expressing GFP and
8X CaV2.2 HSV. Early-phase long-term potentiation (LTP), measured at 30 min poststimulation, was also considerably reduced in slices expressing WT CaV2.2 HSV when compared to slices expressing GFP HSV (Figure 7D). However, the altered plasticity in slices expressing WT CaV2.2 HSV alone was not observed with coexpression of DNK5 HSV (Figure S7D). In all experiments, there were no significant differences in plasticity measurements between slices expressing 8X CaV2.2 HSV alone and slices coexpressing 8X CaV2.2 and DNK5 HSV (Figures S7A–S7D). Collectively, these results demonstrate that Cdk5-mediated phosphorylation of WT CaV2.2 increases basal synaptic transmission and enhances presynaptic release probability, which in turn decreases synaptic facilitation and early-phase LTP. Here we demonstrated that the N-type calcium channel is a Cdk5 substrate. Phosphorylation of CaV2.2 by Cdk5 significantly increased calcium-current density and channel open probability. We further showed that the interaction between CaV2.