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Recent studies have suggested that transmitter release facilitation at synapses is largely mediated by presynaptic Ca2+ current facilitation, but the exact contribution of Ca2+ current facilitation has not been determined quantitatively. Here, we determine the contribution of Ca2+ current facilitation, and of an increase in the residual free Ca2+ concentration (Ca2+) in the nerve terminal, to paired-pulse facilitation of transmitter release at the calyx of Held. Under conditions of low release probability imposed by brief presynaptic voltage-clamp steps, transmitter release facilitation at short interstimulus intervals (4 ms) was 227 +/- 31% of control, Ca2+ current facilitation was 113 +/- 4% of control, and the peak residual Ca2+ was 252 +/- 18 nm over baseline. By inferring the 'local' Ca2+ transients that drive transmitter release during these voltage-clamp stimuli with the help of a kinetic release model, we estimate that Ca2+ current facilitation contributes to similar to 40% to paired-pulse facilitation of transmitter release. The remaining component of facilitation strongly depends on the build-up, and on the decay of the residual free Ca2+, but cannot be explained by linear summation of the residual free Ca2+, and the back-calculated 'local' Ca2+ signal, which only accounts for similar to 10% of the total release facilitation. Further voltage-clamp experiments designed to compensate for Ca2+ current facilitation demonstrated that about half of the observed transmitter release facilitation remains in the absence of Ca2+ current facilitation. Our results indicate that paired-pulse facilitation of transmitter release at the calyx of Held is driven by at least two distinct mechanisms: Ca2+ current facilitation, and a mechanism independent of Ca2+ current facilitation that closely tracks the time course of residual free Ca2+.
Eilif Benjamin Muller, Michael Reimann, James Gonzalo King, Marwan Muhammad Ahmed Abdellah, Pramod Shivaji Kumbhar, András Ecker, Sirio Bolaños Puchet, James Bryden Isbister, Daniela Egas Santander, Jorge Blanco Alonso, Giuseppe Chindemi, Ioannis Magkanaris