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The Journal of Neuroscience, May 24, 2006, 26(21):5698-5708; doi:10.1523/JNEUROSCI.4889-05.2006

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Cellular/Molecular
Amplitude and Kinetics of Action Potential-Evoked Ca²⁺ Current and Its Efficacy in Triggering Transmitter Release at the Developing Calyx of Held Synapse

Yi-Mei Yang and Lu-Yang Wang

The Program for Brain and Behavioral Research and Division of Neurology, The Hospital for Sick Children, and Department of Physiology, University of Toronto, Toronto, Ontario, Canada M5G 1X8

Correspondence should be addressed to Dr. Lu-Yang Wang, Division of Neurology, The Hospital for Sick Children, 555 University Avenue, Toronto, Ontario, Canada M5G 1X8. Email: luyang.wang{at}utoronto.ca

Action potentials (APs) play a crucial role in evoking Ca²⁺ currents (I_Ca) through voltage-gated calcium channels (VGCCs) and transmitter release. During development and neuromodulation, both depolarization and repolarization phases of APs change, but how such changes affect the characteristics of I_Ca and its efficacy at central synapses is not clear. By paired voltage-clamp recordings of I_Ca and excitatory postsynaptic currents (I_EPSC) with pseudo-APs and real APs, we examined these issues in the developing calyx of Held synapse of postnatal mice. We found that speeding the AP depolarization rate primarily reduces the number of activated VGCCs, whereas shortening the AP repolarization phase decreases the number of activated VGCCs and accelerates their kinetics. The I_Ca–I_ESPC relationships are well predicted by the integral but not the amplitude of I_Ca, and exhibit development- and temperature-dependent shifts toward left, indicating an enhancement in downstream Ca²⁺ coupling efficacy. Cross-correlation analyses of I_Ca and I_EPSC evoked by real APs and pseudo-APs demonstrated that AP shortening in the half-width from 0.4 ms at postnatal day 8 (P8)–P12 to 0.27 ms at P16–P18 decreases I_Ca integral by 36%, but increases I_EPSC by 72% as a result of developmental upregulation in coupling efficacy. These counteracting actions maintain the release fraction evoked by an AP at 10% of the maximal quantal output. We suggest that AP narrowing is a critical adaptation for the calyx of Held synapse to control the quantal output per AP and is likely important for the efficient use of the readily releasable pool of synaptic vesicles during high-frequency neurotransmission.

Key words: calyx of Held synapse; action potential; Ca²⁺ current; transmitter release; developmental plasticity; temporal fidelity

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Received July 17, 2005; revised April 7, 2006; accepted April 17, 2006.

Correspondence should be addressed to Dr. Lu-Yang Wang, Division of Neurology, The Hospital for Sick Children, 555 University Avenue, Toronto, Ontario, Canada M5G 1X8. Email: luyang.wang{at}utoronto.ca

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