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Calcium-channel number critically influences synaptic strength and plasticity at the active zone.


ABSTRACT: How synaptic-vesicle release is controlled at the basic release structure, the active zone, is poorly understood. By performing cell-attached current and capacitance recordings predominantly at single active zones in rat calyces, we found that single active zones contained 5-218 (mean, 42) calcium channels and 1-10 (mean, 5) readily releasable vesicles (RRVs) and released 0-5 vesicles during a 2-ms depolarization. Large variation in the number of calcium channels caused wide variation in release strength (measured during a 2-ms depolarization) by regulating the RRV release probability (P(RRV)) and the RRV number. Consequently, an action potential opened ?1-35 (mean, ?7) channels, resulting in different release probabilities at different active zones. As the number of calcium-channels determined P(RRV), it critically influenced whether subsequent release would be facilitated or depressed. Regulating calcium channel density at active zones may thus be a major mechanism to yield synapses with different release properties and plasticity. These findings may explain large differences reported at synapses regarding release strength (release of 0, 1 or multiple vesicles), P(RRV), short-term plasticity, calcium transients and the requisite calcium-channel number for triggering release.

SUBMITTER: Sheng J 

PROVIDER: S-EPMC4891200 | biostudies-literature | 2012 Jun

REPOSITORIES: biostudies-literature

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Calcium-channel number critically influences synaptic strength and plasticity at the active zone.

Sheng Jiansong J   He Liming L   Zheng Hongwei H   Xue Lei L   Luo Fujun F   Shin Wonchul W   Sun Tao T   Kuner Thomas T   Yue David T DT   Wu Ling-Gang LG  

Nature neuroscience 20120610 7


How synaptic-vesicle release is controlled at the basic release structure, the active zone, is poorly understood. By performing cell-attached current and capacitance recordings predominantly at single active zones in rat calyces, we found that single active zones contained 5-218 (mean, 42) calcium channels and 1-10 (mean, 5) readily releasable vesicles (RRVs) and released 0-5 vesicles during a 2-ms depolarization. Large variation in the number of calcium channels caused wide variation in release  ...[more]

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