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Mobility of Calcium Channels in the Presynaptic Membrane

2015; Cell Press; Volume: 86; Issue: 3 Linguagem: Inglês

10.1016/j.neuron.2015.03.050

1097-4199

Romy Schneider, Eric Hosy, Johannes Kohl, Julia Klueva, Daniel Choquet, Ulrich Thomas, Andreas Voigt, Martin Heine,

Ion channel regulation and function

Unravelling principles underlying neurotransmitter release are key to understand neural signaling. Here, we describe how surface mobility of voltage-dependent calcium channels (VDCCs) modulates release probabilities (Pr) of synaptic vesicles (SVs). Coupling distances of 100 nm have been reported for SVs and VDCCs in different synapses. Tracking individual VDCCs revealed that within hippocampal synapses, ∼60% of VDCCs are mobile while confined to presynaptic membrane compartments. Intracellular Ca2+ chelation decreased VDCC mobility. Increasing VDCC surface populations by co-expression of the α2δ1 subunit did not alter channel mobility but led to enlarged active zones (AZs) rather than higher channel densities. VDCCs thus scale presynaptic scaffolds to maintain local mobility. We propose that dynamic coupling based on mobile VDCCs supports calcium domain cooperativity and tunes neurotransmitter release by equalizing Pr for docked SVs within AZs.