eLife (May 2016)

Ca2+ entry into neurons is facilitated by cooperative gating of clustered CaV1.3 channels

  • Claudia M Moreno,
  • Rose E Dixon,
  • Sendoa Tajada,
  • Can Yuan,
  • Ximena Opitz-Araya,
  • Marc D Binder,
  • Luis F Santana

DOI
https://doi.org/10.7554/eLife.15744
Journal volume & issue
Vol. 5

Abstract

Read online

CaV1.3 channels regulate excitability in many neurons. As is the case for all voltage-gated channels, it is widely assumed that individual CaV1.3 channels behave independently with respect to voltage-activation, open probability, and facilitation. Here, we report the results of super-resolution imaging, optogenetic, and electrophysiological measurements that refute this long-held view. We found that the short channel isoform (CaV1.3S), but not the long (CaV1.3L), associates in functional clusters of two or more channels that open cooperatively, facilitating Ca2+ influx. CaV1.3S channels are coupled via a C-terminus-to-C-terminus interaction that requires binding of the incoming Ca2+ to calmodulin (CaM) and subsequent binding of CaM to the pre-IQ domain of the channels. Physically-coupled channels facilitate Ca2+ currents as a consequence of their higher open probabilities, leading to increased firing rates in rat hippocampal neurons. We propose that cooperative gating of CaV1.3S channels represents a mechanism for the regulation of Ca2+ signaling and electrical activity.

Keywords