eLife (Oct 2016)

Proteolytic maturation of α2δ represents a checkpoint for activation and neuronal trafficking of latent calcium channels

  • Ivan Kadurin,
  • Laurent Ferron,
  • Simon W Rothwell,
  • James O Meyer,
  • Leon R Douglas,
  • Claudia S Bauer,
  • Beatrice Lana,
  • Wojciech Margas,
  • Orpheas Alexopoulos,
  • Manuela Nieto-Rostro,
  • Wendy S Pratt,
  • Annette C Dolphin

DOI
https://doi.org/10.7554/eLife.21143
Journal volume & issue
Vol. 5

Abstract

Read online

The auxiliary α2δ subunits of voltage-gated calcium channels are extracellular membrane-associated proteins, which are post-translationally cleaved into disulfide-linked polypeptides α2 and δ. We now show, using α2δ constructs containing artificial cleavage sites, that this processing is an essential step permitting voltage-dependent activation of plasma membrane N-type (CaV2.2) calcium channels. Indeed, uncleaved α2δ inhibits native calcium currents in mammalian neurons. By inducing acute cell-surface proteolytic cleavage of α2δ, voltage-dependent activation of channels is promoted, independent from the trafficking role of α2δ. Uncleaved α2δ does not support trafficking of CaV2.2 channel complexes into neuronal processes, and inhibits Ca2+ entry into synaptic boutons, and we can reverse this by controlled intracellular proteolytic cleavage. We propose a model whereby uncleaved α2δ subunits maintain immature calcium channels in an inhibited state. Proteolytic processing of α2δ then permits voltage-dependent activation of the channels, acting as a checkpoint allowing trafficking only of mature calcium channel complexes into neuronal processes.

Keywords