Structural determinants underlying permeant discrimination of the Cx43 hemichannel

Brian Skriver Nielsen, Francesco Zonta, Thomas Farkas, Thomas Litman, Morten Schak Nielsen, Nanna Macaulay

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Abstract

Connexin (Cx) gap junction channels comprise two hemichannels in neighboring cells, and their permeability is well-described, but permeabilities of the single Cx hemichannel remain largely unresolved. Moreover, determination of isoform-specific Cx hemichannel permeability is challenging because of concurrent expression of other channels with similar permeability profiles and inhibitor sensitivities. The mammalian Cx hemichannels Cx30 and Cx43 are gated by extracellular divalent cations, removal of which promotes fluorescent dye uptake in both channels but atomic ion conductance only through Cx30. To determine the molecular determinants of this difference, here we employed chimeras and mutagenesis of predicted pore-lining residues in Cx43. We expressed the mutated channels in Xenopus laevis oocytes to avoid background activity of alternative channels. Oocytes expressing a Cx43 hemichannel chimera containing the N terminus or the first extracellular loop from Cx30 displayed ethidium uptake and, unlike WT Cx43, ion conduction, an observation further supported by molecular dynamics simulations. Additional C-terminal truncation of the chimeric Cx43 hemichannel elicited an even greater ion conductance with a magnitude closer to that of Cx30. The inhibitory profile for the connexin hemichannels depended on the permeant, with conventional connexin hemichannel inhibitors having a higher potency toward the ion conductance pathway than toward fluorescent dye uptake. Our results demonstrate a permeant-dependent, isoform-specific inhibition of connexin hemichannels. They further reveal that the outer segments of the pore-lining region, including the N terminus and the first extracellular loop, together with the C terminus preclude ion conductance of the open Cx43 hemichanne
Original languageEnglish
JournalJournal of Biological Chemistry
Volume294
Issue number45
Pages (from-to)16789-16803
Number of pages15
ISSN0021-9258
DOIs
Publication statusPublished - 2019

Keywords

  • connexin
  • permeability
  • pharmacology
  • biophysics
  • computer modeling
  • connexon (hemichannel)
  • gap junction
  • connexin 30
  • connexin 43
  • ion conductivity
  • membrane channel

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