Glycine receptor α3K governs mobility and conductance of L/K splice variant heteropentamers

Abstract

Glycine receptors (GlyRs) are ligand-gated pentameric chloride channels in the central nervous system. GlyR-α3 is a possible target for chronic pain treatment and temporal lobe epilepsy. Alternative splicing into K or L variants determines the subcellular fate and function of GlyR-α3, yet it remains to be shown whether its different splice variants can functionally co-assemble, and what the properties of such heteropentamers would be. Here, we subjected GlyR-α3 to a combined fluorescence microscopy and electrophysiology analysis. We employ masked Pearson’s and dual-color spatiotemporal correlation analysis to prove that GlyR-α3 splice variants heteropentamerize, adopting the mobility of the K variant. Fluorescence-based single-subunit counting experiments revealed a variable and concentration ratio dependent hetero-stoichiometry. Via single-channel on-cell patch clamp we show heteropentameric conductances resemble those of the α3K splice variant. Our data are compatible with a model where α3 heteropentamerization fine-tunes mobility and activity of GlyR α3 channels, which is important to understand and tackle α3 related diseases.