Litcius/Paper detail

Phospho‐regulation, nucleotide binding and ion access control in potassium‐chloride cotransporters

Gamma Chi, Rebecca Ebenhoch, Henry Man, Haiping Tang, Laurence Tremblay, Gabriella Reggiano, Xingyu Qiu, Tina Bohstedt, Idlir Liko, Fernando Almeida, Alexandre P. Garneau, Dong Wang, G. McKinley, C. Moreau, Kiran Bountra, Patrizia Abrusci, Shubhashish Mukhopadhyay, Alejandra Fernandez‐Cid, Samira Slimani, Julie L. Lavoie, N. Burgess-Brown, B.G. Tehan, Frank DiMaio, Ali Jazayeri, Paul Isenring, Carol V. Robinson, Katharina L. Dürr

2021The EMBO Journal41 citationsDOIOpen Access PDF

Abstract

Potassium-coupled chloride transporters (KCCs) play crucial roles in regulating cell volume and intracellular chloride concentration. They are characteristically inhibited under isotonic conditions via phospho-regulatory sites located within the cytoplasmic termini. Decreased inhibitory phosphorylation in response to hypotonic cell swelling stimulates transport activity, and dysfunction of this regulatory process has been associated with various human diseases. Here, we present cryo-EM structures of human KCC3b and KCC1, revealing structural determinants for phospho-regulation in both N- and C-termini. We show that phospho-mimetic KCC3b is arrested in an inward-facing state in which intracellular ion access is blocked by extensive contacts with the N-terminus. In another mutant with increased isotonic transport activity, KCC1Δ19, this interdomain interaction is absent, likely due to a unique phospho-regulatory site in the KCC1 N-terminus. Furthermore, we map additional phosphorylation sites as well as a previously unknown ATP/ADP-binding pocket in the large C-terminal domain and show enhanced thermal stabilization of other CCCs by adenine nucleotides. These findings provide fundamentally new insights into the complex regulation of KCCs and may unlock innovative strategies for drug development.

Topics & Concepts

CotransporterPhosphorylationBiologyIntracellularNucleotideCytoplasmMutantCell biologyCytosolChloride channelIon transporterBiochemistryBinding siteBiophysicsSodiumChemistryGeneEnzymeOrganic chemistryMembraneIon Transport and Channel RegulationIon channel regulation and functionProtein Kinase Regulation and GTPase Signaling