Abstract
KCC2 is a neuron specific K+-Cl− co-transporter that controls neuronal chloride homeostasis, and is critically involved in many neurological diseases including brain trauma, epilepsies, autism and schizophrenia. Despite significant accumulating data on the biology and electrophysiological properties of KCC2, structure-function relationships remain poorly understood. Here we used calixarene detergent to solubilize and purify wild-type non-aggregated and homogenous KCC2. Specific binding of inhibitor compound VU0463271 was demonstrated using surface plasmon resonance (SPR). Mass spectrometry revealed glycosylations and phosphorylations as expected from functional KCC2. We show by electron microscopy (EM) that KCC2 exists as monomers and dimers in solution. Monomers are organized into “head” and “core” domains connected by a flexible “linker”. Dimers are asymmetrical and display a bent “S-shape” architecture made of four distinct domains and a flexible dimerization interface. Chemical crosslinking in reducing conditions shows that disulfide bridges are involved in KCC2 dimerization. Moreover, we show that adding a tag to the C-terminus is detrimental to KCC2 function. We postulate that the conserved KCC2 C-ter may be at the interface of dimerization. Taken together, our findings highlight the flexible multi-domain structure of KCC2 with variable anchoring points at the dimerization interface and an important C-ter extremity providing the first in-depth functional architecture of KCC2.
Highlights
Fast inhibitory neurotransmission in the central nervous system (CNS) is mediated by GABA and glycine via ligand-gated Cl− channels
This assay relies on the ability of KCC2 to act either in influx or efflux mode according to the ion gradients present, combined with the ability of thallium to be transported by potassium transporters
Both the KCC2-WT and Flag-Avi-His-KCC2 exhibited VU0463271-induced positive shifts of equilibrium potential for glycine currents (EGLY) values (Fig. 1C) but no VU0463271-induced shifts were observed in cells expressing the KCC2-His-Avi-Flag (Fig. 1D) construct
Summary
To address whether KCC2 purified from HEK293 plasma membrane fractions forms aggregates, oligomers or monomers, the protein was assessed by Native PAGE to previously reported work[25]. Recombinant mouse KCC2 purified from HEK293 cells using the same solubilization and purification procedures, showed a virtually identical Native PAGE profile with a monomer and dimer band, but no aggregates and/ or higher oligomers (Figure S3) suggesting a common molecular assembly conserved between mouse and human KCC2. Gel filtration analysis confirmed a non-aggregated state of purified human KCC2 with no KCC2 in the void volume fraction and a separation between dimeric and monomeric populations shown by Native PAGE (Fig. 4B). The presence of DTT results in a significant reduction of dimerization suggesting that disulfide bridges are involved in KCC2 dimerization
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