Journal Article

FZJ-2023-03082

http://join2-wiki.gsi.de/foswiki/pub/Main/Artwork/join2_logo100x88.png Apo state pore opening as functional basis of increased EAAT anion channel activity in episodic ataxia 6

Suslova, M. ; Kortzak, D.FZJ* ; Machtens, J.-P.FZJ* ; Kovermann, P.FZJ* ; Fahlke, C. (Corresponding author)FZJ*

2023
Frontiers Research Foundation Lausanne

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Please use a persistent id in citations: doi:10.3389/fphys.2023.1147216  doi:10.34734/FZJ-2023-03082

Abstract: SLC1A2 and SLC1A3 encode the glial glutamate transporters EAAT2 and EAAT1,which are not only the predominant glutamate uptake carriers in our brain, butalso function as anion channels. Two homologous mutations, which predictsubstitutions of prolines in the center of the fifth transmembrane helix byarginine (P289R EAAT2, P290R EAAT1), have been identified in patients withepileptic encephalopathy (SLC1A2) or with episodic ataxia type 6 (SLC1A3).Both mutations have been shown to impair glutamate uptake and to increaseanion conduction. The molecular processes that link the disease-causingmutations to two major alterations of glutamate transporter function remaininsufficiently understood. The mutated proline is conserved in every EAAT.Since the pathogenic changes mainly affect the anion channel function, wehere study the functional consequences of the homologous P312R mutation inthe neuronal glutamate transporter EAAT4, a low capacity glutamate transporterwith predominant anion channel function. To assess the impact of charge andstructure of the inserted amino acid for the observed functional changes, wegenerated and functionally evaluated not only P312R, but also substitutions ofP312 with all other amino acids. However, only exchange of proline by arginine,lysine, histidine and asparagine were functionally tolerated. We compared WT,P312R and P312N EAAT4 using a combination of cellular electrophysiology, fastsubstrate application and kinetic modelling. We found that WT and mutantEAAT4 anion currents can be described with a 11-state model of the transportcycle, in which several states are connected to branching anion channel states toaccount for the EAAT anion channel function. Substitutions of P312 modify varioustransitions describing substrate binding/unbinding, translocation or anion channelopening. Most importantly, P312R generates a new anion conducting state that isaccessible in the outward facing apo state and that is the main determinant of theincreased anion conduction of EAAT transporters carrying this mutation. Our workprovides a quantitative description how a naturally occurring mutation changesglutamate uptake and anion currents in two genetic diseases.

Note: This work was supported by the Deutsche Forschungsgemeinschaft to J-PM. (MA 7525/1-1) and CF. (FA 301/12-1) as part of the Research Unit FOR 2518, DynIon; project P4, and the BMBF TreatIon 01GM2210D—Jülich to CF

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Contributing Institute(s):

1. Molekular- und Zellphysiologie (IBI-1)

Research Program(s):

1. 5241 - Molecular Information Processing in Cellular Systems (POF4-524) (POF4-524)
2. DFG project G:(GEPRIS)291198853 - FOR 2518: Funktionale Dynamik von Ionenkanälen und Transportern - DynIon - (291198853) (291198853)

Appears in the scientific report 2024

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