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Mechanism of proton/substrate coupling in the heptahelical lysosomal transporter cystinosin.


ABSTRACT: Secondary active transporters use electrochemical gradients provided by primary ion pumps to translocate metabolites or drugs "uphill" across membranes. Here we report the ion-coupling mechanism of cystinosin, an unusual eukaryotic, proton-driven transporter distantly related to the proton pump bacteriorhodopsin. In humans, cystinosin exports the proteolysis-derived dimeric amino acid cystine from lysosomes and is impaired in cystinosis. Using voltage-dependence analysis of steady-state and transient currents elicited by cystine and neutralization-scanning mutagenesis of conserved protonatable residues, we show that cystine binding is coupled to protonation of a clinically relevant aspartate buried in the membrane. Deuterium isotope substitution experiments are consistent with an access of this aspartate from the lysosomal lumen through a deep proton channel. This aspartate lies in one of the two PQ-loop motifs shared by cystinosin with a set of eukaryotic membrane proteins of unknown function and is conserved in about half of them, thus suggesting that other PQ-loop proteins may translocate protons.

SUBMITTER: Ruivo R 

PROVIDER: S-EPMC3277178 | biostudies-literature | 2012 Jan

REPOSITORIES: biostudies-literature

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Mechanism of proton/substrate coupling in the heptahelical lysosomal transporter cystinosin.

Ruivo Raquel R   Bellenchi Gian Carlo GC   Chen Xiong X   Zifarelli Giovanni G   Sagné Corinne C   Debacker Cécile C   Pusch Michael M   Supplisson Stéphane S   Gasnier Bruno B  

Proceedings of the National Academy of Sciences of the United States of America 20120109 5


Secondary active transporters use electrochemical gradients provided by primary ion pumps to translocate metabolites or drugs "uphill" across membranes. Here we report the ion-coupling mechanism of cystinosin, an unusual eukaryotic, proton-driven transporter distantly related to the proton pump bacteriorhodopsin. In humans, cystinosin exports the proteolysis-derived dimeric amino acid cystine from lysosomes and is impaired in cystinosis. Using voltage-dependence analysis of steady-state and tran  ...[more]

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