Abstract
ATB0,+ (SLC6A14) absorbs all neutral and cationic amino acids in the distal colon and lung epithelia, and is part of the amino acid transporter branch I of the SLC6 family with GlyT1 (SLC6A9) and GlyT2 (SLC6A5), two glycine-specific transporters coupled to 2:1 and 3:1 Na+:Cl−, respectively. However, ATB0,+ stoichiometry that specifies its driving force and electrogenicity remains unsettled. Using the reversal potential slope method, here we demonstrate that ATB0,+-mediated glycine transport is coupled to 3 Na+ and 1 Cl− and has a charge coupling of 2.1 e/glycine. ATB0,+ behaves as a unidirectional transporter with limited efflux and exchange capabilities. Analysis and computational modeling of the pre-steady-state charge movement reveal higher sodium affinity of the apo-ATB0,+, and a locking trap preventing Na+ loss at depolarized potentials. A 3 Na+/ 1 Cl− stoichiometry substantiates ATB0,+ concentrative-uptake and trophic role in cancers and rationalizes its structural proximity with GlyT2 despite their divergent substrate specificity.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Text has been deleted by error in the abstract of the first version.