Human monocarboxylate/H transporters, MCT, facilitate the transmembrane translocation of vital weak acid metabolites, mainly l-lactate. Tumors exhibiting a Warburg effect rely on MCT activity for l-lactate release. Recently, high-resolution MCT structures revealed binding sites for anticancer drug candidates and the substrate. Three charged residues, Lys 38, Asp 309, and Arg 313 (MCT1 numbering) are essential for substrate binding and initiation of the alternating access conformational change. However, the mechanism by which the proton cosubstrate binds and traverses MCTs remained elusive. Here, we report that substitution of Lys 38 by neutral residues maintained MCT functionality in principle, yet required strongly acidic pH conditions for wildtype-like transport velocity. We determined pH-dependent biophysical transport properties, Michaelis-Menten kinetics, and heavy water effects for MCT1 wildtype and Lys 38 mutants. Our experimental data provide evidence for the bound substrate itself to accept and shuttle a proton from Lys 38 to Asp 309 initiating transport. We have shown before that substrate protonation is a pivotal step in the mechanisms of other MCT-unrelated weak acid translocating proteins. In connection with this study, we conclude that utilization of the proton binding and transfer capabilities of the transporter-bound substrate is probably a universal theme for weak acid anion/H cotransport.
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| http://dx.doi.org/10.1093/pnasnexus/pgad007 | DOI Listing |
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