MFSD1 in complex with its accessory subunit GLMP functions as a general dipeptide uniporter in lysosomes

Abstract

SummaryLysosomal degradation of macromolecules in lysosomes produces diverse small metabolites exported by specific transporters for reuse in biosynthetic pathways. Here, we deorphanized the Major Facilitator Superfamily Domain Containing 1 (MFSD1) protein, which forms a tight complex with the Glycosylated Lysosomal Membrane Protein (GLMP) in the lysosomal membrane. Untargeted metabolomics analysis of MFSD1-deficient mouse lysosomes revealed an increase in cationic dipeptides. Purified MFSD1 selectively bound diverse dipeptides, while electrophysiological, isotope tracer, and fluorescence-based studies inXenopusoocytes and proteoliposomes showed that MFSD1/GLMP acts as a uniporter for cationic and neutral dipeptides. Cryo-EM structure of the dipeptide-bound MFSD1/GLMP complex in outward-open conformation characterized the heterodimer interface and, in combination with molecular dynamics simulations, provided a structural basis for its selectivity towards diverse dipeptides. Together, our data identify MFSD1 as a general lysosomal dipeptide uniporter, providing an alternative route to recycle lysosomal proteolysis products when lysosomal amino acid exporters are overloaded.