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The molecular mechanism of sialic acid transport mediated by Sialin

Wenxin Hu, Congwu Chi, Kunhua Song, Hongjin Zheng

2023Science Advances23 citationsDOIOpen Access PDF

Abstract

Malfunction of the sialic acid transporter caused by various genetic mutations in the SLC17A5 gene encoding Sialin leads to a spectrum of neurodegenerative conditions called free sialic acid storage disorders. Unfortunately, how Sialin transports sialic acid/proton (H + ) and how pathogenic mutations impair its function are poorly defined. Here, we present the structure of human Sialin in an inward-facing partially open conformation determined by cryo–electron microscopy, representing the first high-resolution structure of any human SLC17 member. Our analysis reveals two unique features in Sialin: (i) The H + coupling/sensing requires two highly conserved Glu residues (E171 and E175) instead of one (E175) as implied in previous studies; and (ii) the normal function of Sialin requires the stabilization of a cytosolic helix, which has not been noticed in the literature. By mapping known pathogenic mutations, we provide mechanistic explanations for corresponding functional defects. We propose a structure-based mechanism for sialic acid transport mediated by Sialin.

Topics & Concepts

Sialic acidGeneFunction (biology)MutationMechanism (biology)CytosolBiochemistryChemistryBiophysicsComputational biologyBiologyGeneticsCell biologyPhysicsEnzymeQuantum mechanicsGlycosylation and Glycoproteins ResearchCellular transport and secretionMicrotubule and mitosis dynamics
The molecular mechanism of sialic acid transport mediated by Sialin | Litcius