Abstract
Sortilin is a multifunctional sorting receptor involved in cytokine production in immune cells. To understand the mechanism of Sortilin-mediated cytokine trafficking, we determined the 2.45-Å structure of the dimerized Sortilin ectodomain (sSortilin or the Vps10-domain) crystallized at acidic pH. Substantial conformational changes upon dimerization lead to the intermolecular hydrophobic interaction between the conserved E455 and F137. Analysis of the electrostatic surface and size-exclusion chromatography revealed that sSortilin dimerization occurs due to an increase in hydrophobic interactions at the neutral dimer interface at acidic pH. The N682-attached N-glycan in the vicinity of the dimer interface implies its involvement in the dimerization. The disruption of Sortilin dimerization by mutations impairs efficient interferon-alpha secretion from cells. These results suggest the functional importance of Sortilin dimerization in cytokine trafficking.
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