<p>Sortilin is a ubiquitous membrane receptor mediating trafficking of protein cargoes. In the thyroid, sortilin binds thyroglobulin (TG) during its endocytosis, a key process in thyroid homeostasis. Although sortilin has been proposed to recognise highly iodinated TG, the molecular details of this interaction remain unknown. In this work, using an integrative structural biology approach, we reveal that sortilin binds an unstructured TG C-terminal peptide and exhibits a strong preference for the monomeric TG over the commonly known dimeric form. We find that sortilin-TG interaction is independent of the iodination state of TG and instead relies on the conversion to its monomeric state, presumably promoted by extracellular degradation. Furthermore, using AlphaPulldown and sequence analysis, we show that recognition of other reported ligands by sortilin likely relies on similar unstructured peptide motifs, which are not constrained to a single binding orientation within the receptor cavity. Overall, this study reveals the TG-sortilin binding interface and provides insights into the recognition mechanism of other cargoes by sortilin.</p>

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Molecular recognition of thyroglobulin by sortilin

  • Irene Boniardi,
  • Giorgia Tanzi,
  • Alessio Di Ianni,
  • Andrea Graziadei,
  • Marko Nedeljković,
  • Camilla Stejskalova,
  • Francesca Coscia

摘要

Sortilin is a ubiquitous membrane receptor mediating trafficking of protein cargoes. In the thyroid, sortilin binds thyroglobulin (TG) during its endocytosis, a key process in thyroid homeostasis. Although sortilin has been proposed to recognise highly iodinated TG, the molecular details of this interaction remain unknown. In this work, using an integrative structural biology approach, we reveal that sortilin binds an unstructured TG C-terminal peptide and exhibits a strong preference for the monomeric TG over the commonly known dimeric form. We find that sortilin-TG interaction is independent of the iodination state of TG and instead relies on the conversion to its monomeric state, presumably promoted by extracellular degradation. Furthermore, using AlphaPulldown and sequence analysis, we show that recognition of other reported ligands by sortilin likely relies on similar unstructured peptide motifs, which are not constrained to a single binding orientation within the receptor cavity. Overall, this study reveals the TG-sortilin binding interface and provides insights into the recognition mechanism of other cargoes by sortilin.