Mechanism and evolution of the Zn-fingernail required for interaction of VARP with VPS29

VARP and TBC1D5 are accessory/regulatory proteins of retromer-mediated retrograde trafficking from endosomes. Using an NMR/X-ray approach, we determined the structure of the complex between retromer subunit VPS29 and a 12 residue, four-cysteine/Zn ++ microdomain, which we term a Zn-fingernail, two o...

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Veröffentlicht in:Nature communications 2020-10, Vol.11 (1), p.5031-5031, Article 5031
Hauptverfasser: Crawley-Snowdon, Harriet, Yang, Ji-Chun, Zaccai, Nathan R., Davis, Luther J., Wartosch, Lena, Herman, Emily K., Bright, Nicholas A., Swarbrick, James S., Collins, Brett M., Jackson, Lauren P., Seaman, Matthew N. J., Luzio, J. Paul, Dacks, Joel B., Neuhaus, David, Owen, David J.
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Sprache:eng
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Zusammenfassung:VARP and TBC1D5 are accessory/regulatory proteins of retromer-mediated retrograde trafficking from endosomes. Using an NMR/X-ray approach, we determined the structure of the complex between retromer subunit VPS29 and a 12 residue, four-cysteine/Zn ++ microdomain, which we term a Zn-fingernail, two of which are present in VARP. Mutations that abolish VPS29:VARP binding inhibit trafficking from endosomes to the cell surface. We show that VARP and TBC1D5 bind the same site on VPS29 and can compete for binding VPS29 in vivo. The relative disposition of VPS29s in hetero-hexameric, membrane-attached, retromer arches indicates that VARP will prefer binding to assembled retromer coats through simultaneous binding of two VPS29s. The TBC1D5:VPS29 interaction is over one billion years old but the Zn-fingernail appears only in VARP homologues in the lineage directly giving rise to animals at which point the retromer/VARP/TBC1D5 regulatory network became fully established. VARP is bound to endosomes and functions as a protein:protein interaction platform. Here, the authors present the NMR structure of the complex between the retromer subunit VPS29 and a VARP Zn-fingernail microdomain that is structurally distinct from Zn-fingers and further show that mutations, which abolish VPS29:VARP binding, inhibit trafficking from endosomes to the cell surface.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-020-18773-2