Cargo selective vesicle tethering: the structural basis for binding of specific cargo proteins by the Golgi tether component TBC1D23

Abstract

AbstractFor accurate membrane traffic it is essential that vesicles and other carriers tether and fuse to only the correct compartment. The TGN-localised golgins golgin-97 and golgin-245 capture transport vesicles arriving from endosomes via the protein TBC1D23 that forms a bridge between the golgins and endosome-derived vesicles. The C-terminal domain of TBC1D23 is responsible for vesicle capture, but how it recognises a specific type of vesicle was unclear. A search for binding partners of the C-terminal domain surprisingly revealed direct binding to carboxypeptidase D (CPD) and syntaxin-16, both known cargo proteins of the captured vesicles. Binding is via a TLY-containing sequence present in both proteins. A crystal structure reveals how this “acidic TLY motif” binds to the C-terminal domain of TBC1D23. An acidic TLY motif is also present in the tails of other endosome-to-Golgi cargo, and these also bind TBC1D23. Structure-guided mutations in the C-terminal domain that disrupt motif binding in vitro also block vesicle capture in vivo. Thus, TBC1D23 attached to golgin-97 and golgin-245 captures vesicles by a previously undescribed mechanism: the recognition of a motif shared by cargo proteins carried by the vesicle.One sentence summaryA class of transport vesicle destined for the Golgi is recognized by a tether binding directly to the cargo it is carrying.