Structure of clathrin coat with bound Hsc70 and auxilin: mechanism of Hsc70‐facilitated disassembly

The chaperone Hsc70 drives the clathrin assembly–disassembly cycle forward by stimulating dissociation of a clathrin lattice. A J‐domain containing co‐chaperone, auxilin, associates with a freshly budded clathrin‐coated vesicle, or with an in vitro assembled clathrin coat, and recruits Hsc70 to its specific heavy‐chain‐binding site. We have determined by electron cryomicroscopy (cryoEM), at about 11 Å resolution, the structure of a clathrin coat (in the D6‐barrel form) with specifically bound Hsc70 and auxilin. The Hsc70 binds a previously analysed site near the C‐terminus of the heavy chain, with a stoichiometry of about one per three‐fold vertex. Its binding is accompanied by a distortion of the clathrin lattice, detected by a change in the axial ratio of the D6 barrel. We propose that when Hsc70, recruited to a position close to its target by the auxilin J‐domain, splits ATP, it clamps firmly onto its heavy‐chain site and locks in place a transient fluctuation. Accumulation of the local strain thus imposed at multiple vertices can then lead to disassembly.