A conserved 20S proteasome assembly factor requires a C-terminal HbYX motif for proteasomal precursor binding

Abstract

Dedicated chaperones facilitate eukaryotic proteasome assembly, yet how they function remains largely unknown. Here we demonstrate that a yeast 20S proteasome assembly factor, Pba1–Pba2, requires a previously overlooked C-terminal HbYX (hydrophobic-tyrosine-X) motif for function. HbYX motifs in proteasome activators open the 20S proteasome entry pore, but Pba1–Pba2 instead binds inactive proteasomal precursors. We discovered an archaeal ortholog of this factor, here named PbaA, that also binds preferentially to proteasomal precursors in a HbYX-dependent fashion using the same proteasomal α-ring surface pockets bound by activators. Remarkably, PbaA and the related PbaB protein can be induced to bind mature 20S proteasomes if the active sites in the central chamber are occupied by inhibitors. Our data suggest an allosteric mechanism in which proteasome active-site maturation determines assembly chaperone binding, potentially shielding assembly intermediates or misassembled complexes from non-productive associations until assembly is complete.