Dynamics of the ClpP serine protease: A model for self-compartmentalized proteases

AbstractClpP is a highly conserved serine protease present in most bacterial species and in the mitochondria of mammalian cells. It forms a cylindrical tetradecameric complex arranged into two stacked heptamers. The two heptameric rings of ClpP enclose a roughly spherical proteolytic chamber of about 51 A in diameter with 14 Ser–His–Asp proteolytic active sites. ClpP typically forms complexes with unfoldase chaperones of the AAA+ superfamily. Chaperones dock on one or both ends of the ClpP double ring cylindrical structure. Dynamics in the ClpP structure is critical for its function. Polypeptides targeted for degradation by ClpP are initially recognized by the AAA+ chaperones. Polypeptides are unfolded by the chaperones and then translocated through the ClpP axial pores, present on both ends of the ClpP cylinder, into the ClpP catalytic chamber. The axial pores of ClpP are gated by dynamic axial loops that restrict or allow substrate entry. As a processive protease, ClpP degrades substrates to generate pe...