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  • ClpP protease activation results from the reorganization of the electrostatic interaction networks at the entrance pores.

ClpP protease activation results from the reorganization of the electrostatic interaction networks at the entrance pores.

Communications biology (2019-11-23)
Mark F Mabanglo, Elisa Leung, Siavash Vahidi, Thiago V Seraphim, Bryan T Eger, Steve Bryson, Vaibhav Bhandari, Jin Lin Zhou, Yu-Qian Mao, Kamran Rizzolo, Marim M Barghash, Jordan D Goodreid, Sadhna Phanse, Mohan Babu, Leandro R S Barbosa, Carlos H I Ramos, Robert A Batey, Lewis E Kay, Emil F Pai, Walid A Houry
ABSTRACT

Bacterial ClpP is a highly conserved, cylindrical, self-compartmentalizing serine protease required for maintaining cellular proteostasis. Small molecule acyldepsipeptides (ADEPs) and activators of self-compartmentalized proteases 1 (ACP1s) cause dysregulation and activation of ClpP, leading to bacterial cell death, highlighting their potential use as novel antibiotics. Structural changes in Neisseria meningitidis and Escherichia coli ClpP upon binding to novel ACP1 and ADEP analogs were probed by X-ray crystallography, methyl-TROSY NMR, and small angle X-ray scattering. ACP1 and ADEP induce distinct conformational changes in the ClpP structure. However, reorganization of electrostatic interaction networks at the ClpP entrance pores is necessary and sufficient for activation. Further activation is achieved by formation of ordered N-terminal axial loops and reduction in the structural heterogeneity of the ClpP cylinder. Activating mutations recapitulate the structural effects of small molecule activator binding. Our data, together with previous findings, provide a structural basis for a unified mechanism of compound-based ClpP activation.

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Casein fluorescein isothiocyanate from bovine milk, Type II, essentially salt-free, lyophilized powder