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  2. Bortezomib Warhead-Switch Confers Dual Activity against Mycobacterial Caseinolytic Protease and Proteasome and Selectivity against Human Proteasome

Bortezomib Warhead-Switch Confers Dual Activity against Mycobacterial Caseinolytic Protease and Proteasome and Selectivity against Human Proteasome

  • Front Microbiol. 2017 Apr 27;8:746. doi: 10.3389/fmicb.2017.00746.
Wilfried Moreira 1 Sridhar Santhanakrishnan 2 Brian W Dymock 2 Thomas Dick 1 3
Affiliations

Affiliations

  • 1 Department of Microbiology and Immunology, Yong Loo Lin School of Medicine, National University of SingaporeSingapore, Singapore.
  • 2 Department of Pharmacy, National University of SingaporeSingapore, Singapore.
  • 3 Public Health Research Institute, New Jersey Medical School, Rutgers, The State University of New JerseyNewark, NJ, USA.
Abstract

Mycobacteria harbor two main degradative proteolytic machineries, the caseinolytic protease ClpP1P2 and a Proteasome. We recently showed that Bortezomib inhibits ClpP1P2 and exhibits whole cell activity against Mycobacterium tuberculosis. Bortezomib, a dipeptide with a boronic acid warhead, is a human Proteasome Inhibitor approved for Cancer therapy. The boronic acid warhead of the compound has been shown to drive potency against both the human Proteasome and ClpP1P2 protease. Selectivity for the Bacterial ClpP1P2 protease over the human Proteasome is lacking but needs to be achieved to move this new anti-tuberculosis lead forward. In this study we explored whether an alternative warhead could influence Bortezomib's selectivity. We synthesized an analog containing a chloromethyl ketone instead of the boronic acid warhead and determined potencies against the Bacterial and human Enzymes. Surprisingly, the analog retained activity against mycobacterial ClpP1P2 and was active against the mycobacterial Proteasome, but was devoid of activity against the human Proteasome. Interrogation of a set of chloromethyl ketone Peptides identified three additional compounds similarly inhibiting both ClpP1P2 and the Proteasome in the bacteria while leaving the human Proteasome untouched. Finally, we showed that these compounds display bactericidal activity against M. tuberculosis with cytotoxicity ranging from acceptable to undetectable. These results suggest that selectivity over the human Proteasome is achievable. Selectivity, together with dual-targeting of mycobacterial ClpP1P2 and Proteasome makes this new scaffold an attractive starting point for optimization.

Keywords

Bortezomib; ClpP1P2; TB; selective inhibitors.

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