Interactome analysis identifies MSMEI_3879 as a substrate ofMycolicibacterium smegmatisClpC1

Author:

Ogbonna EmmanuelORCID,Bheemreddy Priyanka,Schmitz Karl R.ORCID

Abstract

ABSTRACTThe prevalence of drug resistantMycobacterium tuberculosisinfections has prompted extensive efforts to exploit new mycobacterial drug targets. ClpC1, the unfoldase component of the essential ClpC1P1P2 protease, has emerged as one particularly promising antibacterial target. However, efforts to identify and characterize ClpC1-targeting compounds are constrained by our limited knowledge of Clp protease function and regulation. To expand our understanding of ClpC1 physiology, we employed a co-immunoprecipitation and mass spectrometry workflow to identify proteins that interact with ClpC1 inMycolicibacterium smegmatis, a relative ofM. tuberculosis.We identify a diverse panel of interaction partners, many of which make co-immunoprecipitate with both the regulatory N-terminal domain and the ATPase core of ClpC1. Notably, our interactome analysis identifies MSMEI_3879, a truncated gene product unique toM. smegmatis, as a novel proteolytic substrate. Degradation of MSMEI_3879 by ClpC1P1P2in vitrorequires an exposed N-terminal sequence, reinforcing the idea that ClpC1 selectively recognizes disordered motifs. Fluorescent substrates incorporating MSMEI_3879 may be useful in screening for novel ClpC1-targeting antibiotics, to help address the challenge ofM. tuberculosisdrug resistance.

Publisher

Cold Spring Harbor Laboratory

Reference87 articles.

1. WHO. 2021. Global uberculosis report 2021. World Health Organization, Geneva.

2. Antibacterial Activity of and Resistance to Small Molecule Inhibitors of the ClpP Peptidase

3. Lassomycin, a Ribosomally Synthesized Cyclic Peptide, Kills Mycobacterium tuberculosis by Targeting the ATP-Dependent Protease ClpC1P1P2

4. The Cyclic Peptide Ecumicin Targeting ClpC1 Is Active against Mycobacterium tuberculosis In Vivo

5. Target mechanism-based whole-cell screening identifies bortezomib as an inhibitor of caseinolytic protease in mycobacteria;mBio,2015

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