Suranaree University of Technology; Ubon Ratchathani University; Thammasat University; Ubon Ratchathani University; Chulabhorn Research Institute; National Science & Technology Development Agency - Thailand; National Nanotechnology Center (NANOTEC); Nakhon Phanom University; University of Bristol; Chulabhorn Graduate Institute; Chulabhorn Royal Academy
Type
Article
Source Title
PROTEINS-STRUCTURE FUNCTION AND BIOINFORMATICS
Year
2022
Volume
90
Issue
3
Page
898-904
Open Access
Green Published
Publisher
WILEY
DOI
10.1002/prot.26268
Format
PDF
Abstract
3-Nitropropanoic acid (3NP), a bioactive fungal natural product, was previously demonstrated to inhibit growth of Mycobacterium tuberculosis. Here we demonstrate that 3NP inhibits the 2-trans-enoyl-acyl carrier protein reductase (InhA) from Mycobacterium tuberculosis with an IC50 value of 71 mu M, and present the crystal structure of the ternary InhA-NAD(+)-3NP complex. The complex contains the InhA substrate-binding loop in an ordered, open conformation with Tyr158, a catalytically important residue whose orientation defines different InhA substrate/inhibitor complex conformations, in the out position. 3NP occupies a hydrophobic binding site adjacent to the NAD(+) cofactor and close to that utilized by the diphenyl ether triclosan, but binds predominantly via electrostatic and water-mediated hydrogen-bonding interactions with the protein backbone and NAD(+) cofactor. The identified mode of 3NP binding provides opportunities to improve inhibitory activity toward InhA.
BristolBridge antimicrobial resistance network [EPSRC EP/M027546/1]; Thailand Graduate Institute of Science and Technology [SCA-CO-2560-4375TH]; Thailand Research Fund [RSA5980057]; RGJ Advanced Programme [RAP60K0009]; Center of Excellence for Innovation in Chemistry
