A comparative structure‐function analysis of active‐site inhibitors of Vibrio cholerae cholix toxin

Cholix toxin from Vibrio cholerae is a novel mono‐ADP‐ribosyltransferase (mART) toxin that shares structural and functional properties with Pseudomonas aeruginosa exotoxin A and Corynebacterium diphtheriae diphtheria toxin. Herein, we have used the high‐resolution X‐ray structure of full‐length cholix toxin in the apo form, NAD + bound, and 10 structures of the cholix catalytic domain (C‐domain) complexed with several strong inhibitors of toxin enzyme activity (NAP, PJ34, and the P‐series) to study the binding mode of the ligands. A pharmacophore model based on the active pose of NAD + was compared with the active conformation of the inhibitors, which revealed a cationic feature in the side chain of the inhibitors that may determine the active pose. Moreover, a conformational search was conducted for the missing coordinates of one of the main active‐site loops (R‐loop). The resulting structural models were used to evaluate the interaction energies and for 3D‐QSAR modeling. Implications for a rational drug design approach for mART toxins were derived. Copyright © 2015 John Wiley & Sons, Ltd.