A strategy for neuraminidase inhibitors using mechanism-based labeling information.

A potent inhibitor for Vibrio cholerae neuraminidase (VCNA) was developed by using a novel two-step strategy, a target amino acid validation using mechanism-based labeling information, and a potent inhibitor search using a focused library. The labeling information suggested the hidden dynamics of a loop structure of VCNA, which can be a potential target of the novel inhibitor. A focused library composed of 187 compounds was prepared from a 9-azide derivative of 2,3-dehydro-N-acetylneuraminic acid (DANA) to interrupt the function of the loop of the labeled residues. Inhibitor 3c showed potent inhibition properties and was the strongest inhibitor with FANA, a N-trifluoroacetyl derivative of DANA. Validation studies of the inhibitor with a detergent and a Lineweaver-Burk plot suggested that the 9-substitution group would interact hydrophobically with the target loop moiety, adding a noncompetitive inhibition property to the DANA skeleton. This information enabled us to design compound 4 having the combined structure of 3c and FANA. Compound 4 showed the most potent inhibition (K-i = 73 nm, mixed inhibition) of VCNA with high selectivity among the tested viral, bacterial, and mammal neuraminidases.