Structural and biological characterization of the tubulin interaction with dinitroanilines

Abstract

Characteristics of the interaction of dinitroaniline compounds with tubulin molecules have an extremely high selectivity: these substances efficiently bind to the tubulins of both plant and protozoan origins and practically do not interact with any animal and fungal tubulins despite a very high similarity between the corresponding sequences. This work summarizes and comprehensively analyzes the specific structural features and mechanisms of these interactions, in particular, the patterns of the structure and arrangement of dinitroaniline binding sites on the surface of different tubulin subunits and tubulins of various origins. Dinitroaniline binding sites are localized to the surface of longitudinal contacts between tubulin subunits and contain diamine amino acid residues (lysine or arginine), which bind the nitrile group of dinitroanilines. The localizations of these sites on the surface of identical subunits of different origins (for example, α-tubulins of plants and protozoans) coincide; however, the location of these binding sites on the surfaces of tubulin α- and β-subunits is different. The characterized sites can also be potential binding sites for other antimicrotubule compounds, in particular, cyanoacrylates.