Fiche publication


Date publication

juin 2013

Auteurs

Membres identifiés du Cancéropôle Est :
Dr CIANFERANI Sarah


Tous les auteurs :
Immekus F, Barandun LJ, Betz M, Debaene F, Petiot S, Sanglier-Cianferani S, Reuter K, Diederich F, Klebe G

Résumé

Apart from competitive active-site inhibition of protein function, perturbance of protein protein interactions by small molecules in oligodornain enzymes opens new perspectives for innovative therapeutics tRNA guanine transglycosylase (TGT), a potential target to treat shigellosis, is active only as the homodimer. Consequently, disruption of the dimer interface by small molecules provides a novel inhibition mode. A special feature of this enzyme is the short, distance between active site and rim of the dimer,interface. This suggests design. of expanded active site inhibitors decorated with rigid, needle type substituents to spike into potential hot spots of the interaction interface. Ligands with attached ethinyl-type substituents have been synthesized and characterized by K-d measurements, crystallography, noncovalent mass spectrometry, and computer simulations. In contrast to previously determined crystal structures with nonextended active site inhibitors, a well loop helix motif, involved in several contacts across the dimer interface, falls apart and suggests enhanced flexibility once the spiking ligands are bound. Mass spectrometry indicates significant destabilization but not full disruption of the cornplexed TGT homodimer in solution. As directed interactions of the loop-helix motif obviously do not determine dimer stability, a structurally conserved hydrophobic patch composed of several aromatic amino acids is suggested as interaction hot spot The residues of this patch reside on a structurally highly conserved helix-turn-helix motif, which remains unaffected by the bound spiking ligands. Nevertheless, it is shielded from solvent access by the loop helix motif that becomes perturbed upon binding of the spiking ligands, which serves as a possible explanation for reduced interface stability.

Référence

Acs Chem Biol. 2013 Jun;8(6):1163-78.