1. Academic Validation
  2. IRC-083927 is a new tubulin binder that inhibits growth of human tumor cells resistant to standard tubulin-binding agents

IRC-083927 is a new tubulin binder that inhibits growth of human tumor cells resistant to standard tubulin-binding agents

  • Mol Cancer Ther. 2008 Aug;7(8):2426-34. doi: 10.1158/1535-7163.MCT-08-0208.
Anne-Marie Liberatore 1 Hélène Coulomb Dominique Pons Olivier Dutruel Philip G Kasprzyk Mark Carlson Ann Savola Nelson Simon P Newman Chloe Stengel Pierrïck Auvray Vincent Hesry Béatrice Foll Nadine Narboux Delphine Morlais Mélissa Le Moing Sonia Bernetiere Raphael Dellile Jose Camara Eric Ferrandis Dennis C Bigg Grégoire P Prévost
Affiliations

Affiliation

  • 1 IPSEN Research Laboratories, Institut Henri Beaufour, 5 Avenue du Canada, Les Ulis, France.
Abstract

Tubulin is a validated target for antitumor drugs. However, the effectiveness of these microtubule-interacting agents is limited by the fact that they are substrates for drug efflux pumps (P-glycoprotein) and/or by the acquisition of point mutations in tubulin residues important for drug-tubulin binding. To bypass these resistance systems, we have identified and characterized a novel synthetic imidazole derivative IRC-083927, which inhibits the tubulin polymerization by a binding to the colchicine site. IRC-083927 inhibits in vitro cell growth of human Cancer cell lines in the low nanomolar range. More interesting, it remains highly active against cell lines resistant to microtubule-interacting agents (taxanes, Vinca Alkaloids, or epothilones). Such resistances are due to the presence of efflux pumps (NCI-H69/LX4 resistant to navelbine and paclitaxel) and/or the presence of mutations on beta-tubulin and on alpha-tubulin and beta-tubulin (A549.EpoB40/A549.EpoB480 resistant to epothilone B or paclitaxel). IRC-083927 displayed cell cycle arrest in G(2)-M phase in tumor cells, including in the drug-resistant cells. In addition, IRC-083927 inhibited endothelial cell proliferation in vitro and vessel formation in the low nanomolar range supporting an antiangiogenic behavior. Finally, chronic oral treatment with IRC-083927 (5 mg/kg) inhibits the growth of two human tumor xenografts in nude mice (C33-A, human cervical Cancer and MDA-MB-231, human hormone-independent breast Cancer). Together, the antitumor effects induced by IRC-083927 on tumor models resistant to tubulin agents support further investigations to fully evaluate its potential for the treatment of advanced cancers, particularly those resistant to current clinically available drugs.

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