1. Academic Validation
  2. PM060184, a new tubulin binding agent with potent antitumor activity including P-glycoprotein over-expressing tumors

PM060184, a new tubulin binding agent with potent antitumor activity including P-glycoprotein over-expressing tumors

  • Biochem Pharmacol. 2014 Apr 1;88(3):291-302. doi: 10.1016/j.bcp.2014.01.026.
Marta Martínez-Díez 1 María José Guillén-Navarro 1 Benet Pera 2 Benjamin Pierre Bouchet 3 Juan Fernando Martínez-Leal 1 Isabel Barasoain 2 Carmen Cuevas 1 Jose M Andreu 2 Luis Francisco García-Fernández 1 J Fernando Díaz 2 Pablo Avilés 1 Carlos M Galmarini 4
Affiliations

Affiliations

  • 1 PharmaMar S.A., Avda de los Reyes 1, Polígono Industrial La Mina, Colmenar Viejo, 28770 Madrid, Spain.
  • 2 Centro de Investigaciones Biológicas, CSIC, Ramiro de Maeztu 9, 28040 Madrid, Spain.
  • 3 Centre Léon Bérard, Lyon F-69373, France.
  • 4 PharmaMar S.A., Avda de los Reyes 1, Polígono Industrial La Mina, Colmenar Viejo, 28770 Madrid, Spain. Electronic address: cgalmarini@pharmamar.com.
Abstract

PM060184 belongs to a new family of tubulin-binding agents originally isolated from the marine Sponge Lithoplocamia lithistoides. This compound is currently produced by total synthesis and is under evaluation in clinical studies in patients with advanced Cancer diseases. It was recently published that PM060184 presents the highest known affinities among tubulin-binding agents, and that it targets tubulin dimers at a new binding site. Here, we show that PM060184 has a potent antitumor activity in a panel of different tumor xenograft models. Moreover, PM060184 is able to overcome P-gp mediated resistance in vivo, an effect that could be related to its high binding affinity for tubulin. To gain insight into the mechanism responsible of the observed antitumor activity, we have characterized its molecular and cellular effects. We have observed that PM060184 is an inhibitor of tubulin polymerization that reduces microtubule dynamicity in cells by 59%. Interestingly, PM060184 suppresses microtubule shortening and growing at a similar extent. This action affects cells in interphase and mitosis. In the first case, the compound induces a disorganization and fragmentation of the microtubule network and the inhibition of cell migration. In the second case, it induces the appearance of multipolar mitosis and lagging chromosomes at the metaphase plate. These effects correlate with prometaphase arrest and induction of caspase-dependent Apoptosis or appearance of cells in a multinucleated interphase-like state unrelated to classical Apoptosis pathways. Taken together, these results indicate that PM060184 represents a new tubulin binding agent with promising potential as an Anticancer agent.

Keywords

Antimitotic agents; Cancer therapy; Microtubules; P-glycoprotein; Polymerization inhibitors; Tubulin modulators.

Figures
Products