Abstract A217: Comparison of long-term pharmacodynamic actions of the synthetic small molecule HSP90 inhibitor AT13387 in multiple xenograft models

Abstract

Abstract AT13387 is a novel small molecule inhibitor of HSP90. a member of a family of molecular chaperones. Previously we highlighted an association between the high affinity binding of AT13387 to the N-terminal ATPase domain of HSP90 and the duration of target inhibition in tumor cell lines in vitro. Further, AT13387 was shown to inhibit HSP90 and deplete client proteins in tumor xenografts longer than other, lower affinity inhibitors in the class. Here we have expanded the investigation to a wider number of tumor cell lines and to in vivo xenograft models and demonstrate that AT13387 has an extended pharmacodynamic action in tumors compared to other HSP90 inhibitors. We reason that the cumulative effects of these properties allow for less frequent dosing thus maximising efficacy whilst minimising systemic exposure and the potential for side effects. This study reports extended inhibition of HSP90 by AT13387 in a wider range of tumor cell lines in vitro. A 24hr exposure of A375 (melanoma) cells to AT13387 suppressed the expression of client proteins for 72 hrs or more. However in other cell lines such as NCI-H1975 (lung) and BT474 (breast), the suppression of client proteins by AT13387 was found to last in excess of 7 days. The pharmacodynamic action of AT13387 in vivo has been compared with that of 17-AAG and SNX-5422 in A375 and NCI-H1975 xenografts in nude mice. Following a single dose of each agent, we have investigated and compared the time course of the suppression of levels of several client proteins (e.g. AKT, CDK4) and the phosphorylation of key growth/survival signalling components (e.g. pERK, pS6, pAKT). These effects were rapidly induced in tumors following treatment with AT13387 and levels remained suppressed for up to 96 hrs. The durability of the AT13387 effects was significantly greater than for the other competitor compounds. Investigation of tumor growth in these models demonstrated that the longer pharmacodynamic action of AT13387 ensured that efficacy could be maintained on a once weekly schedule, whereas such a schedule for the other agents resulted in a significant loss of their anti-tumor effects. These data provide further support for the potential benefit of long acting HSP90 inhibitors as a way of maintaining anti-tumor effects whilst minimising potential for undesirable effects associated with systemic exposure. Citation Information: Mol Cancer Ther 2009;8(12 Suppl):A217.