Targeting the mitotic spindle in the treatment of adrenocortical cancer

Abstract

10572 Background: Adrenocortical carcinoma (ACC) is a rare and lethal cancer with an average incidence of 1 in 1.4 million. Response to current standard therapy including mitotane is approximately 22%. Herein we use gene expression profiling to identify novel targets for therapeutic intervention. Methods: The transcriptomes of 29 ACC tumors and 4 normal adrenal glands were profiled on Affymetrix Human Genome and Agilent 22K element expression arrays in order to identify genes that could represent potential therapeutic targets. Agents known to inhibit the selected targets were tested in comparison with mitotane in two ACC cell lines (H295R and SW-13) in vitro and are currently being tested in a Scid mouse xenograft system. Results: Expression of numerous kinesin family members is dysregulated within the ACC tumor population. Of interest in the ACC cells EG5 (KIF11, KSP), a kinesin important for mitotic spindle formation, is up-regulated 5.81+ 4.42 (μ+SD) and 6.48 + 0.99 fold on the Agilent and Affymetrix platforms respectively. In addition, SPARC, an albumin binding matrix associated protein is up-regulated in ACC tumors by 3.69 + 2.37 (μ+SD) and 1.56 + 0.44 on the two platforms. The anti-microtubular drugs paclitaxel and albumin bound paclitaxel (abraxane) exhibited in vitro inhibition of H295R and SW-13 cells at IC50 concentrations of 0.33 μM and 0.0078 μM for paclitaxel and 0.35 μM and 0.0087 μM for Abraxane compared to mitotane concentrations of 15.9 μM and 46.4 μM. Treatment effects of monastrol, paclitaxel, and Abraxane are currently being tested in xenograft murine models. Testing of the EG5 inhibitor S-trityl-L- cysteine is ongoing in the in vitro system. Conclusions: KIF11 inhibitors have been proposed in the treatment of cancer. These compounds may offer better anti-mitotic activity than other tubulin interacting agents with less neurotoxic side effects. Based on biological insight garnered through expression profiling of ACC tumors, the current ongoing research is investigating the use of abraxane and EG5 inhibitors in the in vitro and in vivo treatment of ACC. No significant financial relationships to disclose.