Abstract 5457: Contexts of vulnerability mediating TMZ response in metastatic melanoma

Abstract

Abstract Metastatic malignant melanoma is an incurable disease with average 5-year survival rates for patients with disseminated disease ranging from 5-18%. Despite the recent development of promising targeted and immunological approaches for treatment of melanoma patients, there remains an urgent need to improve the effectiveness of conventional chemotherapeutics such as TMZ treatment for those patients ineligible or unresponsive to these approaches. We hypothesized that genetic alterations or contexts of vulnerability (COVs) exist in melanoma cells that mediate sensitivity to TMZ, and thus developed RNA-interference-based (RNAi) TMZ chemosensitization assays in melanoma cell lines in order to better understand how to pharmacologically augment TMZ response. First, we extensively developed RNAi sensitization assay in 17 melanoma cell lines followed by screening siRNA kinome library in these cell lines. This screening result, combined with our previous melanoma genomic data (gene expression, aCGH, SNP, and gene mutations), would prioritize the critical essential genes in melanoma. In addition, we profiled 17 melanoma cell lines for TMZ sensitivity and subsequently optimized RNAi screening parameters for detection of TMZ sensitization in one sensitive (UACC903) and four resistant (UACC647, UACC1308, UACC91 and UACC1940) cell lines. We then performed high-throughput RNAi screens with a 7,000 gene siRNA library targeting the druggable genome in these five cell lines. The data from the screens were rigorously evaluated and top TMZ-sensitizing hits were identified and confirmed. Based on these data, we prioritized the ATR/ATM/Chk1 pathway for further evaluation. We tested two Chk1 inhibitors for synergistic effects when combined with TMZ. Notably, both Chk1 inhibitors demonstrated good synergistic effects in the TMZ-resistant cell lines, with moderate/marginal effects in the sensitive line UACC903. These data are consistent with previous reports that inhibition of Chk1 can sensitize TMZ-induced cytotoxicity in glioma cells, and suggest that targeting this pathway in melanoma may augment TMZ response in melanoma. We are presently following up these results across a larger panel of melanoma cell lines, as well as evaluating pharmacological inhibitors of additional TMZ-sensitizing siRNA hits and pathways with the hope that these results may serve as a starting point for the development of novel combination therapies for melanoma patients. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 102nd Annual Meeting of the American Association for Cancer Research; 2011 Apr 2-6; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2011;71(8 Suppl):Abstract nr 5457. doi:10.1158/1538-7445.AM2011-5457