Role of mutant KRAS as a biomarker in FL118-induced apoptosis, reactive oxygen species (ROS) production and inhibition of survivin, Mcl-1 and XIAP in human bladder cancer.

Abstract

e15651 Background: Effective treatment of bladder cancer patients has not been realized over the past two decades due to heterogeneity with key oncogenic and tumor suppressor gene mutations, which is a major hurdle for effective treatment of the disease. Methods: Cancer cell growth/viability was determined using MTT assays; protein gene expression profiles were determined by both Western blots and proteomics technologies; PARP cleavage were determined by Western blots; genetic modulation of protein gene expression was realized by shRNA silencing or forced expression of the gene; reactive oxygen species (ROS) production was measured using a ROS assay kit; and human bladder xenograft tumor growth was determined using animal models. Results: Our study indicated that FL118, an innovative small molecule, exhibits differential anticancer efficacy in high-grade bladder cancer cell lines (HT1376, T24, UMUC-3). FL118 is highly effective at inhibiting the viability of T24 and UMUC-3 bladder cancer cells, which have Hras and Kras mutations, respectively. In contrast, HT1376 with wild-type Ras exhibits insensitivity to FL118-mediated inhibition of cell viability. Consistently, FL118 strongly induced PARP cleavage (hallmark of apoptosis) and inhibited the expression of survivin, XIAP and/or Mcl-1 in both T24 and UMUC-3 cells but not in the HT1376 cells. Our studies further indicated that the constitutive AKT and ERK1/2 signaling does not play a major role in these FL118-mediated effects. Instead, mutant Kras appeared to be involved in FL118 efficacy and played a positive role in mediating FL118 effects. Silencing of mutant Kras via shRNA reduced both FL118-induced PARP cleavage and downregulation of survivin, XIAP and Mcl-1 in UMUC-3 cells, suggesting mutant Kras is required for FL118 to exhibit high efficacy. FL118 increases ROS production in T24 and UMUC-3 cells but not in HT1376 cells. Silencing of mutant Kras with shRNA in UMUC-3 cells significantly reduced FL118-mediated ROS generation. Additionally, proteomics analyses of UMUC3 and HT1376 cell protein profiles after FL118 treatment support the obtained results described above. Consistent with these in vitro results, in vivo studies indicated that UMUC3 is highly sensitive and HT1376 is highly resistant to FL118 treatment. Conclusions: Our studies suggest that mutant Kras is a favorable biomarker for FL118 targeted treatment in human bladder cancer.