The tumor suppressor p53 encodes a transcription factor that is mutated in about 50% of all human tumors. Whereas the frequency of p53 mutations in HCCs is high in developing countries (>50%) due to exposure to exotoxins, it is low (<10-25%) in Western countries. We have previously demonstrated that the p53-interacting factor MDM4 is frequently upregulated in human HCCs. Thus, MDM4 dysregulation may complement for mutational inactivation of p53. On the other hand we observed a p53-independent MDM4 function, which might significantly affect the translation of targeting MDM4 into the treatment of human HCC patients. It is the aim of the project to characterize the p53-dependency of the protumorigenic MDM4 function using CRISPR/Cas9-mediated, specific knockout in vivo. Recently, the small molecule inhibitor XI-006 was described to suppress MDM4 transcription through a yet undefined mechanism. Therefore, we will focus on mechanisms resulting in upregulation of MDM4-mRNA expression in HCC by aberrant transcriptional activation and by microRNA-dependent mechanisms. Finally, we will generate a novel transposon-based chimeric MDM4 mouse model to evaluate the protumorigenic function of MDM4 in an orthotopic context and the efficacy of SJ-172550 treatment (inhibiting the p53-MDM4 interaction) in vivo. In addition, the MDM4 chimeric mice will serve as a valuable tool for in vivo analyses of p53 dysregulation in liver tumor development and its cross-talk to other protumorigenic signaling cascades frequently altered in human HCC. Our analyses may unravel relevant mechanisms underlying MDM4 dysregulation in HCC, evaluate new therapeutic approaches and their p53-dependency, which will be the basis for the further translational development of this project and may identify new predictive marker for efficiently targeting the p53 network in tumor therapy.

DFG Programme Research Grants