Evaluation of molecular mechanisms of p53/ARF and IFNbeta pathways involved int the response of molecuar cells to treatment with p19Arf and IFNbeta transgenes

Melanoma is a form of cancer with a high death rate due, in part, to its tendency to generate metastasis. These tumors carry deletion of CDKN2A and amplification of HDM2 in nearly 50 % of cases, but only 10 % have mutations in p53. Taking advantage of the fact that most melanoma cases retain wild type p53, a transcription factor and tumor suppressor protein, we used adenoviral vectors in which transgene expression is controlled by endogenous p53. These vectors were improved with a modification of the fiber protein that allows efficient transduction of a broad spectrum of cells. Using these vectors, our laboratory showed that the combined treatment with viral vectors encoding p19Arf and IFNbeta (interferon-beta) induced high levels of B16F10 (mouse melanoma) cell death, but not when treated with these vectors individually. Thus, we initiated studies to explore the mechanisms of cell death and to identify critical genes involved in the response of B16F10 cells to treatment with p19Arf + IFNbeta. Here, we transferred p19Arf + IFNbeta genes to B16F10 cells and analyzed the type of cell death induced. In this regard, we detected an increase of cell death markers, such as apoptosis (caspase activity and exposure of phosphatidylserine) and necroptosis (RIPK3 and TNFR1 expression) and a decrease of an autophagy marker (LC3-II expression). Furthermore, we showed that the detection of three classic immunogenic cell death markers (ATP, calreticulin and HMGB1) was possible only when B16F10 cells were treated with p19Arf + IFNbeta combination. Lastly, assessment of gene expression profile using cDNA microarray analysis of B16F10 cells treated with p19Arf + IFNbeta revealed differential expression of 1054 genes compared to cells that received only one of the transgenes. Expression of Nr3c1, RanBP9, Sin3a, Wdr46, FoxO1, Phlda3 and TP73 genes was validated by qPCR and functional studies were started to reveal participation of these genes in the cellular response. Thus, we exposed important aspects of the B16F10 cellular response to treatment with p19Arf and IFNbeta (AU)