[Characterization of genetic alterations in primary human melanomas carrying BRAF or NRAS mutation].

Human malignant melanoma is one of the most aggressive forms of skin cancer with an exceptionally bad prognosis. Melanoma often displays constitutively activated MAPK pathway through BRAF or NRAS mutations. It is also known that these mutations are almost never simultaneously present and that they appear at early stages and preserved throughout tumor progression, although it is proved that these alterations alone are insufficient to cause tumor progression. Therefore the first aim of our study was to evaluate those distinct genetic alterations which can properly differentiate the three important molecular subtypes of primary melanomas with a) BRAF, b) NRAS mutation and c) WT (wild type for both loci). High-resolution array comparative genomic hybridization (array CGH) was used to assess genome-wide analysis of DNA copy number alterations. Primary melanomas with BRAF mutation more frequently exhibited losses on 10q23-10q26 and gains on chromosome 7 and 1q23-1q25 compared to melanomas with NRAS mutation. Loss on the 11q23-11q25 sequence was found mainly in conjunction with NRAS mutation. Based on these results, we proved the existence of marked differences in the genetic pattern of the BRAF and NRAS mutated melanoma subgroups, which might suggest that these mutations contribute to the development of malignant melanoma in conjunction with distinct cooperating oncogenic events. In general, it is an interesting phenomenon suggesting that these mutations provide probably the "guiding force" for these tumors and it also suggests that there are alternative genetic pathways to melanoma. These additional oncogenic events which are associated with BRAF or NRAS mutations can provide rational additional targets for a combination therapy with kinase inhibitors. In this study we also investigated the specific dynamic activities among different signalling pathways highlighting the frequent alterations of genes involved in the signalling interactions between the MAPK-JAK pathways in BRAF mutated melanomas. Using a data mining algorithm we also found a gene alteration signature in the MAPK pathway that was commonly related to the presence of BRAF mutation in our melanoma cohorts. The second aim of this study was to develop an accurate Q-PCR method for determining the co-amplification pattern of six candidate genes that reside in the 11q13 amplicon core. We found that co-amplification of these candidate genes or the CCND1 amplification along with either BRAF or NRAS mutations might be more important for prognosis than the presence of these alterations alone.