PO-099 Targeting the mitogen activated protein kinase ERK5 in human melanoma

Introduction Melanoma is the most aggressive skin cancer with a poor prognosis in advanced stages. Available treatments for melanoma are unsatisfactory, because rapidly lead to an acquired resistance in the majority of cases. Therefore, there is urgent need to identify novel possible targets involved in melanoma growth. ERK5/BMK1 is a member of the Mitogen-Activated Protein Kinases (MAPK) family and regulates cell functions critical for tumour development. Indeed, several studies reported a direct involvement of ERK5 in several types of cancer including prostate and breast cancer and hepatocellular carcinoma. However, no data have been reported about a possible role of ERK5 in melanoma. Material and methods Cell lines and patient-derived primary melanoma cells (wild type B-RAF: SSM2c and M26c; BRAFV600E: A375, SK-Mel-5, SK-Mel-28, 501-Mel, expressing; NRASQ61R: SK-Mel-2; MeWo) have been used for in vitro and in vivo experiments. HEK293T cells were used for protein overexpression. ERK5 inhibition was achieved using ERK5 and MEK5 inhibitors or lentiviral vectors encoding shRNA specific for ERK5. BRAF inhibition was achieved using Vemurafenib, a BRAFV600E inhibitor. Results and discussions In silico data analysis indicated that components of the ERK5 pathway are upregulated in up to 47% melanoma patients. Accordingly, we found that ERK5 is consistently expressed and active in commercial and patients derived melanoma cell lines. On that basis, we investigated the role of ERK5 in melanoma cell growth. In vitro , pharmacological or genetic inhibition of ERK5 decreased the number of viable cells in several melanoma cell lines. Moreover, xenografts performed using LV-shERK5-transduced A375 or SSM2c cells showed a reduced tumour growth when compared to those transduced with control LV-shC. We also found that oncogenic BRAF positively regulates expression, phosphorylation and nuclear localization of exogenous and endogenous ERK5. Accordingly, combined pharmacological inhibition of BRAFV600E and MEK5 is required to decrease nuclear ERK5, that is critical for the regulation of cell proliferation. Furthermore, the combination of MEK5 or ERK5 inhibitors with vemurafenib is more effective than single treatments in reducing 2D colony formation and growth of BRAFV600E melanoma cells and xenografts. Conclusion Our results identify ERK5 as a critical regulator of melanoma growth in vitro and in vivo , and point toward the possibility of targeting ERK5, alone or in combination with BRAF-MEK1/2 inhibitors, for the treatment of melanoma.