Abstract
Melanoma is the most life-threatening skin cancer with increasing incidence around the world. Although recent advances in targeted therapy and immunotherapy have brought revolutionary progress of the treatment outcome, the survival of patients with advanced melanoma remains unoptimistic, and metastatic melanoma is still an incurable disease. Therefore, to further understand the mechanism underlying melanoma pathogenesis could be helpful for developing novel therapeutic strategy. A20 is a crucial ubiquitin-editing enzyme implicated immunity regulation, inflammatory responses and cancer pathogenesis. Herein, we report that A20 played an oncogenic role in melanoma. We first found that the expression of A20 was significantly up-regulated in melanoma cell lines. Then, we showed that knockdown of A20 suppressed melanoma cell proliferation in vitro and melanoma growth in vivo through the regulation of cell-cycle progression. Moreover, A20 could potentiate the invasive and migratory capacities of melanoma cell in vitro and melanoma metastasis in vivo by promoting epithelial–mesenchymal transition (EMT). Mechanistically, we found that Akt activation mediated the oncogenic effect of A20 on melanoma development, with the involvement of glycolysis. What’s more, the up-regulation of A20 conferred the acquired resistance to Vemurafenib in BRAF-mutant melanoma. Taken together, we demonstrated that up-regulated A20 promoted melanoma progression via the activation of Akt pathway, and that A20 could be exploited as a potential therapeutic target for melanoma treatment.
Highlights
Melanoma is the most lethal skin cancer that is the malignant transformation from epidermal melanocytes
A20 expression is significantly up-regulated in melanoma To explore the role of A20 in melanoma, we first examined the mRNA and protein level of A20 in a panel of melanoma cell lines and normal human primary melanocyte (HPM)
Through qRT-PCR analysis, we found that the transcriptional levels of A20 were generally increased in melanoma cells compared with melanocytes (Fig. 1a)
Summary
Melanoma is the most lethal skin cancer that is the malignant transformation from epidermal melanocytes. The down-regulation of A20 by its upstream regulator miR-19a promoted the development of colitisassociated colon cancer[7,9] These reports indicate that while A20 is a potential therapeutic target for cancer, its effect is tumor type-specific. The suppression of A20 in myeloidderived suppressor cells or dendritic cells could potentiate the anti-tumor immunity and restrain the progression of implanted melanoma in mice[11,12]. These reports have partially elucidated the biological role of A20 in melanoma, focusing on anti-tumor immunity. The expression status of A20 in human melanoma cell and its influence on melanoma pathogenesis, especially on the malignant behavior of melanoma cell, yet to be fully elucidated
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