Abstract
Inhibitor-kappaB kinase epsilon (IKKε) and TANK-binding kinase 1 (TBK1) are non-canonical IκB kinases, both described as contributors to tumor growth and metastasis in different cancer types. Several hints indicate that they are also involved in the pathogenesis of melanoma; however, the impact of their inhibition as a potential therapeutic measure in this “difficult-to-treat” cancer type has not been investigated so far. We assessed IKKε and TBK1 expression in human malignant melanoma cells, primary tumors and the metastasis of melanoma patients. Both kinases were expressed in the primary tumor and in metastasis and showed a significant overexpression in tumor cells in comparison to melanocytes. The pharmacological inhibition of IKKε/TBK1 by the approved drug amlexanox reduced cell proliferation, migration and invasion. Amlexanox did not affect the cell cycle progression nor apoptosis induction but significantly suppressed autophagy in melanoma cells. The analysis of potential functional downstream targets revealed that NF-кB and ERK pathways might be involved in kinase-mediated effects. In an in vivo xenograft model in nude mice, amlexanox treatment significantly reduced tumor growth. In conclusion, amlexanox was able to suppress tumor progression potentially by the inhibition of autophagy as well as NF-кB and MAP kinase pathways and might therefore constitute a promising candidate for melanoma therapy.
Highlights
Malignant melanoma is the most aggressive type of skin cancer, with increasing global incidence
A Western blot analysis revealed a relatively low expression of both IKKε and TANK-binding kinase 1 (TBK1) proteins in human HERMES1 melanocytes, which were significantly elevated in A375M and SK-Mel-28 melanoma cells (Figure 1a,b,d,e)
TBK1 was involved in NF-кB activation and the subsequent upregulation of
Summary
Malignant melanoma is the most aggressive type of skin cancer, with increasing global incidence It has a highly metastatic potential, and the 5-year survival rates of patients with advanced melanoma are very poor. Common variants comprise BRAF (e.g., BRAFV600) or NRAS, both involved in mitogen activated protein kinase (MAPK) activation, as well as the tumor suppressor phosphatase and tensin homolog (PTEN), respectively. These mutations contribute to the highly proliferative and pro-survival properties of melanoma cells and have raised opportunities for targeted therapies of melanoma patients; several melanoma quickly develop resistance against their respective drugs [2]. There is a great need for the development of novel therapeutic approaches based on the so-far unknown molecular mechanisms of melanoma initiation and progression
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