Abstract
We employed a high-throughput drug library screening platform to identify novel agents affecting thyroid cancer cells. We used human thyroid cancer cell lines to screen a collection of approximately 5200 small molecules with biological and/or pharmacologial properties. Parallel primary screens yielded a number of hits differentially active between thyroid and melanoma cells. Amongst compounds specifically targeting thyroid cancer cells, colchicine emerged as an effective candidate. Colchicine inhibited cell growth which correlated with G2 cell cycle arrest and apoptosis. These effects were hampered through inhibition of MEK1/2 and JNK. In contrast, inhibition of p38-MAPK had little effect, and AKT had no impact on colchicine action. Systemic colchicine inhibited thyroid cancer progression in xenografted mice. These findings demonstrate that our screening platform is an effective vehicle for drug reposition and show that colchicine warrants further attention in well-defined clinical niches such as thyroid cancer.
Highlights
Inhibition of the BRAFV600E oncoprotein by smallmolecule drugs such as PLX4032 is highly effective in the treatment of melanoma [1]
Underlying drug resistance might conceivably result from additional MAPK pathway alterations [4]
To identify small molecules that can inhibit the viability of thyroid cancer cells, we developed a screening platform using 8505C and KTC-1 cells that harbor the BRAFV600E mutation and, as a reference for a non-thyroidal BRAF mutant phenotype, human melanoma Malme-3M cells
Summary
Inhibition of the BRAFV600E oncoprotein by smallmolecule drugs such as PLX4032 (vemurafenib) is highly effective in the treatment of melanoma [1]. Underlying drug resistance might conceivably result from additional MAPK pathway alterations [4]. Epidermal growth factor receptor (EGF-R) inhibitors appear to provide synergy with BRAF inhibitors in multiple BRAF-mutant cancers [5]. Such drug combinations may show a more effective action, the potential for increased toxicity and economic implications can limit clinical feasibility. Recent evidence identified a role for the AKT pathway in mediating resistance to BRAF inhibition [6]
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