Background: BRAF mutations activate the mitogen-activated protein kinase pathway and often confer an aggressive thyroid cancer (TC) phenotype. Spry2 is an inducible negative feedback regulator of the mitogen-activated protein kinase (MAPK) pathway. The aim of this study was to investigate the role of Spry2 in TC.
Methods: TC cell lines were analyzed for Spry2 expression and MAPK pathway activation. Cells were treated with MEK inhibitor and Spry2 small hairpin RNA. Cells were analyzed for Spry2 expression and MEK/ERK phosphorylation (pMEK, pERK). Thirty human papillary TCs were analyzed for mitogen-activated protein kinase pathway activating mutations and Spry2 expression.
Results: Increased baseline pMEK levels and Spry2 expression was found in BRAF V600E mutant (BRAF+) cells. MEK inhibition in BRAF+ cells showed decreased Spry2 expression and decreased pMEK/pERK levels. From our tissue samples, 10 papillary TCs had BRAF mutation, and increased Spry2 expression was found only in BRAF+ tumors.
Conclusion: Spry2 expression correlates with BRAF status in vitro and in human tissue. Spry2 may serve as a negative feedback regulator of the mitogen-activated protein kinase pathway in BRAF+ TC. Increased Spry2 expression may serve as a surrogate marker of mitogen-activated protein kinase pathway activation with prognostic and therapeutic implications.
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