AIMS: The aim of this study was to genotype a series of papillary thyroid carcinomas (PTCs) and anaplastic thyroid carcinomas (ATCs) for BRAF mutation, and to evaluate p53 and SOX2 expression as factors implicated in tumour progression. METHODS: The study included 17 PTCs and 14 ATCs. Analysis of the exon 15 of BRAF was based on direct sequencing. Immunohistochemistry was used to evaluate p53 and SOX2 expression. RESULTS: V600E (c.1799T>A) mutation was observed in 53% (9/17) of PTCs. Two cases of ATCs (2/14; 14%), both with PTC component, harboured BRAF mutation: the classical V600E mutation and an undocumented duplication of codon 599 (c.1795_1797dup; p.Thr599dup). These mutations were present in ATC as well as PTC tumour cells. Overexpression of p53 and SOX2 was depicted respectively in 64% (9/14) and 29% (4/14) of ATCs, and absent in PTCs. CONCLUSION: We confirm that V600E mutation is a frequent and specific event in PTC. BRAF-mutated ATCs are associated with a PTC component displaying the same mutation. We describe a new mutation of BRAF, T599dup, in a case of ATC with tall cell PTC component. Moreover, progression from PTC to ATC could be favoured by further TP53 mutation and SOX2 expression.
AIMS: The aim of this study was to genotype a series of papillary thyroid carcinomas (PTCs) and anaplastic thyroid carcinomas (ATCs) for BRAF mutation, and to evaluate p53 and SOX2 expression as factors implicated in tumour progression. METHODS: The study included 17 PTCs and 14 ATCs. Analysis of the exon 15 of BRAF was based on direct sequencing. Immunohistochemistry was used to evaluate p53 and SOX2 expression. RESULTS:V600E (c.1799T>A) mutation was observed in 53% (9/17) of PTCs. Two cases of ATCs (2/14; 14%), both with PTC component, harboured BRAF mutation: the classical V600E mutation and an undocumented duplication of codon 599 (c.1795_1797dup; p.Thr599dup). These mutations were present in ATC as well as PTC tumour cells. Overexpression of p53 and SOX2 was depicted respectively in 64% (9/14) and 29% (4/14) of ATCs, and absent in PTCs. CONCLUSION: We confirm that V600E mutation is a frequent and specific event in PTC. BRAF-mutated ATCs are associated with a PTC component displaying the same mutation. We describe a new mutation of BRAF, T599dup, in a case of ATC with tall cell PTC component. Moreover, progression from PTC to ATC could be favoured by further TP53 mutation and SOX2 expression.
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