Context: The active surveillance (AS) program for papillary thyroid carcinoma (≤ 1 cm) at low-risk (mPTC) showed a low percentage of progression. Objective: The aim of this study was to find a molecular signature of cases that showed disease progression during AS, which would allow their early identification. Methods: We performed next generation sequencing of 95 fine needle aspiration cytology specimens from cases prospectively enrolled in the AS program to analyze key somatic driver alterations or gene fusions implicated in PTC tumorigenesis. TERT promoter analysis was performed using Sanger sequencing or droplet digital PCR. Results: BRAF p.V600E was found in 66.3% (63/95) of mPTC and was the most common somatic alteration, followed by RAS oncogene mutations detected in 3.2% of mPTC (3/95: 2 NRAS and 1 KRAS) and gene fusions detected in 3.2% of mPTC (3/95: 1 RET-PTC1, 1 TFG-NTRK1, 1 ALK imbalance). No TERT promoter mutations (C228T and C250T) were found in the analyzed mPTC (84/95). The comparison between the molecular profile and the clinical outcome of the mPTC (stable versus progressive disease) showed no correlation (p-value=0.6) and did not identify a molecular signature able to identify progressive mPTC. Conclusions: The molecular profile of mPTC is like that of bigger PTC with the exception that none of them showed a TERT promoter mutation. The identification of the most common driver mutations, such as BRAF, RAS, or gene fusions, is not helpful for the early identification of mPTC that will show disease progression during follow-up in the AS program.
Molecular profiling of low-risk papillary thyroid carcinoma (mPTC) on active surveillance
Ramone, Teresa;Ghirri, Arianna;Prete, Alessandro;Matrone, Antonio;Ciampi, Raffaele;Piaggi, Paolo;Scutari, Maria;Rago, Teresa;Torregrossa, Liborio;Romei, Cristina;Elisei, Rossella;Molinaro, Eleonora
In corso di stampa
Abstract
Context: The active surveillance (AS) program for papillary thyroid carcinoma (≤ 1 cm) at low-risk (mPTC) showed a low percentage of progression. Objective: The aim of this study was to find a molecular signature of cases that showed disease progression during AS, which would allow their early identification. Methods: We performed next generation sequencing of 95 fine needle aspiration cytology specimens from cases prospectively enrolled in the AS program to analyze key somatic driver alterations or gene fusions implicated in PTC tumorigenesis. TERT promoter analysis was performed using Sanger sequencing or droplet digital PCR. Results: BRAF p.V600E was found in 66.3% (63/95) of mPTC and was the most common somatic alteration, followed by RAS oncogene mutations detected in 3.2% of mPTC (3/95: 2 NRAS and 1 KRAS) and gene fusions detected in 3.2% of mPTC (3/95: 1 RET-PTC1, 1 TFG-NTRK1, 1 ALK imbalance). No TERT promoter mutations (C228T and C250T) were found in the analyzed mPTC (84/95). The comparison between the molecular profile and the clinical outcome of the mPTC (stable versus progressive disease) showed no correlation (p-value=0.6) and did not identify a molecular signature able to identify progressive mPTC. Conclusions: The molecular profile of mPTC is like that of bigger PTC with the exception that none of them showed a TERT promoter mutation. The identification of the most common driver mutations, such as BRAF, RAS, or gene fusions, is not helpful for the early identification of mPTC that will show disease progression during follow-up in the AS program.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.