BACKGROUND: While the association of the BRAF(V600E) mutation with aggressive histopathological tumor features and clinical behavior has been extensively studied in papillary thyroid carcinoma (PTC), the BRAF(K601E) mutation has not been well characterized. This study reports what is currently the largest series of BRAF(K601E) mutated thyroid nodules. METHODS: Histopathologic, cytologic, and molecular reports over a period of seven years (June 2007 to June 2014) were reviewed to identify thyroid cases with various types of BRAF mutations. All cases positive for the BRAF(K601E) mutation were reviewed to confirm histopathologic diagnosis and establish tumor variant, and clinical charts were reviewed to obtain clinical characteristics and follow-up information. RESULTS: The BRAF(K601E) mutation was identified in 39 patients and comprised 5.3% of all BRAF mutations noted in thyroidectomy specimens. Twenty-seven out of 29 nodules (93%) with BRAF(K601E) mutated tumors with surgical pathology results available for review were PTC, one (3.4%) was a follicular thyroid carcinoma, and one (3.4%) was a follicular adenoma. The majority of K601E-mutant PTCs (20 cases) were follicular variant PTC. Encapsulation was present in all but one case, and one case showed capsular invasion. Coexisting mutations overall were not identified in BRAF(K601E) mutated thyroid nodules except in a case that exhibited a complex K601E + T599I mutation and had a classic PTC phenotype. The majority of K601E mutant nodules were T1 lesions (69%) and T2 lesions (28%) by TNM staging. With a median follow-up of 19.6 months, no structural or biochemical recurrence or metastases were found in patients with an isolated BRAF(K601E) mutation. CONCLUSIONS: The BRAF(K601E) mutation is the second most common BRAF mutation found in thyroid nodules. Unlike BRAF(V600E), the most common mutation, K601E is strongly associated with follicular-patterned cancer, particularly with the encapsulated follicular variant of PTC, and may also be found in follicular thyroid carcinomas. Overall, BRAF(K601E) mutant tumors show better clinical outcomes than BRAF(V600E) positive tumors, and preoperative BRAF(K601E) analysis may provide important prognostic information for use in clinical management.
BACKGROUND: While the association of the BRAF(V600E) mutation with aggressive histopathological tumor features and clinical behavior has been extensively studied in papillary thyroid carcinoma (PTC), the BRAF(K601E) mutation has not been well characterized. This study reports what is currently the largest series of BRAF(K601E) mutated thyroid nodules. METHODS: Histopathologic, cytologic, and molecular reports over a period of seven years (June 2007 to June 2014) were reviewed to identify thyroid cases with various types of BRAF mutations. All cases positive for the BRAF(K601E) mutation were reviewed to confirm histopathologic diagnosis and establish tumor variant, and clinical charts were reviewed to obtain clinical characteristics and follow-up information. RESULTS: The BRAF(K601E) mutation was identified in 39 patients and comprised 5.3% of all BRAF mutations noted in thyroidectomy specimens. Twenty-seven out of 29 nodules (93%) with BRAF(K601E) mutated tumors with surgical pathology results available for review were PTC, one (3.4%) was a follicular thyroid carcinoma, and one (3.4%) was a follicular adenoma. The majority of K601E-mutant PTCs (20 cases) were follicular variant PTC. Encapsulation was present in all but one case, and one case showed capsular invasion. Coexisting mutations overall were not identified in BRAF(K601E) mutated thyroid nodules except in a case that exhibited a complex K601E + T599I mutation and had a classic PTC phenotype. The majority of K601E mutant nodules were T1 lesions (69%) and T2 lesions (28%) by TNM staging. With a median follow-up of 19.6 months, no structural or biochemical recurrence or metastases were found in patients with an isolated BRAF(K601E) mutation. CONCLUSIONS: The BRAF(K601E) mutation is the second most common BRAF mutation found in thyroid nodules. Unlike BRAF(V600E), the most common mutation, K601E is strongly associated with follicular-patterned cancer, particularly with the encapsulated follicular variant of PTC, and may also be found in follicular thyroid carcinomas. Overall, BRAF(K601E) mutant tumors show better clinical outcomes than BRAF(V600E) positive tumors, and preoperative BRAF(K601E) analysis may provide important prognostic information for use in clinical management.
Authors: Smruthy Sivakumar; F Anthony San Lucas; Tina L McDowell; Wenhua Lang; Li Xu; Junya Fujimoto; Jianjun Zhang; P Andrew Futreal; Junya Fukuoka; Yasushi Yatabe; Steven M Dubinett; Avrum E Spira; Jerry Fowler; Ernest T Hawk; Ignacio I Wistuba; Paul Scheet; Humam Kadara Journal: Cancer Res Date: 2017-09-26 Impact factor: 12.701