CONTEXT: Mutations of the proto-oncogene B-raf (BRAF) have been detected in melanocytic lesions and papillary carcinomas of the thyroid, and identification of these mutations could be useful in resolving some diagnostic problems. OBJECTIVE: To develop a method to evaluate mutations of BRAF that could provide results much more rapidly than conventional polymerase chain reaction and DNA sequencing assays. DESIGN: An assay using a LightCycler was developed to evaluate DNA sequences encoding amino acids within the activation loop of BRAF. RESULTS: Using this real-time polymerase chain reaction method, we analyzed 55 paraffin-embedded melanoma or nevus samples. The V600E mutation was found in 0 (0%) of 13 samples diagnosed histologically as Spitz nevi, 9 (24.3%) of 37 invasive melanomas, and 5 (100%) of 5 other melanocytic nevi. Two additional mutations, V600K and VK600-1E, also were identified in cases of invasive melanoma. We analyzed 14 paraffin-embedded papillary thyroid cancer (PTC) samples, 6 of which showed the V600E mutation. We found that our test worked efficiently with fine-needle aspirate specimens, and it identified 6 V600E mutations in 10 fine-needle aspirate specimens diagnosed as PTC. We also identified 4 V600E mutations in 6 specimens of PTC metastatic to lymph node. Unlike the melanocytic lesions, the PTC specimens yielded only V600E mutations. Comparison of our real-time polymerase chain reaction results with conventional polymerase chain reaction and DNA sequencing demonstrated 100% concordance. Surprisingly, we did not identify the previously reported VK600-1E or K601E mutations in our PTC specimens. CONCLUSIONS: Our results show that the real-time polymerase chain reaction method is a rapid and accurate method for identifying BRAF mutations, such as V600E, in both paraffin-embedded tissue and fine-needle aspirate specimens.
CONTEXT: Mutations of the proto-oncogene B-raf (BRAF) have been detected in melanocytic lesions and papillary carcinomas of the thyroid, and identification of these mutations could be useful in resolving some diagnostic problems. OBJECTIVE: To develop a method to evaluate mutations of BRAF that could provide results much more rapidly than conventional polymerase chain reaction and DNA sequencing assays. DESIGN: An assay using a LightCycler was developed to evaluate DNA sequences encoding amino acids within the activation loop of BRAF. RESULTS: Using this real-time polymerase chain reaction method, we analyzed 55 paraffin-embedded melanoma or nevus samples. The V600E mutation was found in 0 (0%) of 13 samples diagnosed histologically as Spitz nevi, 9 (24.3%) of 37 invasive melanomas, and 5 (100%) of 5 other melanocytic nevi. Two additional mutations, V600K and VK600-1E, also were identified in cases of invasive melanoma. We analyzed 14 paraffin-embedded papillary thyroid cancer (PTC) samples, 6 of which showed the V600E mutation. We found that our test worked efficiently with fine-needle aspirate specimens, and it identified 6 V600E mutations in 10 fine-needle aspirate specimens diagnosed as PTC. We also identified 4 V600E mutations in 6 specimens of PTC metastatic to lymph node. Unlike the melanocytic lesions, the PTC specimens yielded only V600E mutations. Comparison of our real-time polymerase chain reaction results with conventional polymerase chain reaction and DNA sequencing demonstrated 100% concordance. Surprisingly, we did not identify the previously reported VK600-1E or K601E mutations in our PTC specimens. CONCLUSIONS: Our results show that the real-time polymerase chain reaction method is a rapid and accurate method for identifying BRAF mutations, such as V600E, in both paraffin-embedded tissue and fine-needle aspirate specimens.
Authors: Wesley O Greaves; Shalini Verma; Keyur P Patel; Michael A Davies; Bedia A Barkoh; John M Galbincea; Hui Yao; Alexander J Lazar; Kenneth D Aldape; L Jeffrey Medeiros; Rajyalakshmi Luthra Journal: J Mol Diagn Date: 2012-12-27 Impact factor: 5.568
Authors: Jill C Rubinstein; Mario Sznol; Anna C Pavlick; Stephan Ariyan; Elaine Cheng; Antonella Bacchiocchi; Harriet M Kluger; Deepak Narayan; Ruth Halaban Journal: J Transl Med Date: 2010-07-14 Impact factor: 5.531
Authors: Nicola L Schoenewolf; Reinhard Dummer; Daniela Mihic-Probst; Holger Moch; Mathew Simcock; Adrian Ochsenbein; Silke Gillessen; Peter Schraml; Roger von Moos Journal: Case Rep Oncol Date: 2012-06-05
Authors: I Satzger; T Schaefer; U Kuettler; V Broecker; B Voelker; H Ostertag; A Kapp; R Gutzmer Journal: Br J Cancer Date: 2008-11-18 Impact factor: 7.640