KRAS and BRAF Mutation Analysis in Routine Molecular Diagnostics

Heideman, Daniëlle A.M.; Lurkin, Irene; Doeleman, Marije; Smit, Egbert F.; Verheul, Henk M.W.; Meijer, Gerrit A.; Snijders, Peter J.F.; Thunnissen, Erik; Zwarthoff, Ellen C.

doi:10.1016/j.jmoldx.2012.01.011

Cited by 48 publications

(21 citation statements)

References 14 publications

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“…However, limitations of this approach include the potential for suboptimal quality of extracted DNA from FFPE tissue, although the use of microdissection and more sensitive methods have significantly improved detection rates with an ability to detect 1% to 5% of the BRAF V600E mutation in a pool of wild-type. 16, 25, 26 However, the assay time, expense, and the requirement for a molecular diagnostic laboratory remain limitations. In contrast, IHC offers the advantage of a relatively rapid, easy to perform, and cost effective assay that can be readily performed by most hospital pathology laboratories.…”

Section: Discussionmentioning

confidence: 99%

Mutation‐specific antibody detects mutant BRAF^V600E protein expression in human colon carcinomas

Sinicrope

Smyrk

Tougeron

et al. 2013

Cancer

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Background A point mutation (V600E) in the BRAF oncogene is a prognostic biomarker and may predict for non response to anti-EGFR antibody therapy in colon carcinomas. BRAFV600E mutations are also frequently detected in tumors with microsatellite instability and indicate a sporadic origin. Using a mutation-specific antibody, we examined mutant BRAFV600E protein expression and its concordance with BRAFV600E mutation data. Materials/Methods Resected, primary stage III colon carcinomas were analyzed for BRAFV600E mutations in exon 15, and 50 BRAFV600E mutation carriers and 25 wild-type cases were selected for immunohistochemistry (IHC). IHC was performed in archival tissue specimens using a pan-BRAF antibody and a mutation-specific antibody against BRAFV600E proteins. Staining was scored by two pathologists blinded to clinical and mutation data. Results Using a pan-BRAF antibody, total BRAF protein expression was observed in the tumor cell cytoplasm in 74 of 75 colon carcinomas. A mutation-specific antibody identified diffuse cytoplasmic staining of mutant BRAFV600E proteins in 49 of 74 cancers. All 49 of these cases were shown to carry BRAFV600E mutations by a PCR-based assay. In contrast, BRAFV600E staining was absent in all 25 tumors found to carry wild-type copies of BRAFV600E. Conclusion A BRAF mutation-specific (V600E) antibody detects tumors with BRAFV600E mutations and shows complete concordance with a DNA-based method. These results support the use of IHC as a simplified strategy to screen colorectal cancers for mutant BRAFV600E proteins in clinical practice.

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Section: Discussionmentioning

confidence: 99%

Mutation‐specific antibody detects mutant BRAF^V600E protein expression in human colon carcinomas

Sinicrope

Smyrk

Tougeron

et al. 2013

Cancer

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“…A variety of methods have been applied for BRAF mutations. PCR-based screening methods such as SNaPshot assays, AS-PCR, COLD-PCR, Taqman® SNP assay, pyrosequencing and HRM analysis have been applied and the commonly used methods in pathology laboratories are summarized in Table 3[13-18]. Although direct sequencing of PCR products is the gold standard for BRAF mutation detection in routine diagnostics, it remains laborious, time consuming and requires rather expensive equipment [5,6].…”

Section: Discussionmentioning

confidence: 99%

Shifted termination assay (STA) fragment analysis to detect BRAF V600 mutations in papillary thyroid carcinomas

et al. 2013

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BackgroundBRAF mutation is an important diagnostic and prognostic marker in patients with papillary thyroid carcinoma (PTC). To be applicable in clinical laboratories with limited equipment, diverse testing methods are required to detect BRAF mutation.MethodsA shifted termination assay (STA) fragment analysis was used to detect common V600 BRAF mutations in 159 PTCs with DNAs extracted from formalin-fixed paraffin-embedded tumor tissue. The results of STA fragment analysis were compared to those of direct sequencing. Serial dilutions of BRAF mutant cell line (SNU-790) were used to calculate limit of detection (LOD).ResultsBRAF mutations were detected in 119 (74.8%) PTCs by STA fragment analysis. In direct sequencing, BRAF mutations were observed in 118 (74.2%) cases. The results of STA fragment analysis had high correlation with those of direct sequencing (p < 0.00001, κ = 0.98). The LOD of STA fragment analysis and direct sequencing was 6% and 12.5%, respectively. In PTCs with pT3/T4 stages, BRAF mutation was observed in 83.8% of cases. In pT1/T2 carcinomas, BRAF mutation was detected in 65.9% and this difference was statistically significant (p = 0.007). Moreover, BRAF mutation was more frequent in PTCs with extrathyroidal invasion than tumors without extrathyroidal invasion (84.7% versus 62.2%, p = 0.001). To prepare and run the reactions, direct sequencing required 450 minutes while STA fragment analysis needed 290 minutes.ConclusionsSTA fragment analysis is a simple and sensitive method to detect BRAF V600 mutations in formalin-fixed paraffin-embedded clinical samples.Virtual SlidesThe virtual slide(s) for this article can be found here: http://www.diagnosticpathology.diagnomx.eu/vs/5684057089135749

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“…For Colo829 and MeWO, the mutational status of BRAF exon 15 was assessed by HRM (high-resolution melting) assay followed by Sanger sequencing of HRM-PCR products with an aberrant melting curve, essentially as described previously [36]. …”

Section: Methodsmentioning

confidence: 99%

Development of [11C]vemurafenib employing a carbon-11 carbonylative Stille coupling and preliminary evaluation in mice bearing melanoma tumor xenografts

et al. 2017

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Over the last decade kinase inhibitors have witnessed tremendous growth as anti-cancer drugs. Unfortunately, despite their promising clinical successes, a large portion of patients does not benefit from these targeted therapeutics. Vemurafenib is a serine/threonine kinase inhibitor approved for the treatment of melanomas specifically expressing the BRAFV600E mutation. The aim of this study was to develop vemurafenib as PET tracer to determine its potential for identification of tumors sensitive to vemurafenib treatment. Therefore, vemurafenib was labeled with carbon-11 and analyzed for its tumor targeting potential in melanoma xenografts Colo829 (BRAFV600E) and MeWo (BRAFwt) using autoradiography on tissue sections, in vitro tumor cell uptake studies and biodistribution studies in xenografted athymic nu/nu mice. [11C]vemurafenib was synthesized in 21 ± 4% yield (decay corrected, calculated from [11C]CO) in > 99% radiochemical purity and a specific activity of 55 ± 18 GBq/μmol. Similar binding of [11C]vemurafenib was shown during autoradiography and cellular uptake studies in both cell lines. Plasma metabolite analysis demonstrated > 95% intact [11C]vemurafenib in vivo at 45 minutes after injection, indicating excellent stability. Biodistribution studies confirmed the in vitro results, showing similar tumor-to-background ratios in both xenografts models. These preliminary results suggest that identification of BRAFV600E mutations in vivo using PET with [11C]vemurafenib will be challenging.

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KRAS and BRAF Mutation Analysis in Routine Molecular Diagnostics

Cited by 48 publications

References 14 publications

Mutation‐specific antibody detects mutant BRAF^V600E protein expression in human colon carcinomas

Mutation‐specific antibody detects mutant BRAF^V600E protein expression in human colon carcinomas

Shifted termination assay (STA) fragment analysis to detect BRAF V600 mutations in papillary thyroid carcinomas

Development of [11C]vemurafenib employing a carbon-11 carbonylative Stille coupling and preliminary evaluation in mice bearing melanoma tumor xenografts

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KRAS and BRAF Mutation Analysis in Routine Molecular Diagnostics

Cited by 48 publications

References 14 publications

Mutation‐specific antibody detects mutant BRAFV600E protein expression in human colon carcinomas

Mutation‐specific antibody detects mutant BRAFV600E protein expression in human colon carcinomas

Shifted termination assay (STA) fragment analysis to detect BRAF V600 mutations in papillary thyroid carcinomas

Development of [11C]vemurafenib employing a carbon-11 carbonylative Stille coupling and preliminary evaluation in mice bearing melanoma tumor xenografts

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Mutation‐specific antibody detects mutant BRAF^V600E protein expression in human colon carcinomas

Mutation‐specific antibody detects mutant BRAF^V600E protein expression in human colon carcinomas