BRAF<sup>V600E</sup> immunohistochemistry can reliably substitute <i>BRAF</i> molecular testing in the Lynch syndrome screening algorithm in colorectal cancer
Federica Grillo, Michele Paudice, Simona Pigozzi, Maria Dono, Sonia Lastraioli, Marialuisa Lugaresi, Silvia Bozzano, Camilla Tognoni, Murad H. Ali, Stefania Sciallero, Alberto Puccini, Matteo Fassan, Luca Mastracci
Abstract
Aims The Lynch syndrome (LS) screening algorithm requires BRAF testing as a fundamental step to distinguish sporadic from LS‐associated colorectal carcinomas (CRC). BRAF testing by immunohistochemistry (IHC) has shown variable results in the literature. Our aim was to analyse concordance between BRAF V600E IHC and BRAF molecular analysis in a large, mono‐institutional CRC whole‐slide, case series with laboratory validation. Methods and results MisMatch repair (MMR) protein (hMLH1, hPMS2, hMSH2, and hMSH6) and BRAF V600E IHC were performed on all unselected cases of surgically resected CRCs (2018–2023). An in‐house validation study for BRAF V600E IHC was performed in order to obtain optimal IHC stains. BRAFV V600E IHC was considered negative (score 0), positive (scores 2–3), and equivocal (score 1). Interobserver differences in BRAF V600E IHC scoring were noted in the first 150 cases prospectively collected. Nine‐hundred and ninety CRCs cases (830 proficient (p)MMR/160 deficient (d)MMR) were included and all cases performed BRAF V600E IHC (BRAF V600E IHC‐positive 13.5% of all series; 66.3% dMMR cases; 3.4% pMMR cases), while 333 also went to BRAF mutation analysis. Optimal agreement in IHC scoring between pathologists ( P < 0.0001) was seen; concordance between BRAF V600E IHC and BRAF molecular analysis was extremely high (sensitivity 99.1%, specificity 99.5%; PPV 99.1%, and NPV 99.5%). Discordant cases were reevaluated; 1 score 3 + IHC/wildtype case was an interpretation error and one score 0 IHC/mutated case was related to heterogenous BRAF V600E IHC expression. Among the 12 IHC‐equivocal score 1+ cases (which require BRAF molecular analysis), three were BRAF‐ mutated and nine BRAF‐ wildtype. Conclusion BRAF V600E IHC can be used as a reliable surrogate of molecular testing after stringent in‐house validation.