An effective approach for BRAF V600E mutation analysis of routine thyroid fine needle aspirates.

INTRODUCTION: Molecular testing for genetic alterations in thyroid neoplasms, including BRAF V600E (BRAF) mutation, are often applied to thyroid aspirates falling into the Bethesda System for Reporting Thyroid Cytopathology indeterminate categories. Current methods typically use dedicated aspirated material, without morphological determination of containing the cells of interest and may be of elevated cost. We describe our experience with BRAF mutation analysis on material obtained from Papanicolaou (PAP)-stained ThinPrep® (TP) slides. METHODS: Eighty-three cases collected between 2012 and 2019 with more than 100 cells were selected. An electronic record of a whole slide scan was made for each case before testing. The coverslips were removed, and DNA was extracted from material scraped from each slide using the Qiagen QIAamp DNA FFPE Tissue Kit. BRAF testing was performed using a highly sensitive mutation detection assay, either COLD-PCR, castPCR, or droplet digital PCR. RESULTS: Fourteen out of 83 cases had a BRAF mutation. Of these, 8 were classified as atypia of undetermined significance or suspicious for malignancy in which follow-up showed conventional papillary thyroid carcinoma in 5 out of 6 cases. The specificity and positive predictive value were 97% and 91%, respectively. CONCLUSIONS: BRAF mutation analysis can be performed on material obtained from routine clinical PAP-stained TP slides. As a first step, this unconventional effective approach may reduce costs related to the molecular evaluation of thyroid nodule aspirates and provides the opportunity for cytomorphological confirmation that the cells of interest are present in material submitted for BRAF mutation analysis.

Genomic profiling of primary histiocytic sarcoma reveals two molecular subgroups.

Histiocytic sarcoma is a rare malignant neoplasm that may occur de novo or in the context of a previous hematologic malignancy or mediastinal germ cell tumor. Here, we performed whole exome sequencing and RNA-sequencing (RNA-Seq) on 21 archival cases of primary histiocytic sarcoma. We identified a high number of genetic alterations within the RAS/RAF/MAPK pathway in 21 of 21 cases, with alterations in NF1 (6 of 21), MAP2K1 (5 of 21), PTPN11 (4 of 21), BRAF (4 of 21), KRAS (4 of 21), NRAS (1 of 21), and LZTR1 (1 of 21), including single cases with homozygous deletion of NF1, high-level amplification of PTPN11, and a novel TTYH3-BRAF fusion. Concurrent NF1 and PTPN11 mutations were present in 3 of 21 cases, and 5 of 7 cases with alterations in NF1 and/or PTPN11 had disease involving the gastrointestinal tract. Following unsupervised clustering of gene expression data, cases with NF1 and/or PTPN11 abnormalities formed a distinct tumor subgroup. A subset of NF1/PTPN11 wild-type cases had frequent mutations in B-cell lymphoma associated genes and/or clonal IG gene rearrangements. Our findings expand the current understanding of the molecular pathogenesis of this rare tumor and suggest the existence of a distinct subtype of primary histiocytic sarcoma characterized by NF1/PTPN11 alterations with predilection for the gastrointestinal tract.

Both variant and IGHV4-34-expressing hairy cell leukemia lack the BRAF V600E mutation.

Recently, the BRAF V600E mutation was reported in all cases of hairy cell leukemia (HCL) but not in other peripheral B-cell neoplasms. We wished to confirm these results and assess BRAF status in well-characterized cases of HCL associated with poor prognosis, including the immunophenotypically defined HCL variant (HCLv) and HCL expressing the IGHV4-34 immunoglobulin rearrangement. Fifty-three classic HCL (HCLc) and 16 HCLv cases were analyzed for BRAF, including 5 HCLc and 8 HCLv expressing IGHV4-34. BRAF was mutated in 42 (79%) HCLc, but wild-type in 11 (21%) HCLc and 16 (100%) HCLv. All 13 IGHV4-34(+) HCLs were wild-type. IGHV gene usage in the 11 HCLc BRAF wild-type cases included 5 IGHV4-34, 5 other, and 1 unknown. Our results suggest that HCLv and IGHV4-34(+) HCLs have a different pathogenesis than HCLc and that a significant minority of other HCLc are also wild-type for BRAF V600.