Brett Collinge, Laura K Hilton, Jasper Wong, Waleed Alduaij, Susana Ben-Neriah, Graham W Slack, Pedro Farinha, Merrill Boyle, Barbara Meissner, James R Cook, German Ott, Andreas Rosenwald, Elias Campo, Catalina Amador, Timothy C Greiner, Philipp W Raess, Joo Y Song, Giorgio Inghirami, Sarah L Ondrejka, Elaine S Jaffe, Dennis D Weisenburger, Wing C Chan, Harald Holte, Klaus Beiske, Kai Fu, Jan Delabie, Stefania Pittaluga, Javeed Iqbal, George Wright, Kerry J Savage, Andrew J Mungall, Louis M Staudt, Christian Steidl, Andrew L Feldman, Ryan D Morin, Lisa M Rimsza, David W Scott
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引用次数: 0
Abstract
Molecular characterization of high-grade B-cell lymphoma, not otherwise specified (HGBCL-NOS), is hindered by its rarity, evolving definition, and poor diagnostic reproducibility. To address this challenge, we analyzed 92 HGBCL-NOS tumors collected across Lymphoma/Leukemia Molecular Profiling Project sites. Leveraging comparison cohorts of diffuse large B-cell lymphoma (DLBCL-NOS) and Burkitt lymphoma (BL), and molecular frameworks described in these entities, our analysis revealed a heterogenous molecular landscape, reminiscent of DLBCL-NOS but with an enrichment of BL features. By cell-of-origin, 59% were germinal center B-cell-like (GCB), and 25% were activated B-cell-like (ABC). LymphGen, a genetic classifier for DLBCL-NOS, assigned a genetic subtype to 34% of HGBCL-NOS. Although classification rate was lower than in DLBCL-NOS (66%), assigned subtypes spanned the spectrum of LymphGen classes, including 31% of ABCs classified as MCD. Features differentiating HGBCL-NOS from DLBCL-NOS included MYC -rearrangement (47% vs. 6%), dark zone signature (DZsig) expression (45% vs. 7%), and more frequent mutation of ID3 , MYC , CCND3 , and TP53 - all common to BL. A genetic classifier that differentiates DLBCL-NOS from BL classified 53% of DZsig+ tumors as BL-like, with those classified as DLBCL-like frequently BCL2 -rearranged. Among DZsig-GCB tumors, 95% were DLBCL-like. Centralized pathology review reclassified almost half of tumors as DLBCL-NOS but did not identify a more homogenous HGBCL-NOS population, with no difference in features between confirmed and reclassified tumors. In conclusion, molecular testing enables a subset of HGBCL-NOS to be assigned to established categories. Based on rarity and diagnostic challenges, broader inclusion of HGBCL-NOS should be considered in biomarker-driven DLBCL trials.
Key points: Molecular analyses reveal that HGBCL-NOS encompasses a heterogeneous collection of tumors.A subset of HGBCL-NOS can be assigned to established molecular groups, while others remain unclassified.
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