Genetic and Evolutionary Patterns of Treatment Resistance in Relapsed B-cell Lymphoma

Overview

Journal Blood Adv

Specialty Hematology

Date 2020 Jun 27

PMID 32589730

Citations 47

Authors

Christopher K Rushton

Sarah E Arthur

Miguel Alcaide

Matthew Cheung

Aixiang Jiang

Krysta M Coyle

Kirstie L S Cleary

Nicole Thomas

Laura K Hilton

Neil Michaud

Scott Daigle

Jordan Davidson

Kevin Bushell

Stephen Yu

Ryan N Rys

Michael Jain

Lois Shepherd

Marco A Marra

John Kuruvilla

Michael Crump

Koren Mann

Sarit Assouline

Joseph M Connors

Christian Steidl

Mark S Cragg

David W Scott

Nathalie A Johnson

Ryan D Morin

Affiliations

Soon will be listed here.

Abstract

Diffuse large B-cell lymphoma (DLBCL) patients are typically treated with immunochemotherapy containing rituximab (rituximab, cyclophosphamide, hydroxydaunorubicin-vincristine (Oncovin), and prednisone [R-CHOP]); however, prognosis is extremely poor if R-CHOP fails. To identify genetic mechanisms contributing to primary or acquired R-CHOP resistance, we performed target-panel sequencing of 135 relapsed/refractory DLBCLs (rrDLBCLs), primarily comprising circulating tumor DNA from patients on clinical trials. Comparison with a metacohort of 1670 diagnostic DLBCLs identified 6 genes significantly enriched for mutations upon relapse. TP53 and KMT2D were mutated in the majority of rrDLBCLs, and these mutations remained clonally persistent throughout treatment in paired diagnostic-relapse samples, suggesting a role in primary treatment resistance. Nonsense and missense mutations affecting MS4A1, which encodes CD20, are exceedingly rare in diagnostic samples but show recurrent patterns of clonal expansion following rituximab-based therapy. MS4A1 missense mutations within the transmembrane domains lead to loss of CD20 in vitro, and patient tumors harboring these mutations lacked CD20 protein expression. In a time series from a patient treated with multiple rounds of therapy, tumor heterogeneity and minor MS4A1-harboring subclones contributed to rapid disease recurrence, with MS4A1 mutations as founding events for these subclones. TP53 and KMT2D mutation status, in combination with other prognostic factors, may be used to identify high-risk patients prior to R-CHOP for posttreatment monitoring. Using liquid biopsies, we show the potential to identify tumors with loss of CD20 surface expression stemming from MS4A1 mutations. Implementation of noninvasive assays to detect such features of acquired treatment resistance may allow timely transition to more effective treatment regimens.

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