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DLBCL-associated NOTCH2 mutations escape ubiquitin-dependent degradation and promote chemoresistance

Nan Zhou, Jaewoo Choi, Grant P. Grothusen, Bang‐Jin Kim, Diqiu Ren, Zhendong Cao, Yiman Liu, Qinglan Li, Arati A. Inamdar, Thomas Beer, Hsin‐Yao Tang, Eric Perkey, Ivan Maillard, Roberto Bonasio, Junwei Shi, Marco Ruella, Liling Wan, Luca Busino

2023Blood25 citationsDOIOpen Access PDF

Abstract

Diffuse large B-cell lymphoma (DLBCL) is the most common subtype of non-Hodgkin lymphoma. Up to 40% of patients with DLBCL display refractory disease or relapse after standard chemotherapy treatment (rituximab, cyclophosphamide, doxorubicin, vincristine, and prednisone [R-CHOP]), leading to significant morbidity and mortality. The molecular mechanisms of chemoresistance in DLBCL remain incompletely understood. Using a cullin-really interesting new gene (RING) ligase-based CRISPR-Cas9 library, we identify that inactivation of the E3 ubiquitin ligase KLHL6 promotes DLBCL chemoresistance. Furthermore, proteomic approaches helped identify KLHL6 as a novel master regulator of plasma membrane-associated NOTCH2 via proteasome-dependent degradation. In CHOP-resistant DLBCL tumors, mutations of NOTCH2 result in a protein that escapes the mechanism of ubiquitin-dependent proteolysis, leading to protein stabilization and activation of the oncogenic RAS signaling pathway. Targeting CHOP-resistant DLBCL tumors with the phase 3 clinical trial molecules nirogacestat, a selective γ-secretase inhibitor, and ipatasertib, a pan-AKT inhibitor, synergistically promotes DLBCL destruction. These findings establish the rationale for therapeutic strategies aimed at targeting the oncogenic pathway activated in KLHL6- or NOTCH2-mutated DLBCL.

Topics & Concepts

Cancer researchDiffuse large B-cell lymphomaUbiquitin ligaseBiologyVincristineCHOPLymphomaCullinRituximabUbiquitinCyclophosphamideImmunologyChemotherapyGeneticsGeneUbiquitin and proteasome pathwaysProtein Degradation and InhibitorsLymphoma Diagnosis and Treatment