NOTCH1 Represses MCL-1 Levels in GSI-resistant T-ALL, Making Them Susceptible to ABT-263

Overview

Journal Clin Cancer Res

Specialty Oncology

Date 2018 Sep 19

PMID 30224339

Citations 11

Authors

Anahita Dastur

Ahyun Choi

Carlotta Costa

Xunqin Yin

August Williams

Joseph McClanaghan

Max Greenberg

Justine Roderick

Neha U Patel

Jessica Boisvert

Ultan McDermott

Mathew J Garnett

Jorge Almenara

Steven Grant

Kathryn Rizzo

Jeffrey A Engelman

Michelle Kelliher

Anthony C Faber

Cyril H Benes

Affiliations

Soon will be listed here.

Abstract

Purpose: Effective targeted therapies are lacking for refractory and relapsed T-cell acute lymphoblastic leukemia (T-ALL). Suppression of the NOTCH pathway using gamma-secretase inhibitors (GSI) is toxic and clinically not effective. The goal of this study was to identify alternative therapeutic strategies for T-ALL.

Experimental Design: We performed a comprehensive analysis of our high-throughput drug screen across hundreds of human cell lines including 15 T-ALL models. We validated and further studied the top hit, navitoclax (ABT-263). We used multiple human T-ALL cell lines as well as primary patient samples, and performed both experiments and studies on patient-derived xenograft models.

Results: We found that T-ALL are hypersensitive to navitoclax, an inhibitor of BCL2 family of antiapoptotic proteins. Importantly, GSI-resistant T-ALL are also susceptible to navitoclax. Sensitivity to navitoclax is due to low levels of MCL-1 in T-ALL. We identify an unsuspected regulation of mTORC1 by the NOTCH pathway, resulting in increased MCL-1 upon GSI treatment. Finally, we show that pharmacologic inhibition of mTORC1 lowers MCL-1 levels and further sensitizes cells to navitoclax and leads to tumor regressions .

Conclusions: Our results support the development of navitoclax, as single agent and in combination with mTOR inhibitors, as a new therapeutic strategy for T-ALL, including in the setting of GSI resistance.

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