Elevated NR2F1 underlies the persistence of invasive disease after treatment of BRAF-mutant melanoma
Manoela Tiago, Timothy J. Purwin, Casey D. Stefanski, Renaira Oliveira da Silva, Mitchell E. Fane, Yash Chhabra, Jelan I. Haj, Jessica L.F. Teh, Rama Kadamb, Weijia Cai, Sheera R. Rosenbaum, Vivian Chua, Nir Hacohen, Michael A. Davies, Jessie Villanueva, Inna Chervoneva, Ashani T. Weeraratna, Dan A. Erkes, Claudia Capparelli, Julio A. Aguirre-Ghiso, Andrew E. Aplin
Manoela Tiago, Timothy J. Purwin, Casey D. Stefanski, Renaira Oliveira da Silva, Mitchell E. Fane, Yash Chhabra, Jelan I. Haj, Jessica L.F. Teh, Rama Kadamb, Weijia Cai, Sheera R. Rosenbaum, Vivian Chua, Nir Hacohen, Michael A. Davies, Jessie Villanueva, Inna Chervoneva, Ashani T. Weeraratna, Dan A. Erkes, Claudia Capparelli, Julio A. Aguirre-Ghiso, Andrew E. Aplin
View: Text | PDF
Research Article Oncology

Elevated NR2F1 underlies the persistence of invasive disease after treatment of BRAF-mutant melanoma

Abstract

Despite the success of targeted inhibitors in cutaneous melanoma, therapeutic responses are limited by the aged tumor microenvironment and drug-tolerant residual cells. Given the similarities between drug tolerance and cellular dormancy, we studied the dormancy marker, nuclear receptor subfamily 2 group F member 1 (NR2F1), in response to BRAF-V600E inhibitors (BRAFi) plus MEK inhibitors (MEKi) in BRAF-mutant melanoma models. Transcriptomic analysis of melanoma patient samples treated with BRAFi + MEKi showed increased NR2F1. NR2F1 was highly expressed in the drug-tolerant invasive cell state of minimal residual disease in patient-derived and mouse-derived xenografts on BRAFi + MEKi. NR2F1 over-expression was sufficient to reduce BRAFi + MEKi effects on tumor growth in vivo, and cell proliferation, death, and invasion in vitro. Effects were linked to genes involved in mTORC1 signaling. These cells were sensitive to the combination of BRAFi, MEKi plus rapamycin. Melanomas from aged mice, known to exhibit decreased responses to BRAFi + MEKi, displayed higher levels of NR2F1 compared to tumors from young mice. Depleting NR2F1 in an aged mouse melanomas improved the response to targeted therapy. These findings show high NR2F1 expression in ‘invasive-state’ residual cells and that targeting NR2F1-high cells with mTORC1 inhibitors may improve outcomes in patients with melanoma.

Authors

Manoela Tiago, Timothy J. Purwin, Casey D. Stefanski, Renaira Oliveira da Silva, Mitchell E. Fane, Yash Chhabra, Jelan I. Haj, Jessica L.F. Teh, Rama Kadamb, Weijia Cai, Sheera R. Rosenbaum, Vivian Chua, Nir Hacohen, Michael A. Davies, Jessie Villanueva, Inna Chervoneva, Ashani T. Weeraratna, Dan A. Erkes, Claudia Capparelli, Julio A. Aguirre-Ghiso, Andrew E. Aplin

×

Figure 3

NR2F1 overexpression promotes tumor relapse following BRAF and MEK inhibitors therapy.

Options: View larger image (or click on image) Download as PowerPoint
NR2F1 overexpression promotes tumor relapse following BRAF and MEK inhib...
(A) IncuCyte live-cell analysis for DOX-inducible cells overexpressing NR2F1 after 4 weeks of treatment using BRAFi + MEKi + DOX (1 μmol/L PLX4720 + 35 nmol/L PD0325901 + 100 ng/mL DOX). Data show the percentage of cell confluence on the plate. (B) NR2F1 protein levels for the DOX-inducible NR2F1-expressing cell line 1205Lu-E2F-tdTomato(tdTW)-TR-NR2F1 after 72 hours of treatment with BRAFi + MEKi + DOX. (C) In vivo tumor growth curves and (D) survival of 1205Lu xenografts with DOX-inducible NR2F1 expression following BRAFi + MEKi (200 ppm PLX4720 + 7 ppm PD0325901 + 25 mg/mL DOX) treatment. ***P < 0.001 and ****P < 0.0001, by Kaplan-Meier analysis.