Targeting endothelin receptor signalling overcomes heterogeneity driven therapy failure

Michael P Smith; Emily J Rowling; Zsofia Miskolczi; Jennifer Ferguson; Loredana Spoerri; Nikolas K Haass; Olivia Sloss; Sophie McEntegart; Imanol Arozarena; Alex vonKriegsheim; Javier Rodriguez; Holly Brunton; Jivko Kmarashev; Mitchell P Levesque; Reinhard Dummer; Dennie T Frederick; Miles C Andrews; Zachary A Cooper; Keith T Flaherty; Jennifer A Wargo; Claudia Wellbrock

doi:10.15252/emmm.201607156

EMBO Molecular Medicine (Aug 2017)

Targeting endothelin receptor signalling overcomes heterogeneity driven therapy failure

Michael P Smith,
Emily J Rowling,
Zsofia Miskolczi,
Jennifer Ferguson,
Loredana Spoerri,
Nikolas K Haass,
Olivia Sloss,
Sophie McEntegart,
Imanol Arozarena,
Alex vonKriegsheim,
Javier Rodriguez,
Holly Brunton,
Jivko Kmarashev,
Mitchell P Levesque,
Reinhard Dummer,
Dennie T Frederick,
Miles C Andrews,
Zachary A Cooper,
Keith T Flaherty,
Jennifer A Wargo,
Claudia Wellbrock

Affiliations

Michael P Smith: Manchester Cancer Research Centre Faculty of Biology, Medicine and Health The University of Manchester Manchester UK
Emily J Rowling: Manchester Cancer Research Centre Faculty of Biology, Medicine and Health The University of Manchester Manchester UK
Zsofia Miskolczi: Manchester Cancer Research Centre Faculty of Biology, Medicine and Health The University of Manchester Manchester UK
Jennifer Ferguson: Manchester Cancer Research Centre Faculty of Biology, Medicine and Health The University of Manchester Manchester UK
Loredana Spoerri: Translational Research Institute The University of Queensland Diamantina Institute The University of Queensland Brisbane Qld Australia
Nikolas K Haass: Translational Research Institute The University of Queensland Diamantina Institute The University of Queensland Brisbane Qld Australia
Olivia Sloss: Manchester Cancer Research Centre Faculty of Biology, Medicine and Health The University of Manchester Manchester UK
Sophie McEntegart: Manchester Cancer Research Centre Faculty of Biology, Medicine and Health The University of Manchester Manchester UK
Imanol Arozarena: Manchester Cancer Research Centre Faculty of Biology, Medicine and Health The University of Manchester Manchester UK
Alex vonKriegsheim: Systems Biology Ireland School of Medicine UCD Dublin 4 Ireland
Javier Rodriguez: Systems Biology Ireland School of Medicine UCD Dublin 4 Ireland
Holly Brunton: Manchester Cancer Research Centre Faculty of Biology, Medicine and Health The University of Manchester Manchester UK
Jivko Kmarashev: Department of Dermatology Universitätsspital Zürich University of Zurich Zurich Switzerland
Mitchell P Levesque: Department of Dermatology Universitätsspital Zürich University of Zurich Zurich Switzerland
Reinhard Dummer: Department of Dermatology Universitätsspital Zürich University of Zurich Zurich Switzerland
Dennie T Frederick: Department of Medicine Massachusetts General Hospital Cancer Center Boston MA USA
Miles C Andrews: Division of Surgical Oncology University of Texas MD Anderson Cancer Center Houston TX USA
Zachary A Cooper: Division of Surgical Oncology University of Texas MD Anderson Cancer Center Houston TX USA
Keith T Flaherty: Department of Medicine Massachusetts General Hospital Cancer Center Boston MA USA
Jennifer A Wargo: Division of Surgical Oncology University of Texas MD Anderson Cancer Center Houston TX USA
Claudia Wellbrock: Manchester Cancer Research Centre Faculty of Biology, Medicine and Health The University of Manchester Manchester UK

DOI: https://doi.org/10.15252/emmm.201607156
Journal volume & issue: Vol. 9, no. 8
pp. 1011 – 1029

Abstract

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Abstract Approaches to prolong responses to BRAF targeting drugs in melanoma patients are challenged by phenotype heterogeneity. Melanomas of a “MITF‐high” phenotype usually respond well to BRAF inhibitor therapy, but these melanomas also contain subpopulations of the de novo resistance “AXL‐high” phenotype. > 50% of melanomas progress with enriched “AXL‐high” populations, and because AXL is linked to de‐differentiation and invasiveness avoiding an “AXL‐high relapse” is desirable. We discovered that phenotype heterogeneity is supported during the response phase of BRAF inhibitor therapy due to MITF‐induced expression of endothelin 1 (EDN1). EDN1 expression is enhanced in tumours of patients on treatment and confers drug resistance through ERK re‐activation in a paracrine manner. Most importantly, EDN1 not only supports MITF‐high populations through the endothelin receptor B (EDNRB), but also AXL‐high populations through EDNRA, making it a master regulator of phenotype heterogeneity. Endothelin receptor antagonists suppress AXL‐high‐expressing cells and sensitize to BRAF inhibition, suggesting that targeting EDN1 signalling could improve BRAF inhibitor responses without selecting for AXL‐high cells.

Published in EMBO Molecular Medicine

ISSN: 1757-4676 (Print); 1757-4684 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Genetics
Website: https://www.embopress.org/journal/17574684

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