Intrinsic Resistance to Cixutumumab Is Conferred by Distinct Isoforms of the Insulin Receptor

Overview

Journal Mol Cancer Res

Specialty Cell Biology

Date 2015 Aug 13

PMID 26263910

Citations 22

Authors

Amelie Forest

Michael Amatulli

Dale L Ludwig

Christopher B Damoci

Ying Wang

Colleen A Burns

Gregory P Donoho

Nina Zanella

Heinz H Fiebig

Marie C Prewett

David Surguladze

James T deLigio

Peter J Houghton

Malcolm A Smith

Ruslan Novosiadly

Affiliations

Soon will be listed here.

Abstract

Unlabelled: Despite a recent shift away from anti-insulin-like growth factor I receptor (IGF-IR) therapy, this target has been identified as a key player in the resistance mechanisms to various conventional and targeted agents, emphasizing its value as a therapy, provided that it is used in the right patient population. Molecular markers predictive of antitumor activity of IGF-IR inhibitors remain largely unidentified. The aim of this study is to evaluate the impact of insulin receptor (IR) isoforms on the antitumor efficacy of cixutumumab, a humanized mAb against IGF-IR, and to correlate their expression with therapeutic outcome. The data demonstrate that expression of total IR rather than individual IR isoforms inversely correlates with single-agent cixutumumab efficacy in pediatric solid tumor models in vivo. Total IR, IR-A, and IR-B expression adversely affects the outcome of cixutumumab in combination with chemotherapy in patient-derived xenograft models of lung adenocarcinoma. IR-A overexpression in tumor cells confers complete resistance to cixutumumab in vitro and in vivo, whereas IR-B results in a partial resistance. Resistance in IR-B-overexpressing cells is fully reversed by anti-IGF-II antibodies, suggesting that IGF-II is a driver of cixutumumab resistance in this setting. The present study links IR isoforms, IGF-II, and cixutumumab efficacy mechanistically and identifies total IR as a biomarker predictive of intrinsic resistance to anti-IGF-IR antibody.

Implications: This study identifies total IR as a biomarker predictive of primary resistance to IGF-IR antibodies and provides a rationale for new clinical trials enriched for patients whose tumors display low IR expression.

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