Abstract

BackgroundCetuximab, an anti-EGFR monoclonal antibody, is used to treat several cancers. However, many patients who initially respond to cetuximab acquire resistance. To examine mechanisms of acquired resistance, we developed a series of cetuximab-resistant (CtxR) clones derived from the cetuximab sensitive (CtxS) non-small cell lung cancer (NSCLC) cell line H226. Previous studies characterizing this model revealed that: 1) EGFR was robustly overexpressed in CtxR clones due to decreased EGFR ubiquitination and degradation and 2) CtxR clones expressed increased HER2 and HER3 activation resulting in constitutive activation of the PI3K/AKT signaling axis. These findings suggest that dual targeting HER family receptors would be highly beneficial in the CtxR setting.ResultsSince HER3 has been implicated in resistance to EGFR inhibitors, the efficacy of dually targeting both EGFR and HER3 in CtxR models was evaluated. First, EGFR and HER3 expression were knocked down with siRNAs. Compared to the CtxS parental cell line (HP), all CtxR clones exhibited robust decreases in cell proliferation upon dual knockdown. Analysis of CtxR clones indicated that neuregulin-1 was highly overexpressed compared to HP cells. Incubation of HP cells with neuregulin-1 rendered them resistant to cetuximab. Next, dual treatment of CtxR clones with cetuximab and the HER3 neutralizing monoclonal antibody (mAb) U3-1287 led to potent anti-proliferative effects. Blockade of EGFR with cetuximab resulted in inactivation of MAPK, while blockade of HER3 with U3-1287 resulted in the inactivation of AKT. Treatment with both mAbs resulted in knockdown of both signaling pathways simultaneously. HER2 was also strongly inactivated upon dual mAb therapy, suggesting that this treatment regimen can diminish signaling from three HER family receptors. De novo CtxR H226 mouse xenografts were established to determine if dual therapy could overcome acquired resistance to cetuximab in vivo. Tumors that had acquired resistance to cetuximab were significantly growth delayed upon dual treatment of U3-1287 and cetuximab compared to those continued on cetuximab only. Combinatorial-treated xenograft tumors expressed decreased Ki67 and increased cleaved caspase-3 levels compared to tumors treated with either monotherapy.ConclusionsThese studies demonstrate that dually targeting HER family receptors with antibody-based therapies can overcome acquired resistance to cetuximab.

Highlights

  • Cetuximab, an anti-Epidermal growth factor receptor (EGFR) monoclonal antibody, is used to treat several cancers

  • Cetuximab-resistant (CtxR) clones have increased HER family receptor activity We previously reported that CtxR clones (HC1, HC4 and HC8) exhibited increased expression and activity of EGFR relative to the CtxS parental control cells (HP) [18]

  • Immunoprecipitation analysis indicated that EGFR and HER3 were highly associated in CtxR clones, while this association was absent in CtxS Parental H226 cells (HP) cells (Figure 1C)

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Summary

Introduction

An anti-EGFR monoclonal antibody, is used to treat several cancers. many patients who initially respond to cetuximab acquire resistance. To examine mechanisms of acquired resistance, we developed a series of cetuximab-resistant (CtxR) clones derived from the cetuximab sensitive (CtxS) non-small cell lung cancer (NSCLC) cell line H226 Previous studies characterizing this model revealed that: 1) EGFR was robustly overexpressed in CtxR clones due to decreased EGFR ubiquitination and degradation and 2) CtxR clones expressed increased HER2 and HER3 activation resulting in constitutive activation of the PI3K/AKT signaling axis. The HER family receptor tyrosine kinases (RTK) play critical roles in cell physiology, development, and cancer pathophysiology This family consists of four members: EGFR, HER2, HER3 and HER4. Cetuximab (ICM-225, Erbitux) is a human: murine chimeric mAb that binds to extracellular domain III of the EGFR This interaction partially blocks the ligandbinding domain and sterically hinders the correct extended conformation of the dimerization arm located on domain II [7]. Clinical data suggests that the majority of patients whom initially respond to cetuximab eventually acquire resistance [12,13,14]

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