Mari Iida scite author profile

Epidermal growth factor receptor (EGFR) is a ubiquitously expressed receptor tyrosine kinase involved in the etiology of several human cancers. Cetuximab is an EGFR-blocking antibody that has been approved for the treatment of patients with head and neck squamous cell carcinoma and metastatic colorectal cancer. Previous reports have shown that EGFR translocation to the nucleus is associated with cell proliferation. Here we investigated mechanisms of acquired resistance to cetuximab using a model derived from the non-small cell lung cancer line H226. We demonstrated that cetuximabresistant cells overexpress HER family ligands including epidermal growth factor (EGF), amphiregulin, heparinbinding EGF and b-cellulin. Overexpression of these ligands is associated with the nuclear translocation of the EGFR and this process was mediated by the Src family kinases (SFK). Treatment of cetuximab-resistant cells with the SFK inhibitor, dasatinib, resulted in loss of nuclear EGFR, increased membrane expression of the EGFR and resensitization to cetuximab. In addition, expression of a nuclear localization sequence-tagged EGFR in cetuximab-sensitive cells increased resistance to cetuximab both in vitro and in mouse xenografts. Collectively, these data suggest that nuclear expression of EGFR may be an important molecular determinant of resistance to cetuximab therapy and provides a rationale for investigating nuclear EGFR as a biomarker for cetuximab response. Further, these data suggest a rationale for the design of clinical trials that examine the value of treating patients with cetuximab-resistant tumors with inhibitors of SFKs in combination with cetuximab.

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The Role of Src in Solid Tumors

Wheeler

2009

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The proto-oncogene c-Src (Src) is a nonreceptor tyrosine kinase whose expression and activity is correlated with advanced malignancy and poor prognosis in a variety of human cancers. Nine additional enzymes with homology to Src have been identified and collectively are referred to as the Src family kinases (SFKs). Together, SFKs represent the largest family of nonreceptor tyrosine kinases and interact directly with receptor tyrosine kinases, G-protein-coupled receptors, steroid receptors, signal transducers and activators of transcription and molecules involved in cell adhesion and migration. These interactions lead to a diverse array of biological functions including proliferation, cell growth, differentiation, cell shape, motility, migration, angiogenesis, and survival. Studies investigating mutational activation of Src in human cancers suggest this may be a rare event and wild-type Src is weakly oncogenic. Thus, the role of Src in the development and progression of human cancer has remained unclear. Recently, it has been suggested that increased SFK protein levels and, more importantly, SFK tyrosine kinase activity is linked to cancer progression and metastatic disease by facilitating the action of other signaling proteins. This accumulating body of evidence indicates that SFKs may represent a promising therapeutic target for the treatment of solid tumors. This review discusses the role of SFKs in solid tumors and the recent therapeutic advances aimed at targeting this family of tyrosine kinases in cancer.

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AXL Mediates Resistance to Cetuximab Therapy

et al. 2014

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The EGFR antibody cetuximab is used to treat numerous cancers, but intrinsic and acquired resistance to this agent is a common clinical problem. In this study we show that overexpression of the oncogenic receptor kinase AXL is sufficient to mediate acquired resistance to cetuximab in models of non-small cell lung cancer (NSCLC) and head and neck squamous cell carcinoma (HNSCC), where AXL was overexpressed, activated and tightly associated with EGFR expression in cells resistant to cetuximab (CtxR cells). Using RNAi methods and novel AXL targeting agents, we found that AXL activation stimulated cell proliferation, EGFR activation and MAPK signaling in CtxR cells. Notably, EGFR directly regulated the expression of AXL mRNA through MAPK signaling and the transcription factor c-Jun in CtxR cells, creating a positive feedback loop that maintained EGFR activation by AXL. Cetuximab-sensitive parental cells were rendered resistant to cetuximab by stable overexpression of AXL or stimulation with EGFR ligands, the latter of which increased AXL activity and association with the EGFR. In tumor xenograft assays, the development of resistance following prolonged treatment with cetuximab was associated with AXL hyperactivation and EGFR association. Furthermore, in an examination of patient-derived xenografts established from surgically resected HNSCCs, AXL was overexpressed and activated in tumors that displayed intrinsic resistance to cetuximab. Collectively, our results identify AXL as a key mediator of cetuximab resistance, providing a rationale for clinical evaluation of AXL targeting drugs to treat cetuximab-resistant cancers.

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Molecular mechanisms of resistance to the EGFR monoclonal antibody cetuximab

Brand

Iida

Wheeler

2011

Cancer Biology & Therapy

222

191

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The epidermal growth factor receptor (eGFR) is a receptor tyrosine kinase belonging to the HeR family of receptor tyrosine kinases. Receptor activation upon ligand binding leads to down stream activation of the Pi3K/AKT, RAs/RAF/MeK/ eRK and PLCγ/PKC pathways that influence cell proliferation, survival and the metastatic potential of tumor cells. increased activation by gene amplification, protein overexpression or mutations of the eGFR has been identified as an etiological factor in a number of human epithelial cancers (e.g., NsCLC, CRC, glioblastoma and breast cancer). Therefore, targeting the eGFR has been intensely pursued as a cancer treatment strategy over the last two decades. To date, five eGFR inhibitors, including three small molecule tyrosine kinase inhibitors (TKis) and two monoclonal antibodies have gained FdA approval for use in oncology. Both approaches to targeting the eGFR have shown clinical promise and the anti-eGFR antibody cetuximab is used to treat HNsCC and CRC. despite clinical gains arising from use of cetuximab, both intrinsic resistance and the development of acquired resistance are now well recognized. in this review we focus on the biology of the eGFR, the role of eGFR in human cancer, the development of

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Mari Iida

Nuclear EGFR contributes to acquired resistance to cetuximab

The Role of Src in Solid Tumors

AXL Mediates Resistance to Cetuximab Therapy

Molecular mechanisms of resistance to the EGFR monoclonal antibody cetuximab

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