Mechanisms of Enhanced Radiation Response following Epidermal Growth Factor Receptor Signaling Inhibition by Erlotinib (Tarceva)

doi:10.1158/0008-5472.CAN-04-3547

Cell Death Mechanisms and Cancer Therapy

Experimental Therapeutics, Molecular Targets, and Chemical Biology

Mechanisms of Enhanced Radiation Response following Epidermal Growth Factor Receptor Signaling Inhibition by Erlotinib (Tarceva)

Prakash Chinnaiyan¹, Shyhmin Huang¹, Geetha Vallabhaneni¹, Eric Armstrong¹, Sooryanarayana Varambally², Scott A. Tomlins², Arul M. Chinnaiyan² and Paul M. Harari¹

¹ Department of Human Oncology, University of Wisconsin, Madison, Wisconsin and ² Department of Pathology, University of Michigan Medical School, Ann Arbor, Michigan

Requests for reprints: Paul M. Harari, Department of Human Oncology, University of Wisconsin Comprehensive Cancer Center, K4/342 Clinical Science Center, 600 Highland Avenue, Madison, WI 53792-0600. Phone: 608-263-8500; Fax: 608-263-9947; E-mail: harari{at}humonc.wisc.edu.

Erlotinib (Tarceva) is an orally available HER1 (epidermal growthfactor receptor, EGFR) tyrosine kinase inhibitor advancing throughclinical trials for the treatment of a range of human malignancies.In this study, we examine the capacity of erlotinib to modulateradiation response and investigate specific mechanisms underlyingthese interactions in human tumor cell lines and xenografts.The impact of erlotinib on cell cycle kinetics was analyzedusing flow cytometry, and the impact on apoptosis was evaluatedvia fluorescein-labeled pan-caspase inhibition and poly(ADP-ribose)polymerase cleavage. Radiation-induced EGFR autophosphorylationand Rad51 expression were examined by Western blot analysis.Radiation survival was analyzed using a clonogenic assay andassessment of in vivo tumor growth was done using a mouse xenograftmodel system. Microarray studies were carried out using 20 Khuman cDNA microarray and select genes were validated usingquantitative reverse transcription-PCR (RT-PCR). Independently,erlotinib and radiation induce accumulation of tumor cells inG₁ and G₂-M phase, respectively, with a reduction of cells inS phase. When combined with radiation, erlotinib promotes afurther reduction in S-phase fraction. Erlotinib enhances theinduction of apoptosis, inhibits EGFR autophosphorylation andRad51 expression following radiation exposure, and promotesan increase in radiosensitivity. Tumor xenograft studies confirmthat systemic administration of erlotinib results in profoundtumor growth inhibition when combined with radiation. cDNA microarrayanalysis assessing genes differentially regulated by erlotinibfollowing radiation exposure identifies a diverse set of genesderiving from several functional classes. Validation is confirmedfor several specific genes that may influence radiosensitizationby erlotinib including Egr-1, CXCL1, and IL-1ß. Theseresults identify the capacity of erlotinib to enhance radiationresponse at several levels, including cell cycle arrest, apoptosisinduction, accelerated cellular repopulation, and DNA damagerepair. Preliminary microarray data suggests additional mechanismsunderlying the complex interaction between EGFR signaling andradiation response. These data suggest that the erlotinib/radiationcombination represents a strategy worthy of further examinationin clinical trials.

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				T. Tanaka, A. Munshi, C. Brooks, J. Liu, M. L. Hobbs, and R. E. Meyn Gefitinib Radiosensitizes Non-Small Cell Lung Cancer Cells by Suppressing Cellular DNA Repair Capacity Clin. Cancer Res., February 15, 2008; 14(4): 1266 - 1273. [Abstract] [Full Text] [PDF]

				P. M. Harari, G. W. Allen, and J. A. Bonner Biology of Interactions: Antiepidermal Growth Factor Receptor Agents J. Clin. Oncol., September 10, 2007; 25(26): 4057 - 4065. [Abstract] [Full Text] [PDF]

				K. E. Bailey, D. L. Costantini, Z. Cai, D. A. Scollard, Z. Chen, R. M. Reilly, and K. A. Vallis Epidermal Growth Factor Receptor Inhibition Modulates the Nuclear Localization and Cytotoxicity of the Auger Electron Emitting Radiopharmaceutical 111In-DTPA Human Epidermal Growth Factor J. Nucl. Med., September 1, 2007; 48(9): 1562 - 1570. [Abstract] [Full Text] [PDF]

				M. Toulany, M. Baumann, and H. P. Rodemann Stimulated PI3K-AKT Signaling Mediated through Ligand or Radiation-Induced EGFR Depends Indirectly, but not Directly, on Constitutive K-Ras Activity Mol. Cancer Res., August 1, 2007; 5(8): 863 - 872. [Abstract] [Full Text] [PDF]

				S. Anai, S. Goodison, K. Shiverick, Y. Hirao, B. D. Brown, and C. J. Rosser Knock-down of Bcl-2 by antisense oligodeoxynucleotides induces radiosensitization and inhibition of angiogenesis in human PC-3 prostate tumor xenografts Mol. Cancer Ther., January 1, 2007; 6(1): 101 - 111. [Abstract] [Full Text] [PDF]

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