Mechanism of lapatinib-mediated radiosensitization of breast cancer cells is primarily by inhibition of the Raf>MEK>ERK mitogen-activated protein kinase cascade and radiosensitization of lapatinib-resistant cells restored by direct inhibition of MEK.

Maria J Sambade J Terese Camp Randall J Kimple Carolyn I Sartor Janiel M Shields

Radiother Oncol

Department of Radiation Oncology, University of North Carolina at Chapel Hill, NC 27599, USA.

Published: December 2009

The study examines how lapatinib, an EGFR/HER2 inhibitor, enhances the effectiveness of radiation therapy in certain breast cancer cells.
It identifies that lapatinib blocks specific signaling pathways, primarily inhibiting MEK/ERK, which is crucial for radiosensitization in EGFR+ breast cancer cells.
The findings suggest that combining lapatinib with other treatments targeting the MEK/ERK pathway could improve radiation therapy outcomes in EGFR+ and HER2+ breast cancer patients.

Background And Purpose: We recently showed that lapatinib, an EGFR/HER2 inhibitor, radiosensitized breast cancer cells of the basal and HER2+ subtypes. The purpose of this study was to identify the downstream signaling pathways responsible for lapatinib-mediated radiosensitization in breast cancer.

Materials And Methods: Response of EGFR downstream signaling pathways was assessed by Western blot and clonogenic cell survival assays in breast tumor cells after irradiation (5Gy), lapatinib, CI-1040, or combined treatment.

Results: In SUM102 cells, an EGFR+ basal breast cancer cell line, exposure to ionizing radiation elicited strong activation of ERK1/2 and JNK, which was blocked by lapatinib, and weak/no activation of p38, AKT or STAT3. Direct inhibition of MEK1 with CI-1040 resulted in 95% inhibition of surviving colonies when combined with radiation while inhibition of JNK with SP600125 had no effect. Lapatinib-mediated radiosensitization of SUM102 cells was completely abrogated with expression of constitutively active Raf. Treatment of lapatinib-resistant SUM185 cells with CI-1040 restored radiosensitization with 45% fewer surviving colonies when combined with radiation.

Conclusions: These data suggest that radiosensitization by lapatinib is mediated largely through inhibition of MEK/ERK and that direct inhibition of this pathway may provide an additional avenue of radiosensitization in EGFR+ or HER2+ breast cancers.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2799330	PMC
http://dx.doi.org/10.1016/j.radonc.2009.09.006	DOI Listing

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It identifies that lapatinib blocks specific signaling pathways, primarily inhibiting MEK/ERK, which is crucial for radiosensitization in EGFR+ breast cancer cells.
The findings suggest that combining lapatinib with other treatments targeting the MEK/ERK pathway could improve radiation therapy outcomes in EGFR+ and HER2+ breast cancer patients.

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