Abstract
Abstract Background: HER2 amplification is frequent in DCIS and is associated with poor prognosis features. This study aimed to determine the molecular effects in Ras/Raf/MAK and PI3K/AKT signaling pathway of the HER2 inhibitor lapatinib in patients with HER2 positive DCIS as well as correlation with radiological and pathological response. Patients and Methods: Patients (pts) with HER2 positive DCIS received 1500 mg daily of lapatinib for 4 consecutive weeks prior to surgical resection. Changes in tumor volume were evaluated by MRI. The molecular effects of lapatinib on apoptotic level (TUNEL), cell proliferation (Ki67) and HER2 signaling pathway were determined in pre and post-treatment tumor biopsies. Results: A total of 20 pts were included. Lapatinib was well tolerated with only minor and transient side effects reported. The agent effectively modulated HER2 signaling by affecting cell cycle kinetics through decreasing cytoplasm pERK1 in 11 pts with no change or slight increase activation in 5 pts. Of those 11 pts: eight had parallel inactivation of pHER2, two pts had paradoxical activation of pAkt and three pts had an increase in apoptotic level. In addition, seven pts also presented with decrease in MRI signal intensity and tumor size. Conclusions: Four weeks of lapatinib for patients with HER2-positive DCIS result in significant antiproliferative changes through RAS/MAPK signaling pathway together with a decrease in MRI signal. Citation Information: Cancer Res 2012;72(24 Suppl):Abstract nr P5-18-15.
Published Version
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