BACKGROUND: Overexpression of HER-2 is observed in 15 -25% of breast cancers, and is associated with increased risk of recurrence. Current guidelines recommend trastuzumab and chemotherapy for most HER-2-positive patients. However, the majority of patients does not recur and might thus be overtreated with adjuvant systemic therapy. We investigated whether the 70-gene MammaPrint signature identifies HER-2-positive patients with favourable outcome. METHODS: In all, 168 T1 -3, N0 -1, HER-2-positive patients were identified from a pooled database, classified by the 70-gene signature as good or poor prognosis, and correlated with long-term outcome. A total of 89 of these patients did not receive adjuvant chemotherapy. RESULTS: In the group of 89 chemotherapy-naive patients, after a median follow-up of 7.4 years, 35 (39%) distant recurrences and 29 (33%) breast cancer-specific deaths occurred. The 70-gene signature classified 20 (22%) patients as good prognosis, with 10-year distant disease-free survival (DDFS) of 84%, compared with 69 (78%) poor prognosis patients with 10-year DDFS of 55%. The estimated hazard ratios (HRs) were 4.5 (95% confidence interval (CI) 1.1 -18.7, P ¼ 0.04) and 3.8 (95% CI 0.9 -15.8, P ¼ 0.07) for DDFS and breast cancer-specific survival (BCSS), respectively. In multivariate analysis adjusted for known prognostic factors and hormonal therapy, HRs were 5.8 (95% CI 1.3 -26.7, P ¼ 0.03) and 4.7 (95% CI 1.0 -21.7, P ¼ 0.05) for DDFS and BCSS, respectively. INTERPRETATION: The 70-gene prognosis signature is an independent prognostic indicator that identifies a subgroup of HER-2-positive early breast cancer with a favourable long-term outcome.
Background: The majority of breast cancer patients are diagnosed with ERα-positive breast cancer. Most ERα-positive patients are treated with adjuvant endocrine therapy — typically tamoxifen or aromatase inhibitors — to block cellular proliferation. Although these treatments are considered successful, resistance is common. Notably, cross-resistance between the two types of therapies is not always observed suggesting molecular heterogeneity and underlining the need for development of personalized treatments. The Anastrozole, Fulvestrant or Tamoxifen Exposure — Response in molecular profile study (AFTER study, NCT00738777) aims to investigate prospectively whether short-term treatment can induce molecular changes indicative of pre-operative therapy response. Study Design: ERα-positive breast cancer patients are included in this open-label multicenter study. Post-menopausal patients are randomized between tamoxifen, anastrozole and fulvestrant and pre-menopausal and male patients receive tamoxifen. Treatment occurs during the pre-operative window between diagnosis and surgery (4±2 weeks). Clinical characteristics collected are ERα/PR and HER2 status as well as lymph-node status. The primary endpoint is the decrease in tumor cell proliferation, as assessed by Ki67 gene expression and published cell proliferation gene expression signatures. All data are collected from both pre- and post-treatment samples. Additionally, we will compare the changes induced by treatment in gene expression, ERα/DNA binding interactions, DNA copy number, endoxifen and estradiol levels. Results: Among 67 patients currently enrolled, we examined the data from the subset of 28 tamoxifen treated patients. ERα and PR levels did not differ significantly between pre- and post-treatment. All tumors were HER2-negative. Proliferation examined by Ki67 (IHC and gene expression, MKI67) was significantly lower in post-treatment samples (P < 0.01). A significant association was identified with the change in gene expression proliferation signature score and change in MKI67 (rho = 0.7, P < 0.001). We identified two samples, which changed from MammaPrint (MP) low-risk to high-risk among 17 pairs with data. One sample's score was on the cutoff for high-risk definition. Interestingly, the second sample also had an increase in Ki67 gene expression and proliferation gene signature score in the post-treatment sample. Overall, ERα/DNA binding interaction regions overlapped significantly more among post-treatment samples as compared to pre-treatment samples (P <0.001). There were 3 samples that increased in MKI67 gene expression after drug exposure. Among these, only the MP low- to high-risk sample had an increase in proliferation gene signature and decrease in ERα/DNA binding interactions. Conclusions: Pre-treatment samples were more variable for both proliferation gene expression signatures and ERα/DNA binding interactions indicating the underlying molecular heterogeneity of the group prior to therapy. This inter-tumor heterogeneity appears to have been lowered by exposure to tamoxifen. Interestingly, not all samples were uniform in their response to tamoxifen exposure as measured by Ki67 and MP scores suggesting samples taken after treatment exposure may be useful for predictive biomarker discovery. Citation Format: Linn SC, Severson TM, Nevedomskaya E, Peeters J, van Rossum A, Kuilman T, Krijgsman O, Goossens I, Glas A, Koornstra R, Peeper D, Wesseling J, Simon I, Wessels L, Zwart W. Neoadjuvant tamoxifen therapy synchronizes ERα binding and gene expression profiles. [abstract]. In: Proceedings of the Thirty-Eighth Annual CTRC-AACR San Antonio Breast Cancer Symposium: 2015 Dec 8-12; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2016;76(4 Suppl):Abstract nr P6-08-06.
BACKGROUND: Activation of the PI3K/MAPK pathways results in anti-estrogen resistance in vitro, however a biomarker that can predict clinical resistance has not yet been identified. Common drivers of these pathways are PIK3CA mutations, loss of PTEN and over-expression of HER2 and IGF-1R. We aimed to test the prognostic and predictive value of PI3K/MAPK pathway drivers as well as downstream activated proteins in postmenopausal breast cancer patients. METHODS: We collected primary tumor tissue from 563 ERα positive breast cancer patients who were randomized between tamoxifen (1–3 years) versus no adjuvant systemic therapy. PIK3CA hotspot mutations were assessed by Sequenom Mass Spectrometry. Immunohistochemistry was performed for expression of PTEN, IGF-1R and the downstream markers p-AKT(Thr308), p-AKT(Ser473), p-mTOR, p-p706SK and p-ERK1/2. Cox proportional hazard models for recurrence free interval were used to assess hazard ratios and interaction between these markers and treatment. RESULTS: No significant interaction between any of the tested PI3K/MAPK pathways drivers and tamoxifen was found. [/bold]However, interactions were identified between tamoxifen and the downstream activated proteins (p-AKT(Thr308), p- mTOR, p-p70S6K and p-ERK1/2). After correcting for multiple testing, p-p70S6K remained significantly associated with tamoxifen resistance. Patients whose tumor did not express p-p70S6K did derive significant benefit from tamoxifen (HR 0.24, 95 % CI= 0.12–0.47, p < 0.0001), while patients whose tumor did express p-p70S6K did not (multivariate HR=1.02, 95% CI=0.48–2.21, p = 0.95), p for interaction 0.003. CONCLUSION: We conclude that the downstream marker of PI3K/MAPK activation p-p70S6K predicts tamoxifen resistance in ERα positive postmenopausal breast cancer patients. Citation Information: Cancer Res 2012;72(24 Suppl):Abstract nr PD01-03.
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