Your search keyword '"Nelly Conus"' showing total 2 results

1. Investigating tamoxifen resistance in the luminal B estrogen receptor positive breast cancer subtype: Tailoring treatment in hormone responsive breast cancer

Author

Sherene Loi, Françoise Lallemand, Grant A. McArthur, Christos Sotiriou, Nelly Conus, M.J. Piccart, Benjamin Haibe-Kains, and Terence P. Speed

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Expression index, Estrogen receptor, medicine.disease, Lapatinib, Gene expression profiling, Breast cancer, Internal medicine, Gene expression, Cancer research, Medicine, Immunohistochemistry, skin and connective tissue diseases, business, Tamoxifen, medicine.drug

Abstract

10603 Background: We recently reported that the two estrogen receptor (ER) positive breast cancer (BC) molecular subtypes can be defined by their expression of proliferation genes using a gene expression index (GGI): the luminal A and B subtypes have low and high levels respectively (J Clin Onc, in press). When treated with adjuvant tamoxifen, luminal A tumors have a good prognosis, however the clinical outcome of the luminal B subtype was poor. This study aimed to explain the biological basis for these observations using global gene expression profiling and an in vitro model of ER+ BC. Methods: 246 ER+ BC samples from women treated with adjuvant tamoxifen monotherapy were analyzed with affymetrix gene expression arrays and evaluated using gene set enrichment analysis (GSEA). ER+ MCF-7 BC cells (control) treated with tamoxifen (TAM) and heregulin (HRG) were used to investigate molecular pathways identified using GSEA. Results: We found that a gene set suggesting ERBB2 pathway activation was significantly enriched in the luminal B subtype (p=0.02). Only 10% of samples overexpressed HER2 by immunohistochemistry, suggesting that activation of HER2 signaling pathways is independent of HER2 overexpression and may contribute to TAM resistance in this subtype. To validate this hypothesis, MCF-7 cell-lines were treated with HRG (HRG-MCF7) to create a model of ERBB2 pathway activation. HRG-MCF7 cells displayed phosphorylation of HER2/3 without HER2 overexpression. Treatment with HRG overcame TAM induced cell cycle arrest with higher S-phase fraction (p No significant financial relationships to disclose.

Published

2007

2. Imaging with FLT-PET demonstrates that PF-477736, an inhibitor of CHK1 kinase, overcomes a cell cycle checkpoint induced by gemcitabine in PC-3 xenografts

Author

D. Dorow, T. J. McCarthy, Jeanette Raleigh, Grant A. McArthur, A. Blasina, Carleen Cullinane, Kenna Anderes, Nelly Conus, E. Chen, J. Kornmann, and Rodney J. Hicks

Subjects

Cancer Research, Cell cycle checkpoint, Oncology, Chk1 Kinase, Mechanism (biology), Novel agents, business.industry, medicine, Cancer research, Cell cycle, business, Gemcitabine, medicine.drug

Abstract

3045 Background: The development of strategies to monitor the molecular and cellular response to novel agents that target the cell cycle is vital to provide proof of mechanism and biological activity of these compounds. The protein kinase CHK1 is activated following DNA damage in the S and G2-phases of the cell cycle and mediates cell cycle arrest. In vitro studies demonstrate that inhibition of CHK1 can overcome cell cycle arrest induced by DNA damage and enhance cytotoxic activity of DNA damaging agents. In vivo studies show that combining DNA damaging agents with a CHK1 inhibitor potentiates antitumor activity. We hypothesize that functional imaging with 18F-fluorine-L-thymidine (FLT), a PET-tracer where tumor uptake is maximal in the S and G2 phases of the cell cycle can be used to non-invasively monitor the induction and therapeutic inhibition of a cell cycle checkpoint in vivo. Methods: Nude mice harbouring PC-3 xenografts were treated with vehicle controls, gemcitabine, the CHK1-inhibitor PF-477736 or gemcitabine + PF-477736. FLT-PET scans were performed and tumors harvested for ex-vivo biomarkers to assess S-phase, M-phase and DNA-repair. Results: Gemcitabine induced a 8.3 ±0.8 fold increase in tumoral uptake of FLT at 21 hours that correlated with a 3.3 ±0.2-fold increase in thymidine kinase activity and S-phase arrest as demonstrated by BrdU incorporation and elevated expression of cyclin-A. Treatment with PF-477736 at 17 hours after gemcitabine abrogated the early FLT-flare at 21 hours by 82% (p [Table: see text]

Published

2006