PO.TB03.06 · 肿瘤生物学

S-Nitrosylated COX-2 is a microenvironment-regulated breast cancer biomarker of mesenchymal phenotypes

海报缩略图:S-Nitrosylated COX-2 is a microenvironment-regulated breast cancer biomarker of mesenchymal phenotypes
编号 6155 展板 13 时间 4/21 02:00–05:00 区域 Section 29 主讲 Reuben Hoffmann, BS;PhD
分会场 Metastatic Niches and Microenvironment
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作者与单位

Reuben J. Hoffmann1, AeSoon Bensen1, Mark Dane2, Jane Arterberry1, Rebecca Smith2, James Korkola2, Pepper Schedin1

1CDCB, OHSU Knight Cancer Institute, Portland, OR,2BME, OHSU Knight Cancer Institute, Portland, OR

摘要 Abstract

COX-2 is an inducible enzyme key to the production of inflammatory prostaglandins. COX-2 also has tumor intrinsic oncogenic activity in mouse models of breast cancer. Previously, we reported that increased expression of Cys-526-nitrosylated COX-2 (SNO-COX-2), but not non-nitrosylated COX-2, associated with progression of early-stage human breast cancer to invasive ductal carcinoma. Here, we used a 3D culture model of early-stage human breast cancer (MCF10DCIS cells) to investigate the relationship between SNO-COX-2 expression and mesenchymal/invasive tumor cell morphology. We find that SNO-COX-2, but not non-nitrosylated COX-2, closely associated with mesenchymal phenotypes induced by fibrillar type I collagen. Interestingly, invasive phenotypes did not associate with induction of classic epithelial-to-mesenchymal transition (EMT) markers including SNAIL , CDH2 (N-cadherin), and VIM (vimentin). By contrast TGFbeta-1 strongly induced EMT-related transcripts, but not SNO-COX-2 protein expression nor mesenchymal phenotypes. These observations suggest that in MCF10DCIS cells, SNO-COX-2 associates with mesenchymal phenotypes more strongly than non-nitrosylated COX-2 protein or expression of classic EMT transcripts. Supporting these observations in vivo , a heterogeneous mouse breast tumor model (D2A1 cell injection) demonstrates that invasive mesenchymal tumor regions also have increased SNO-COX-2 expression compared to epithelial tumor regions. Further, using a microenvironment microarray to test MCF10DCIS.com cells 300 distinct tumor microenvironment conditions we find SNO-COX-2 protein expression is driven by inflammation, wound resolution, and cancer-associated factors. Standouts include TNC, SPP1, decorin, fibrillar type I and III collagens, INF-gamma, and IL-4/13, with evidence for specific extracellular matrix-ligand interactions driving both high and low SNO-COX-2 expression. In sum, in MCF10DCIS cells, expression of SNO-COX-2 is highly microenvironment-dependent and strongly associated with invasive/mesenchymal growth, indicating potential for SNO-COX-2 as a biomarker to assess risk of early-stage breast cancer progression.
利益披露 Disclosure
R. J. Hoffmann, None.. A. Bensen, None.. M. Dane, None.. J. Arterberry, None.. R. Smith, None.. J. Korkola, None.. P. Schedin, None.

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