Background: Nearly 200,000 female Veterans will be diagnosed with breast cancer during their lifetime representing a significant health problem. Metastatic breast cancer is uniformly fatal. Objective: Our goal is to identify new therapeutic approaches to prevent mortality from breast cancer metastasis. We seek novel approaches to exploit the established contribution of the Cyclooxygenase-2 (COX-2) pathway to breast tumor growth and dissemination. The principle COX-2 product, prostaglandin E2 (PGE2) exerts biological effects by binding to the E series of G protein-coupled prostaglandin receptors EP1-4. Results: We have made significant progress towards elucidating the unique role of individual EP receptors on malignant and host immune cells. EP1 suppresses while EP4 promotes metastasis. Our most important finding is that EP4 supports the survival of breast cancer stem cells (BCSC) with heightened tumorigenic, metastatic and chemotherapy resistant properties that contribute to relapse and mortality. EP4 also subverts innate antitumor immunity by inhibiting Natural Killer (NK) cells and inducing immune suppressive myeloid derived suppressor cells (MDSC) but the role of NK and MDSC in control of BCSC is not known. Our central hypothesis is that EP4 promotes metastasis by directly supporting BCSC and indirectly by suppressing antitumor immunity. Systemic targeting of multiple EP4-positive cells will result in additive, if not synergistic therapeutic responses. BCSC, expressing high levels of EP4 will be inhibited directly by EP4 blockade. EP4 inhibitors will protect anti-tumor NK cells from PGE2-mediated immune suppression and will prevent the induction of MDSC that otherwise directly support BCSC survival and prevent effective anti- tumor immunity. Methods: Using a combination of novel pharmacologic EP inhibitors and genetic approaches in orthotopic, xenograft and patient-derived xenograft models of metastatic breast cancer, we will determine the mechanism by which EP4 promotes and EP1 inhibits BCSC.
Specific Aims : (1) Determine the effect of EP4/COX-2 targeting on BCSC. We will determine the mechanism by which EP4 supports BCSC, identify the relevant signaling pathways and will determine how EP4 is regulated in BCSC. (2) Determine the effect of EP4/COX-2 targeting on NK effector functions. Little is known regarding the role of innate immunity in the control of BCSC. We will characterize the role of NK cells in the recognition and killing of BCSC and will determine how EP4 regulates these interactions. (3) Determine the effect of EP4 targeting on MDSC and TAM. We will determine if EP4 blockade neutralizes the deleterious immune suppressive effects of MDSC and tumor-associated macrophages (TAM). We will determine if MDSC directly support BCSC through an EP4-regulated mechanism that is independent of effects on innate or adaptive immunity. We will identify a clinically relevant combination therapy that may target cancer stem cells as well as non-stem cell populations. Impact: We will identify EP4 as a new therapeutic target, expressed on host cells and BCSC responsible for relapse and breast cancer mortality. EP4 targeting will overcome immune suppression leading to effective tumor control. Our results will inform the design of clinical trias under development in collaboration with RaQualia/AskAt to determine if administration of an EP4 antagonist reduces breast cancer mortality in female and male Veterans and in the general population with breast cancer.

Public Health Relevance

Breast cancer has an enormous health care impact. The current Veteran population in the U.S. and Puerto Rico is approximately 26 million; of these, nearly 200,000 female Veterans will be diagnosed with breast cancer during their lifetimes. Breast cancer mortality is due to the occurrence of local and distant spread or metastasis. Breast cancer stem cells are a subpopulation, contained within the tumor mass, that are believed to be responsible for tumor spread, therapy resistance and mortality. We have identified a receptor on breast tumors, prostaglandin E receptor EP4, which promotes the survival of breast cancer stem cells and inhibits anti-tumor immune responses. We will identify effective means to block the actions of EP4 to reduce mortality from metastatic breast cancer.

Agency
National Institute of Health (NIH)
Institute
Veterans Affairs (VA)
Type
Non-HHS Research Projects (I01)
Project #
2I01BX000169-05
Application #
8819213
Study Section
Oncology A (ONCA)
Project Start
2009-04-01
Project End
2019-03-31
Budget Start
2015-04-01
Budget End
2016-03-31
Support Year
5
Fiscal Year
2015
Total Cost
Indirect Cost
Name
Baltimore VA Medical Center
Department
Type
DUNS #
796532609
City
Baltimore
State
MD
Country
United States
Zip Code
21201
Kochel, Tyler J; Goloubeva, Olga G; Fulton, Amy M (2016) Upregulation of Cyclooxygenase-2/Prostaglandin E2 (COX-2/PGE2) Pathway Member Multiple Drug Resistance-Associated Protein 4 (MRP4) and Downregulation of Prostaglandin Transporter (PGT) and 15-Prostaglandin Dehydrogenase (15-PGDH) in Triple-Negative Breast Breast Cancer (Auckl) 10:61-70
Bhooshan, Neha; Staats, Paul N; Fulton, Amy M et al. (2016) Prostaglandin E Receptor EP4 expression, survival and pattern of recurrence in locally advanced NSCLC. Lung Cancer 101:88-91
Clark, David J; Fondrie, William E; Liao, Zhongping et al. (2015) Redefining the Breast Cancer Exosome Proteome by Tandem Mass Tag Quantitative Proteomics and Multivariate Cluster Analysis. Anal Chem 87:10462-9
Kochel, Tyler J; Fulton, Amy M (2015) Multiple drug resistance-associated protein 4 (MRP4), prostaglandin transporter (PGT), and 15-hydroxyprostaglandin dehydrogenase (15-PGDH) as determinants of PGE2 levels in cancer. Prostaglandins Other Lipid Mediat 116-117:99-103
Kundu, Namita; Ma, Xinrong; Kochel, Tyler et al. (2014) Prostaglandin E receptor EP4 is a therapeutic target in breast cancer cells with stem-like properties. Breast Cancer Res Treat 143:19-31
Ma, Xinrong; Holt, Dawn; Kundu, Namita et al. (2013) A prostaglandin E (PGE) receptor EP4 antagonist protects natural killer cells from PGE2-mediated immunosuppression and inhibits breast cancer metastasis. Oncoimmunology 2:e22647
Kundu, Namita; Campbell, Patricia; Hampton, Brian et al. (2012) Antimetastatic activity isolated from Colocasia esculenta (taro). Anticancer Drugs 23:200-11
Ma, Xinrong; Kundu, Namita; Collin, Peter D et al. (2012) Frondoside A inhibits breast cancer metastasis and antagonizes prostaglandin E receptors EP4 and EP2. Breast Cancer Res Treat 132:1001-8
Holt, Dawn M; Ma, Xinrong; Kundu, Namita et al. (2012) Modulation of host natural killer cell functions in breast cancer via prostaglandin E2 receptors EP2 and EP4. J Immunother 35:179-88
Reader, Jocelyn; Holt, Dawn; Fulton, Amy (2011) Prostaglandin E2 EP receptors as therapeutic targets in breast cancer. Cancer Metastasis Rev 30:449-63

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