Elevated platelet counts are detected in about 30% of ovarian cancer patients and associated with a poor prognosis. We found that thrombocytosis in ovarian cancer is not just epiphenomena of an advanced malignancy, but in fact, platelets promote tumor growth. By reducing platelet counts, we reduced the growth of primary tumors in murine models of ovarian cancer. While most of the previous studies focused on the role of platelets in promoting metastasis, we discovered that platelets increase the growth of primary tumors by enhancing proliferation of cancer cells. The basis for the effect of platelets on tumor growth is the interactions between platelets and cancer cells. We found that ovarian cancer cells activate platelets by secreting ADP, and activated platelets secrete Tgf?1 that promotes cancer cell proliferation. Blocking or deficiency of P2Y12 ADP receptors on platelets, blocking or deficiency of Tgf?1 in platelets, or reducing Tgf?1 receptor 1 (Tgf?R1) on cancer cells reduced the pro-growth effects of platelets on ovarian cancer. During studies on ovarian cancer tumors resected from patients and tumor-bearing mice, we observed extravascular platelets inside tumors. We propose that the main effects of platelets on cancer are mediated by extravasated platelets. Migration of platelets outside of blood vessels is not a well-known phenomenon, despite the fact that platelets possess the molecular machinery required for extravasation, and are able to undergo drastic structural changes necessary for extravasation of neutrophils that are professional migratory cells. Our in vivo and in-vitro studies on platelet extravasation into tumors showed that this process is an active process and is reduced by antiplatelet agents (aspirin or ticagrelor). In the first aim of this proposal, we will study the stimuli from tumors that initiate platelet extravasation. We will identify the molecular mechanism of transendothelial migration of platelets, and investigate the facilitatory effects of pericytes on platelets extravasation. After exiting blood vessels, platelets become activated by cancer cells and tumor stroma. In the second aim of this proposal, we will investigate the mechanism of platelet activation in the cancer by dissecting the role of various G-protein-coupled receptors on platelets in tumor growth. We will study the redundancy, synergism, or opposing effects of different platelet G- proteins on platelet-cancer cell interactions. In the third aim, we will investigate the correlation between our findings in the murine models of ovarian cancer and the behavior of ovarian cancer in patients. We have used advanced imaging studies to accurately and objectively quantify platelet density in tumor tissues. We will determine platelet density in tumor specimens resected from 60 patients diagnosed with ovarian cancer in M.D. Anderson Cancer Center (from a pool of 485 patients recruited to the Ovarian Cancer Moon Shots program in our institution). We will correlate platelet density inside tumors with the response rate to surgery, chemotherapy, and antiangiogenic therapy and the survival rates; and determine whether platelet density can be used as a predictive marker for the response rates to therapy and as a prognostic marker for survival and recurrence rates.

Public Health Relevance

Platelets directly interact with ovarian cancer cells and promote tumor growth. In this project, we will identify the mechanism of platelets' exit from blood vessels to reach cancer cells, and the ways to block it. We will investigate whether the number of platelets inside a tumor would predict the aggressiveness of that tumor.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA177909-08
Application #
10064964
Study Section
Hemostasis and Thrombosis Study Section. Committee was terminated on 11/30/2020. (HT)
Program Officer
Hildesheim, Jeffrey
Project Start
2013-08-01
Project End
2023-11-30
Budget Start
2020-12-01
Budget End
2021-11-30
Support Year
8
Fiscal Year
2021
Total Cost
Indirect Cost
Name
University of Texas MD Anderson Cancer Center
Department
Internal Medicine/Medicine
Type
Hospitals
DUNS #
800772139
City
Houston
State
TX
Country
United States
Zip Code
77030
Gharpure, Kshipra M; Pradeep, Sunila; Sans, Marta et al. (2018) FABP4 as a key determinant of metastatic potential of ovarian cancer. Nat Commun 9:2923
Haemmerle, Monika; Stone, Rebecca L; Menter, David G et al. (2018) The Platelet Lifeline to Cancer: Challenges and Opportunities. Cancer Cell 33:965-983
Chen, Xiuhui; Mangala, Lingegowda S; Rodriguez-Aguayo, Cristian et al. (2018) RNA interference-based therapy and its delivery systems. Cancer Metastasis Rev 37:107-124
Huang, Yan; Hu, Wei; Huang, Jie et al. (2018) Inhibiting Nuclear Phospho-Progesterone Receptor Enhances Antitumor Activity of Onapristone in Uterine Cancer. Mol Cancer Ther 17:464-473
Lyons, Yasmin A; Wu, Sherry Y; Overwijk, Willem W et al. (2017) Immune cell profiling in cancer: molecular approaches to cell-specific identification. NPJ Precis Oncol 1:26
Cho, Min Soon; Noh, Kyunghee; Haemmerle, Monika et al. (2017) Role of ADP receptors on platelets in the growth of ovarian cancer. Blood 130:1235-1242
Haemmerle, Monika; Taylor, Morgan L; Gutschner, Tony et al. (2017) Platelets reduce anoikis and promote metastasis by activating YAP1 signaling. Nat Commun 8:310
Afshar-Kharghan, Vahid (2017) The role of the complement system in cancer. J Clin Invest 127:780-789
Menter, David G; Kopetz, Scott; Hawk, Ernest et al. (2017) Platelet ""first responders"" in wound response, cancer, and metastasis. Cancer Metastasis Rev 36:199-213
Hu, Qianghua; Hisamatsu, Takeshi; Haemmerle, Monika et al. (2017) Role of Platelet-Derived Tgf?1 in the Progression of Ovarian Cancer. Clin Cancer Res 23:5611-5621

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