Abstract 908: Immune regulation of tumor dormancy in syngeneic mouse model

Abstract

Abstract Metastatic disease -end stage of tumor progression- is the major cause of cancer-related death.It is widely accepted that malignant cell plasticity between epithelial-mesenchymal-transition (EMT) and mesenchymal-epithelial-transition (MET) is required for metastasis to occur. The classical model of metastasis suggests tumor cell dissemination occur late in tumor development, however emerging studies strongly indicates that dissemination is an early process and provide a striking evidence that tumor cells start to disseminate during the initial steps of tumor development. Late appearing metastases arise from these early-disseminated tumor cells. The mechanism by which some early-disseminated tumor cells colonize and generate metastatic growth while some remain dormant is not well known. In order to understand the underlying factors, we utilized murine mammary tumors (4T1 as metastatic and EMT6 as less metastatic) in a syngeneic mouse model. We performed time course experiments to determine the early factors that may contribute to the metastatic growth. 4T1 or EMT6 tumor cells were implanted orthotopically into the fat pads and tumor cell dissemination was analyzed over 3 weeks time points. We determined that both 4T1 and EMT tumor cells disseminated as early as one week post-implantation, however only 4T1 tumor cells develop metastasis in distant organs. Furthermore, we also resected primary tumors 1,2 and 3 week post implantation of EMT6-Luci or 4T1-Luci tumors and observed distant metastasis via optical imaging of luciferase expression in live animals. Although the majority of 4T1 tumor bearing mice (>80%) develop pulmonary metastasis when 4T1 tumors resected 2 and 3 weeks post-implantation, only 10% of mice develop metastasis when primary tumor resected one week post implantation. In contrast, EMT6 tumors following resection only relapsed in the primary tumor site but failed to develop metastasis. We investigated the possible mechanism of efficient pulmonary metastatic growth following the resection of tumors 2-3 week post implantation. Interestingly we found a significant infiltration of granulocytic subset of myeloid derived suppressor cells (g-MDSC) in 4T1 tumor bearing mice by week 2 and 3. Furthermore, we found that lung infiltrated g-MDSCs promote tumor cell growth via paracrine factors. In co-culture studies we found that there is a reciprocal secretion of panel of inflammatory cytokines, growth factors and matrix metalloproteases between tumor cell and g-MDSCs suggesting that these cells in the lung microenvironment support the metastatic growth. Our studies provide a new paradigm in the understanding of metastatic growth and the role of microenvironment in distant organs. Citation Format: Raziye Piranlioglu, Maria Ouzounova, Eunmi Lee, Alicia Hudson, Sumeyye Korkaya, Ali Arbab, Hasan Korkaya. Immune regulation of tumor dormancy in syngeneic mouse model. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 908.