P06.03.A IMMORTALIZED MACROPHAGES AS A TOOL TO STUDY PHAGOCYTOSIS AND POLARIZATION IN VITRO

Abstract BACKGROUND Macrophages, an important element of the tumour-microenvironment (TME), are classified based on polarization state: tumour inhibiting ‘classically-activated macrophages’ M1 and tumour promoting ‘alternatively-activated macrophages’ M2. It is wellknown that the glioblastoma (GBM) TME is dominated by immunosuppressive M2 macrophages contributing to tumor growth by promoting angiogenesis, invasion and immunosuppression. However, macrophage culture is difficult to maintain as the cells do not proliferate and expand, making co-culture studies challenging. In this work, we successfully immortalized and expanded bone marrow derived mouse macrophages (BMDMs) that can be used as a tool to study phagocytosis and polarization in co-culture with tumor cells. MATERIAL AND METHODS Primary macrophages, obtained from the bone marrow of C57/BL6 mice, were transduced with two lentiviral vectors: hTERT with antibiotic hygromycin (Hy) and Simian virus 40 (SV40) with mCherry selective markers. Viral-titers were prepared by co-transfecting HEK293T with hTERT and SV40 constructs and plasmids MDL-X (Gag/Pol):Vpx. Vpx is a virion-packaged accessory protein that induces degradation of SAMHD1, a GTP- activated dNTP hydrolase that inhibits lentiviral infection of macrophages. BMDMs transduced with hTERT were subjected to gradient Hy selection after 5 days infection and SV40.mCherry positive cells were sorted by flow cytometry. To assess phagocytotic capacity, BMDMs were incubated with apoptotic bodies of a murine GBM cell-line (GL261) which was treated with HSV-TK/ganciclovir (GCV) suicide gene therapy. Phagocytosis was measured by fluorescence microscopy and flow cytometry. Further, BMDMs were externally induced with either E. coli lipopolysaccharide (LPS) and interferon gamma (IFNγ) or interleukin 4 (IL4) to activate M1 and M2 polarization. Flow cytometry was used to detect iNOS, CD40 and CD86 markers for M1 phenotype and Arginase1 and CD206 for M2. RESULTS hTERT.MDL-X.Vpx.Hy BMDM showed no clear signs of immortalization with limited proliferation followed by cell death. In contrast, SV40.MDL-X.Vpx.mCherry BMDM exhibited proliferative expansion from single colony, efficient freeze-thaw cycles and were used for further studies. BMDMs showed successful phagocytosis of apoptotic bodies from HSV-tk/GCV treated GL261 cells with an increasing capacity upto 18 hours of application. The phagocytic capacity was higher compared to commercial cell lines such as BV2 and Raw 264.7. Immortalized BMDMs tend to have a M2 phenotype without external induction and it is possible to activate M1 phenotype by LPS and IFNγ induction. CONCLUSION Here, we successfully immortalized bone-marrow derived macrophages and showed that they can be used as a tool to study macrophage polarization and phagocytic capability in a tumor immunotherapy context.