Abstract 793: Human endothelial progenitor cells: A new target for anti-vascular therapy

Breast cancer affects one in eight women in the USA. Early diagnosis and newer treatment modalities have rendered breast cancer manageable. However, triple negative breast cancer is still difficult to treat and warrantes a search for newer targets. One strategy that has emerged in cancer research involves targeting of tumor associated blood vessels which provide growing tumors with oxygenated blood and growth factors necessary for maintenance and metastasis. Antiangiogenic drug therapy is transient and has not been able to gain mainstream therapeutic modality. We discovered that endothelial progenitor cells (EPCs) are mobilized from the bone marrow to the tumor site and contribute to the development of breast tumor vessel formation in an estrogen dependent manner. Therefore, characterization of tumor associated endothelial progenitor cells in breast cancer may provide a more specific antivascular therapy. Using the highly proliferative human umbilical cord blood derived EPCs, having the phenotype (CD133+, CD34+, VEGFR-2+), the effect of growth factor and chemokine rich EPCs conditioned medium (CM) was assessed in luminal (MCF-7), and post-EMT (MDA-MB-231) breast carcinoma cell lines. We observed an initial halt in cellular proliferation in MCF-7 followed by a significant increase in proliferation after forty eight hours of treatment. On the other hand, MDA-MB-231 showed decreased proliferation even after forty eight hours of treatment. Treating the EPCs with breast cancer conditioned medium resulted in morphological and cellular growth changes in the EPCs. MDA-MB-231 CM resulted in an increase of the EPCs proliferation and differentiation by increasing the number of spindle shaped attaching cells, and MCF-7 CM resulted only in an increase in the differentiation rate by increasing the number of cell clusters. This increase in EPCs proliferation and differentiation associated with MDA-MB-231 CM treatment might explain the invasiveness of this breast cancer cells through the increase in the tumor associated neovascularization. The analysis of the paracrine interaction between breast cancer cells and EPCs along with the associated cellular changes will facilitate identification of the interactive mediators and subsequent development of effective antivascular therapy. Citation Format: Ghada Ben Rahoma, Neha Tuli, Rachana Maniyar, Sanjukta Chakraborty, Sarnath Singh, Abraham Mittelman, Raj K. Tiwari. Human endothelial progenitor cells: A new target for anti-vasc