Abstract P2-04-01: Development of mouse breast cancer models based on induced cancer stem cells (iCSC).

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Abstract Breast cancer is one of the leading causes of death in women worldwide. To develop novel therapeutic approaches for the refractory cases, the mouse models which recapitulate the tumor tissues biologically and pathologically similar to human breast cancer are required. Although xenograft models of established cell lines in immune-deficient mice are frequently used for preclinical experiments, such xenograft models are not sufficient because the heterogenous structure based on the microenvironment and the intrinsic characteristics of cancer cells is not correctly formed. In this study, we have established induced cancer stem cells (iCSC) from normal mouse mammary stem/progenitor cells through minimal required genetic manipulations and generated mouse breast cancer models by inoculating the iCSCs in the mammary fat pads. Initially, we established iCSC by introducing the H-RasV12 into Ink4a/Arf-knockout mammary stem/progenitor cells and this iCSC formed tumor similar to human triple negative breast cancer in mouse. This finding suggested that two genetic events, an activation of oncogenic signal and a tumor suppressor inactivation, are required for generating the breast cancer iCSC. Anaplastic Lymphoma Kinase (ALK) gene, which encodes a receptor tyrosine kinase, was reported to be amplified and/or overexpressed up to 86% of patients in inflammatory breast cancer, and pleiotrophin (PTN), which is a physiological ligand for ALK, was also shown to be highly expressed in about 60% of human breast cancers. Therefore, we hypothesized that ALK pathway is involved in tumorigenesis of breast cancers and, then, attempted to generate iCSC by using ALK gene. Interestingly, we found that one of the naturally occurring mutations of ALK is sufficient for generating iCSC and tumor formation in vivo without any prior tumor suppressor inactivation. The ALK-induced iCSCs developed highly aggressive breast cancers in mice. Furthermore, the tumor formation was significantly suppressed when the ALK-induced iCSCs were generated by using mammary stem/progenitor cells derived from mouse deficient in CD44 which is a CSC marker. We have recently revealed a role of CD44, in particular that of a variant isoform (CD44v), in the protection of CSCs from high levels of oxidative stress derived from both tumor cells and their microenvironment (Cancer Cell 19: 387–400, 2011; Cancer Res 72: 1438–1448, 2012; Nat Commun 3: 883, 2012). We will discuss the underlying mechanism of ALK-induced tumorigenesis and a role of CD44 in the CSC functions. Citation Information: Cancer Res 2012;72(24 Suppl):Abstract nr P2-04-01.