Abstract 3894: A xenograft mouse model coupled with in-depth cell surface proteome analysis facilitates further elucidation of K-Ras driven tumorigenesis in lung carcinoma

2016 
The purpose of this study was to develop a proteomic approach for analysis of cell surface proteins in tissue specimens and applied it on a K-Ras driven mouse model of metastatic lung carcinoma. Metastatic disease is the leading cause of lung cancer-related mortality in the United States. In spite of continuous efforts, effective treatments targeting oncogenic K-Ras in lung and other K-Ras driven malignancies are slow to develop. To expand the treatment options for lung cancer and facilitate better understanding of metastasis new targets need to be identified and characterized at the surface of cancer cells, preferably in their native tissue microenvironment. Towards this goal we developed a mass-spectrometry (MS)-based glyco-proteomic approach targeting specifically cell surface proteins in tissue specimens and applied it on a xenograft lung cancer mouse model. We used A549 cells expressing endogenous K-RasG12S to induce lung tumor xenografts in BALB/c mice via tail vein injection. A comparative surface glyco-proteomics of cultured A549 cells, dissected tumor tissue (TT), adjacent tumor (AT) tissue and normal mouse lung tissue (NT) obtained from saline-injected age-matched littermates yielded high enrichment (i.e., ≥80%) of surface proteins. It resulted in extensive catalogue/map of more than 400 glycoproteins identified on tumor cell surface. More than 50% of proteins identified on the surface of A549 cultured cells were unambiguously identified in mouse TT, featuring proteins and pathways implicated in metastasis, invadopodia formation and cancer cell migration. These markers also provide insight regarding species determination of tissue origin (i.e., human vs. mouse) differentiation of tumor parenchyma from stroma, and regulation of tumor immune response. Citation Format: Xiaoying Ye, Gordon Whiteley, Dwight Nissley, Frank McCormick, Josip Blonder. A xenograft mouse model coupled with in-depth cell surface proteome analysis facilitates further elucidation of K-Ras driven tumorigenesis in lung carcinoma. [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 3894.
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