Oncoprotein GT198 Vaccination Delays Tumor Growth in MMTV-PyMT Mice

Abstract

Different effects of anticancer drugs between mouse and human have caused increasing concerns. A better understanding of cancer initiation between the two species is needed. We have previously identified an oncoprotein GT198 (PSMC3IP) in human breast cancer. In this report, we investigated GT198 in MMTV-PyMT mouse mammary gland tumors and found a reconcilable mechanism in human and mouse. Specifically, distinct tumor initiating stimuli in human and mouse result in a common GT198-mediated tumorigenic pathway in both species. Here we show, similar to human breast cancer even before a tumor appears, GT198 has overexpressed in mouse tumor stroma including pericyte stem cells, descendent adipocytes, fibroblasts, and myoepithelial cells. Using recombinant GT198 protein as an antigen, we vaccinated MMTV-PyMT mice and found that the GT198 vaccine delayed mouse tumor growth and reduced lung metastasis. The antitumor effects in vaccinated mice were linearly correlated with serum titers of GT198 antibody, which can recognize cell surface GT198 protein on viable tumor cells confirmed by FACS. Furthermore, tumor cells isolated from MMTV-PyMT mice were re-implanted into normal FVB/N mice, GT198⁺tumor cells induced faster tumor growths than GT198^-tumor cells. Together, this first study of GT198 vaccine in mouse showed its effectiveness in antitumor and anti-metastasis. The finding may accelerate future development of GT198 immunotherapy in human cancer. Our finding also indicates that even though distinct cancer-initiation stimuli exist between mouse and human, a common tumorigenic pathway mediated by oncoprotein GT198 is shared in both species.