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Chen, Lan; Wang, Jieying; He, Liyuan; Xu, Xiaofeng; Wang, Jun; Ren, Chengjie; Guo, Yaoxin; Zhao, Fazhu (, Plant and Soil)
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Marshall, Checkers R.; Dvorak, Josh P.; Twight, Liam P.; Chen, Lan; Kadota, Kentaro; Andreeva, Anastasia B.; Overland, Alexandra E.; Ericson, Thomas; Cozzolino, Anthony F.; Brozek, Carl K. (, Journal of the American Chemical Society)
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Chen, Lan; Richter, Brodan; Zhang, Xinzhou; Bertsch, Kaila B.; Thoma, Dan J.; Pfefferkorn, Frank E. (, Materials Science and Engineering: A)null (Ed.)
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Lin, Chih-Wei; Wang, Yu-Jen; Lai, Ting-Yen; Hsu, Tsui-Ling; Han, Shin-Ying; Wu, Han-Chung; Shen, Chia-Ning; Dang, Van; Chen, Ming-Wei; Chen, Lan-Bo; et al (, Proceedings of the National Academy of Sciences)Pancreatic cancer is usually asymptomatic in the early stages; the 5-y survival rate is around 9%; and there is a lack of effective treatment. Here we show that SSEA-4 is more expressed in all pancreatic cancer cell lines examined but not detectable in normal pancreatic cells; and high expression of SSEA-4 or the key enzymes B3GALT5 + ST3GAL2 associated with SSEA-4 biosynthesis significantly lowers the overall survival rate. To evaluate potential new treatments for pancreatic cancer, homogeneous antibodies with a well-defined Fc glycan for optimal effector functions and CAR-T cells with scFv construct designed to target SSEA-4 were shown highly effective against pancreatic cancer in vitro and in vivo. This was further supported by the finding that a subpopulation of natural killer (NK) cells isolated by the homogeneous antibody exhibited enhancement in cancer-cell killing activity compared to the unseparated NK cells. These results indicate that targeting SSEA-4 by homologous antibodies or CAR-T strategies can effectively inhibit cancer growth, suggesting SSEA-4 as a potential immunotherapy target for treating pancreatic disease.more » « less
