The Role of Microsurgery and Fluorescent-reporter Genes in Establishing Mouse Models for Real-Time Imaging of Metastatic Cancer-Cell Trafficking and Colony Formation: A Revolutionary and Disruptive Technology for Metastasis Research.
Sei Morinaga, Norio Yamamoto, Kensuke Yamauchi, Katsuhiro Hayashi, Hiroaki Kimura, Shinji Miwa, Kentaro Igarashi, Takashi Higuchi, Hiroyuki Tsuchiya, Satoru Demura, Robert M Hoffman
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Abstract
The field of experimental microsurgery was pioneered by the great microsurgeon Sun Lee, who developed the foundation of transplant surgery in the clinic. Dr Lee also played a seminal role in introducing microsurgery to establish mouse models of cancer. In 1990, at the age of 70, Dr Lee demonstrated microsurgery techniques to the mouse-model team at AntiCancer Inc., leading to the development of the surgical orthotopic implant (SOI) technique and the first orthotopic mouse models of cancer that metastasized in a pattern similar to clinical cancer. At the beginning of the present century, one of us (NY) from Kanazawa University School of Medicine became a visiting scientist at AntiCancer to learn SOI and develop mouse models of cancer using cancer cells expressing fluorescent reporter genes, such as green fluorescent protein (GFP) and red fluorescent protein (RFP), in order to image metastatic cancer cells trafficking in real time. Since then, a total of eight young surgeons from Kanazawa University have been visiting researchers at AntiCancer, developing SOI mouse models of cancer to visualize cancer cells in vivo, tracking all stages of metastasis in real time. The present perspective review summarizes this seminal work, which has revolutionized the field of metastasis research.
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