Abstract
Over the past three decades, we have mentored a generation of young Japanese surgeons, guiding them to become internationally recognized surgeon-scientists. Through a unique collaboration between Japanese academic institutions and our laboratories at AntiCancer Inc. and the University of California, San Diego (UCSD), these trainees engaged in immersive translational research. They mastered advanced imaging and therapeutic tools including fluorescent-protein technology, patient-derived orthotopic xenograft (PDOX) models, the FUCCI cell-cycle imaging system, tumor-targeting Salmonella typhimurium A1-R (A1-R), and recombinant methioninase (rMETase) to treat the methionine addiction of cancer. These technologies enabled real-time visualization of cancer biology in vivo, accurate modeling of tumor behavior, and the development of strategies to target quiescent, treatment-resistant cancer cells. FUCCI imaging revealed that most solid cancer cells within tumors exist in non-cycling states, which are largely unaffected by conventional therapies. Our team explored methods to decoy these cells into vulnerable phases of the cell cycle. PDOX models provided a clinically-relevant platform to evaluate such strategies, while A1-R and rMETase offered novel therapeutic avenues by exploiting cancer-specific vulnerabilities. The present review highlights the scientific advances achieved through this collaboration, but also the human story of mentorship, cultural exchange, and the formation of a lasting international academic network and permanent friendship. Many of our mentees now lead research laboratories and academic departments across Japan, continuing the cycle of innovation and global partnership. We reflect on this journey as a successful model for training surgeon-scientists and advancing precision cancer therapy through visualization, imagination, and mentorship.