A GLUT1 inhibitor-based fluorogenic probe for Warburg effect-targeted drug screening and diagnostic imaging of hyperglycolytic cancers

Abstract

Increased expression of glucose transporters, especially GLUT1 has been proven to be involved in the Warburg effect. Therefore, GLUT1-targeted oncological approaches are being successfully employed for clinical tumor diagnostic imaging (e.g. the 18F-FDG/PET), drug delivery and novel anticancer drug development. Despite the long history of the Warburg effect-targeted cancer diagnosis, other than antibody labeling, there have been no imaging tools developed for direct detection of the GLUT1 expression. Herein, we report the new strategy of using a non-antibody GLUT1 binding probe for Warburg effect-based tumor detection and diagnostic imaging. By specifically inhibits the transport function of GLUT1, the newly designed fluorescent probe, CUM-5, was found to be a useful tool not only for sensitive GLUT1-mediated cancer cell detection, but also for cell-based high-throughput GLUT inhibitor screening. In in vivo studies, CUM-5 shows clear advantages including desirable tumor-to-normal tissue contrast and excellent tumor selectivity (Tm/Bkg and Tm/Torg), as well as high fluorescence stability (long response time) and ideal physiological biocompatibility. In particular, the GLUT1 inhibitor probe offers the potential use for glycolysis-based diagnostic imaging in triple-negative breast cancer which is claimed to have unsatisfactory results with FDG/PET diagnosis, thus remaining a highly metastatic and lethal disease with a need for sensitive and precise identification.