A Fluorescence-Based Assay to Probe Inhibitory Effect of Fructose Mimics on GLUT5 Transport in Breast Cancer Cells.

Rapid cell division and reprogramming of energy metabolism are two crucial hallmarks of cancer cells. In humans, hexose trafficking into cancer cells is mainly mediated through a family of glucose transporters (GLUTs), which are facilitative transmembrane hexose transporter proteins. In several breast cancers, fructose can functionally substitute glucose as an alternative energy supply supporting rapid proliferation. GLUT5, the principal fructose transporter, is overexpressed in human breast cancer cells, providing valuable targets for breast cancer detection as well as selective targeting of anticancer drugs using structurally modified fructose mimics. Herein, a novel fluorescence assay was designed aiming to screen a series of C-3 modified 2,5-anhydromannitol (2,5-AM) compounds as d-fructose analogues to explore GLUT5 binding site requirements. The synthesized probes were evaluated for their ability to inhibit the uptake of the fluorescently labeled d-fructose derivative 6-NBDF into EMT6 murine breast cancer cells. A few of the compounds screened demonstrated highly potent single-digit micromolar inhibition of 6-NBDF cellular uptake, which was substantially more potent than the natural substrate d-fructose, at a level of 100-fold or more. The results of this assay are consistent with those obtained from a previous study conducted for some selected compounds against F-labeled d-fructose-based probe 6-[F]FDF, indicating the reproducibility of the current non-radiolabeled assay. These highly potent compounds assessed against 6-NBDF open avenues for the development of more potent probes targeting GLUT5-expressing cancerous cells.