DDRE-17. TARGETING GLIOBLASTOMA’S GALACTOSE SCAVENGING PATHWAY

Abstract

Abstract BACKGROUND We have recently shown that GBM use D-galactose (Gal) as a substrate, in vitro and in vivo. Gal is imported via Glut3 and/or Glut14 and metabolized through the Leloir pathway. We investigated 4-deoxy-4-fluorogalactose (4DFG) as the lead compound in a family of galactose-based antimetabolites. 4DFG is a potent chemotherapeutic in monotherapy and can bolster existing therapies. METHODS We examined the alteration of glioma metabolism in vitro and in vivo induced by 4DFG. 1H/13C-NMR and optical probes were used to interrogate the effects of 4DFG on glycolysis and mitochondrial respiration in primary glioma cell cultures. Labeled lectins were used to assay for the disruption of glycan synthesis induced by 4DFG. An intracranial model of primary GBM was used to assess efficacy and toxicity in vivo. RESULTS NMR reveals that at physiological concentrations of glucose, low concentrations of 4DFG (5 μM) is able to inhibit glycolytic and mitochondrial flux by approximately 12%, p< 0.05. Analysis using lectins shows a collapse in general glycan synthesis, but most especially in the incorporation of both Gal and GalNAc sugars. In nude mice with intracranial primary GBM, six treatments of 4DFG increased survival from 23 to 50 days, p< 0.002. DISCUSSION The ability of GBM to scavenge galactose allows us to target the Glut3/14 import and Leloir metabolic pathway using galactose-based anti-metabolites. Our first-generation compound is highly effective as a monotherapy, inhibiting glucose metabolism and glycan synthesis.