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Identification of Glucose Transporter 3 Inhibitors for Glioblastoma Treatment

$272,552R21FY2017NSNIH

University Of Alabama At Birmingham, Birmingham AL

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Abstract

DESCRIPTION (provided by applicant): Glioblastomas (GBMs) are one of the most aggressive, deadly cancers due in part to the ability of a subset of tumor cells, called brain tumor initiating cells (BTICs), to resist current treatments and cause tumor recurrence. We and others have identified a perinecrotic niche for BTICs which is associated with reduced levels of glucose and other nutrients. We were the first to find that BTICs were able to survive low glucose conditions due to increased glucose uptake that was associated with elevation of the glucose transporter GLUT3. The ubiquitiously expressed glucose transporter GLUT1 was previously known to play a role in cancer, but our study was the first to determine a functional role for this high affinity glucose transporter in GBM cells. We determined that knockdown of GLUT3 with shRNA decreased BTIC growth, neurosphere formation, and tumorigenic potential in vivo. These phenotypic changes with GLUT3 shRNA correlated with a significant decrease in glucose uptake in these cells even though GLUT1 was still present. As there are no known GLUT3 specific inhibitors and our data suggested strong benefit for GLUT3 inhibition, we initiated a collaborative drug discovery effort. This effort involved structure-based computationa and medicinal chemistry studies and biological evaluations to identify GLUT3 selective inhibitors. We have identified two candidate compounds and will continue to evaluate the efficacy of candidate GLUT3 inhibitors against BTIC growth and maintenance and determine their ability to inhibit glucose uptake in a GLUT3 dependent manner. This study is likely to establish a new therapeutic strategy to improve GBM treatment by altering cellular metabolism to delay tumor recurrence or cure the disease.

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