Brain tumor initiating cells adapt to restricted nutrition through preferential glucose uptake

WA Flavahan, Q Wu, M Hitomi, N Rahim, Y Kim… - Nature …, 2013 - nature.com
WA Flavahan, Q Wu, M Hitomi, N Rahim, Y Kim, AE Sloan, RJ Weil, I Nakano, JN Sarkaria…
Nature neuroscience, 2013nature.com
Like all cancers, brain tumors require a continuous source of energy and molecular
resources for new cell production. In normal brain, glucose is an essential neuronal fuel, but
the blood-brain barrier limits its delivery. We now report that nutrient restriction contributes to
tumor progression by enriching for brain tumor initiating cells (BTICs) owing to preferential
BTIC survival and to adaptation of non-BTICs through acquisition of BTIC features. BTICs
outcompete for glucose uptake by co-opting the high affinity neuronal glucose transporter …
Abstract
Like all cancers, brain tumors require a continuous source of energy and molecular resources for new cell production. In normal brain, glucose is an essential neuronal fuel, but the blood-brain barrier limits its delivery. We now report that nutrient restriction contributes to tumor progression by enriching for brain tumor initiating cells (BTICs) owing to preferential BTIC survival and to adaptation of non-BTICs through acquisition of BTIC features. BTICs outcompete for glucose uptake by co-opting the high affinity neuronal glucose transporter, type 3 (Glut3, SLC2A3). BTICs preferentially express Glut3, and targeting Glut3 inhibits BTIC growth and tumorigenic potential. Glut3, but not Glut1, correlates with poor survival in brain tumors and other cancers; thus, tumor initiating cells may extract nutrients with high affinity. As altered metabolism represents a cancer hallmark, metabolic reprogramming may maintain the tumor hierarchy and portend poor prognosis.
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