Abstract

Recent reports suggest that cancer cells may use glutamine, instead of glucose, as an alternative source of metabolic energy. This suggests that hyperpolarized (13)C glutamine may be useful as a magnetic resonance spectroscopy (MRS) imaging agent for detecting changes in glutamine metabolism in cancerous cells or tissues. Synthesis of [5-(13)C-4-(2)H(2)]-L-glutamine was accomplished through a seven-step synthetic pathway with a 44% overall yield. The introduction of two stable isotopes was performed by a NaB(2)H(4)-mixed anhydride reduction and K(13)CN-nuclophilic substitution, respectively. The desired [5-(13)C-4-(2)H(2)]-L-glutamine was successfully obtained by a one-pot reaction of deprotection and controlled cyanide hydrolysis. Hyperpolarized [5-(13)C-4-(2)H(2)]-L-glutamine samples were tested in human glioma cells (myc upregulated glia cells, SF188-Bcl-x(L)). MRS signals were obtained with a 9.4 Tesla 89-mm bore nuclear magnetic resonance spectrometer and a direct-detection multi-nuclear probe. The initial degree of polarization for [5-(13)C-4-(2)H(2)]-L-glutamine was ~5% and the initial (13)C signal to noise ratio was ~100:1. Glutamate was detected within seconds after the injection of hyperpolarized glutamine into the cells. The ratio of glutamate to glutamine was very high, indicating rapid conversion to glutamate. Similar cell uptake studies using [(3)H]-L-glutamine also demonstrated cell uptakes higher than that of [(18)F]fluorodeoxyglucose. We are reporting the first example of using specifically deuterated [5-(13)C-4-(2)H(2)]-L-glutamine in conjunction with hyperpolarized MRS for studying "glutaminolysis" in proliferating tumor cells.

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