Abstract
INTRODUCTION: The natural amino acid l-Glutamine (Gln) is essential for both cell growth and proliferation. In addition to glucose, cancer cells utilize Gln as a carbon source for ATP production, biosynthesis, and as a defense against reactive oxygen species. The utilization of [(11)C]Gln has been previously reported as a biomarker for tissues with an elevated demand for Gln, however, the previous reports for the preparation of [(11)C]Gln were found to be lacking several crucial aspects necessary for transition to human production. Namely, the presence of unreacted precursor and the use of non-commercialized, custom built, reaction platforms. Herein, we report the development and utilization of methodology for the automated production of [(11)C]Gln that meets institutional criteria for human use. METHODS: The preparation of [(11)C]Gln was carried out on the GE FX(2)N platform. Briefly, after trapping of [(11)C]HCN with a solution of CsHCO(3) in DMF, the [(11)C]CsCN was reacted with a commercially available precursor. This intermediate was then purified by HPLC and deprotected/hydrolyzed under acidic conditions. Following pH adjustment, the product was filtered to give the desired [(11)C]Gln as a sterile injectable. The resulting product was then analyzed for quality assurance. RESULTS: Automated production by this method reliably provides over 3.7 GBq (100 mCi) of [(11)C]Gln. The resulting final drug product was found to have a >99% radiochemical purity, <5% of D-Gln present, no detectable impurities, and the total preparation time was roughly 45 min from the end-of-bombardment. CONCLUSIONS: A fast, reliable and efficient automated radiosynthesis was developed using a commercially available module. Purifications used throughout allow for both a radiochemically and chemically pure final product solution of [(11)C]Gln.