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Design, synthesis, and biological evaluation of multiple F-18 S1PR1 radiotracers in rodent and nonhuman primate.

Lin QiuHao JiangCharles ZhouVijai Kumar Reddy TangadanchuJinzhi WangTianyu HuangRobert J GroplerJoel S PerlmutterTammie L S BenzingerZhude Tu
Published in: Organic & biomolecular chemistry (2024)
Here we report our design and synthesis of 28 new fluorine-containing compounds as potential F-18 radiotracers for CNS imaging of sphingosine-1-phosphate receptor 1 (S1PR1), and determination of their in vitro binding potency and selectivity toward S1PR1 over other S1PR subtypes. Nine potent and selective compounds, 7c&d, 9a&c, 12b, 15b, and 18a-c with IC 50 values ranging from 0.6-12.3 nM for S1PR1 and weak binding toward S1PR2, 3, 4, and 5, were further 18 F-radiolabeled to produce [ 18 F]7c&d, [ 18 F]9a&c, [ 18 F]12b, [ 18 F]15b, and [ 18 F]18a-c. Multi-step F-18 radiochemistry procedures were investigated for radiosynthesis of [ 18 F]7c&d and [ 18 F]9a&c, and the presumed intermediates were synthesized and authenticated by analytic HPLC. We then performed nonhuman primate (NHP) PET brain imaging studies for eight radiotracers: [ 18 F]7c&d, [ 18 F]9a, [ 18 F]12b, [ 18 F]15b, and [ 18 F]18a-c. Three radiotracers, [ 18 F]7c, [ 18 F]7d, and [ 18 F]15b, had high NHP brain uptake with standardized uptake values (SUVs) at 2 h post-injection of 2.42, 2.84, and 2.00, respectively, and good brain retention. Our ex vivo biodistribution study in rats confirmed [ 18 F]7d had a high brain uptake with no in vivo defluorination. Radiometabolic analysis of [ 18 F]7c and [ 18 F]7d in rat plasma and brain samples found that [ 18 F]7c has a more favorable metabolic profile than [ 18 F]7d. However, the trend of increased brain uptake precludes [ 18 F]7c as a suitable PET radiotracer for imaging S1PR1 in the brain. Further structural optmization is warranted to identify a highly S1PR1-specific radiotracer with rapid brain uptake kinetics.
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