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Abstract

PET imaging of cannabinoid type-2 receptors (CB2Rs) in the healthy brain remains challenging due to low receptor density and the unavailability of radiotracers with high affinity and selectivity. Because some carbon-deuterium bonds are less susceptible than carbon-proton bonds to enzymatic cleavage, deuteration of [¹⁸F]JHU94620 was pursued to potentially slow its metabolism. This study: (1) evaluated the sensitivity of a heavily deuterated version of the agonist [¹⁸F]JHU94620 ([¹⁸F]JHU94620-d₈) to detect brain CB2Rs in healthy Sprague–Dawley rats and monkeys and in a rat model of inflammation; (2) assessed the metabolic stability of [¹⁸F]JHU94620 and [¹⁸F]JHU94620-d₈ in whole blood, plasma, and brain of control (FVB) mice and in the whole blood and plasma of monkeys; and (3) investigated the efflux transporter substrate liability of [¹⁸F]JHU94620-d₈. Deuteration of [¹⁸F]JHU94620 did not significantly affect its uptake in the brains of FVB mice, Sprague–Dawley rats, or monkeys, nor did it affect metabolic stability, except in FVB mice. [¹⁸F]JHU94620-d₈ was also found to be a moderate substrate for efflux transporters in monkeys but not in mice. The sensitivity of [¹⁸F]JHU94620-d₈ was inadequate to detect the low density of CB2Rs that are in the agonist-preferring state in the brain.

Keywords

PET imaging CB2 receptor PET tracer metabolic stability brain uptake

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Evaluation of deuterated [ 18 F]JHU94620 for imaging cannabinoid type 2 receptors in rodent and monkey brain

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