Validation of a pharmacological imaging challenge using 11 C-buprenorphine and 18 F-2-fluoro-2-deoxy-D-glucose positron emission tomography to study the effects of buprenorphine to the rat brain

Buprenorphine mainly acts as an agonist of mu-opioid receptors (mu-OR). High dose buprenorphine does not cause respiratory depression and can be safely administered to elicit typical opioid effects and explore pharmacodynamics. Acute buprenorphine, associated with functional and quantitative neuroim...

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Veröffentlicht in:Frontiers in neuroscience 2023, Vol.17, p.1181786
Hauptverfasser: Soyer, Amélie, Leterrier, Sarah, Breuil, Louise, Goislard, Maud, Leroy, Claire, Saba, Wadad, Thibault, Karine, Bo, Gregory Dal, Bottlaender, Michel, Caillé, Fabien, Goutal, Sébastien, Tournier, Nicolas
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Sprache:eng
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Zusammenfassung:Buprenorphine mainly acts as an agonist of mu-opioid receptors (mu-OR). High dose buprenorphine does not cause respiratory depression and can be safely administered to elicit typical opioid effects and explore pharmacodynamics. Acute buprenorphine, associated with functional and quantitative neuroimaging, may therefore provide a fully translational pharmacological challenge to explore the variability of response to opioids . We hypothesized that the CNS effects of acute buprenorphine could be monitored through changes in regional brain glucose metabolism, assessed using F-FDG microPET in rats. First, level of receptor occupancy associated with a single dose of buprenorphine (0.1 mg/kg, s.c) was investigated through blocking experiments using C-buprenorphine PET imaging. Behavioral study using the elevated plus-maze test (EPM) was performed to assess the impact of the selected dose on anxiety and also locomotor activity. Then, brain PET imaging using F-FDG was performed 30 min after injection of unlabeled buprenorphine (0.1 mg/kg, s.c) vs. saline. Two different F-FDG PET acquisition paradigms were compared: (i) F-FDG injected i.v. under anesthesia and (ii) F-FDG injected i.p. in awake animals to limit the impact of anesthesia. The selected dose of buprenorphine fully blocked the binding of C-buprenorphine in brain regions, suggesting complete receptor occupancy. This dose had no significant impact on behavioral tests used, regardless of the anesthetized/awake handling paradigm. In anesthetized rats, injection of unlabeled buprenorphine decreased the brain uptake of F-FDG in most brain regions except in the cerebellum which could be used as a normalization region. Buprenorphine treatment significantly decreased the normalized brain uptake of F-FDG in the thalamus, striatum and midbrain (  
ISSN:1662-4548