[18F]F13640, a 5-HT1A Receptor Radiopharmaceutical Sensitive to Brain Serotonin Fluctuations

Introduction Serotonin is involved in a variety of physiological functions and brain disorders. In this context, efforts have been made to investigate the in vivo fluctuations of this neurotransmitter using positron emission tomography (PET) imaging paradigms. Since serotonin is a full agonist, it b...

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Published in:Frontiers in neuroscience 2021-03, Vol.15, p.622423-622423
Main Authors: Colom, Matthieu, Vidal, Benjamin, Fieux, Sylvain, Redoute, Jérôme, Costes, Nicolas, Lavenne, Franck, Mérida, Inés, Irace, Zacharie, Iecker, Thibaud, Bouillot, Caroline, Billard, Thierry, Newman-Tancredi, Adrian, Zimmer, Luc
Format: Article
Language:English
Subjects:
5-HT1A receptors
[18F]F13640
agonist
Agonists
Cats
Caudate-putamen
Cerebellum
Competition
Cortex (cingulate)
Cortex (frontal)
Cortex (parietal)
Experiments
Fenfluramine
Injection
Intravenous administration
Labeling
Laboratory animals
Life Sciences
Ligands
Neuroimaging
Neurons and Cognition
Neuroscience
Neurotransmitter release
Occipital lobe
PET imaging
Pharmaceuticals
Physiology
Positron emission tomography
Proteins
Putamen
Radioisotopes
Raphe nuclei
Sensitivity analysis
Serotonin
serotonin release
Serotonin S1 receptors
Signal to noise ratio
Software
Substantia grisea
Thalamus
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Summary:Introduction Serotonin is involved in a variety of physiological functions and brain disorders. In this context, efforts have been made to investigate the in vivo fluctuations of this neurotransmitter using positron emission tomography (PET) imaging paradigms. Since serotonin is a full agonist, it binds preferentially to G-protein coupled receptors. In contrast, antagonist PET ligands additionally interact with uncoupled receptors. This could explain the lack of sensitivity to serotonin fluctuations of current 5-HT1A radiopharmaceuticals which are mainly antagonists and suggests that agonist radiotracers would be more appropriate to measure changes in neurotransmitter release. The present study evaluated the sensitivity to endogenous serotonin release of a recently-developed, selective 5-HT1A receptor PET radiopharmaceutical, the agonist [18F]F13640 (a.k.a. befiradol or NLX-112). Materials and methods Four cats each underwent three PET scans with [18F]F13640, i.e., a control PET scan of 90 min, a PET scan preceded 30 min before by an intravenous injection 1 mg/kg of d-fenfluramine, a serotonin releaser (blocking challenge), and a PET scan comprising the intravenous injection of 1 mg/kg of d-fenfluramine 30 min after the radiotracer injection (displacement challenge). Data were analyzed with regions of interest and voxel-based approaches. A lp-ntPET model approach was implemented to determine the dynamic of serotonin release during the challenge study. Results D-fenfluramine pretreatment elicited a massive inhibition of [18F]F13640 labelling in regions known to express 5-HT1A receptors, e.g., raphe nuclei, hippocampus, thalamus, anterior cingulate cortex, caudate putamen, occipital, frontal and parietal cortices and grey matter of cerebellum. Administration of d-fenfluramine during PET acquisition indicates changes in occupancy from 10 % (thalamus) to 31% (grey matter of cerebellum) even though the dissociation rate of [18F]F13640 over the 90 min acquisition time was modest. The lp-ntPET simulation succeeded in differentiating the control and challenge conditions. Conclusions The present findings demonstrate that labelling of 5-HT1A receptors with [18F]F13640 is sensitive to serotonin concentration fluctuations in vivo. Although the data underline the need to perform longer PET scan to ensure accurate measure of displacement, they support clinical development of [18F]F13640 as a tool to explore experimental paradigms involving physiological or pathological
ISSN:1662-453X
1662-4548
1662-453X
DOI:10.3389/fnins.2021.622423