[18F]Fluspidine – a PET tracer for imaging of 1 receptors in the central nervous system

F. A. Ludwig, E. Laurini, J. Schmidt, S. Pricl, W. Deuther-Conrad, B. Wünsch

Research article (journal) | Peer reviewed

Abstract

σ1 receptors play a crucial role in various neurological and neurodegenerative diseases including pain, psychosis, Alzheimer’s disease, and depression. Spirocyclic piperidines represent a promising class of potent σ1 receptor ligands. The relationship between structural modifications and σ1 receptor affinity and selectivity over σ2 receptors led to the 2-fluoroethyl derivative fluspidine (2, Ki = 0.59 nM). Enantiomerically pure (S)-configured fluspidine ((S)-2) was prepared by the enantioselective reduction of the α,β-unsaturated ester 23 with NaBH4 and the enantiomerically pure co-catalyst (S,S)-24. The pharmacokinetic properties of both fluspidine enantiomers (R)-2 and (S)-2 were analyzed in vitro. Molecular dynamics simulations revealed very similar interactions of both fluspidine enantiomers with the σ1 receptor protein, with a strong ionic interaction between the protonated amino moiety of the piperidine ring and the COO- moiety of glutamate 172. The 18F-labeled radiotracers (S)-[18F]2 and (R)-[18F]2 were synthesized in automated syntheses using a TRACERlab FX FN synthesis module. High radiochemical yields and radiochemical purity were achieved. Radiometabolites were not found in the brains of mice, piglets, and rhesus monkeys. While both enantiomers revealed similar initial brain uptake, the slow washout of (R)-[18F]2 indicated a kind of irreversible binding. In the first clinical trial, (S)-[18F]2 was used to visualize σ1 receptors in the brains of patients with major depressive disorder (MDD). This study revealed an increased density of σ1 receptors in cortico-striato-(para)limbic brain regions of MDD patients. The increased density of σ1 receptors correlated with the severity of the depressive symptoms. In an occupancy study with the PET tracer (S)-[18F]2, the selective binding of pridopidine at σ1 receptors in the brain of healthy volunteers and HD patients was shown.

Details about the publication

JournalPharmaceuticals
Volume17
Page range166-166
StatusPublished
Release year2024
Language in which the publication is writtenEnglish
DOI10.3390/ph17020166
Keywordsσ1 receptor ligands; σ1:σ2 selectivity; structure–affinity relationships; enantioselective synthesis; pharmacokinetics; logD7.4 value; plasma protein binding; biotransformation; molecular dynamics simulations; ligand–σ1 receptor interactions; radiosynthesis; automated radiosynthesis; radiometabolites; biodistribution; irreversible binding of (R)-[18F]2; major depressive disorder; increased σ1 receptor density; occupancy study with pridopidine

Authors from the University of Münster

Wünsch, Bernhard
Professur für Pharmazeutische Chemie (Prof. Wünsch)