Publications by authors named "J C van Wieringen"
Background: Agonist positron emission tomography (PET) tracers for dopamine D2/3 receptors (D2/3Rs) offer greater sensitivity to changes in endogenous dopamine levels than D2/3R antagonist tracers. D2/3R agonist tracers currently available for clinical research are labeled with the short-lived isotope carbon-11, which limits their use. We aimed to develop high-affinity D2R agonists amenable for labeling with the longer-living fluorine-18.
View Article and Find Full Text PDFFor imaging of dopamine D2/3 receptors, agonist tracers are favoured over antagonists because they are more sensitive to detection of dopamine release and because they may selectively label the high-affinity receptor state. We have developed novel D2/3 receptor selective agonists that can be radiolabelled with [(123)I], which label is advantageous over most other labels, such as carbon-11, as it has a longer half-life. Particularly, we considered (R) N-[7-hydroxychroman-2-yl]-methyl 4-iodobenzyl amine (compound 1) as an attractive candidate for development as it shows high binding affinity to D2/3 receptors in vitro, and here we report on the characterization of this first [(123)I]-labelled D2/3 receptor agonist radiopharmaceutical intended for SPECT imaging.
View Article and Find Full Text PDFArticle Synopsis
- The muscarinic M1 receptor (M1R) is crucial for cognitive functions, and its loss in certain neuropsychiatric disorders can lead to cognitive dysfunction, making imaging M1R important for understanding these conditions.
- This study investigated the affinity and selectivity of (127)I-iododexetimide, a compound potentially useful for imaging M1R, through various assays and brain distribution studies in rats and genetically modified mice.
- Results showed that (127)I-iododexetimide has high affinity for M1R, with significant binding in M1R-rich areas of the brain, indicating its potential as an effective radiopharmaceutical for studying cognitive-related disorders.
Unlabelled: Dopamine D(2/3) receptor (D(2/3)R) agonist PET tracers are better suited for the imaging of synaptic dopaminergic neurotransmission than D(2/3)R antagonists and may also offer the opportunity to study in vivo the high-affinity state of D(2/3)R (D(2/3)RHigh). With the aim to develop (18)F-labeled D2/3R agonists suitable for widespread clinical application, we report here on the synthesis and in vitro and in vivo evaluation of a D(2/3)R agonist ligand from the aminomethyl chromane (AMC) class-(R)-2-[(4-(18)F-fluorobenzylamino)methyl]chroman-7-ol ((18)F- AMC20: ).
Methods: In vitro affinities of AMC20: toward dopaminergic receptor subtypes were measured in membrane homogenates prepared from HEK293 cells expressing human dopamine receptors.
Article Synopsis
- The study examines dopamine D2/3 receptor (D2/3R) agonists for their effectiveness in detecting dopamine release, finding that they prefer high-affinity receptor states compared to antagonists.
- Researchers measured the intracellular signaling effects of various D2/3R agonists, specifically looking at how they activate the cAMP and β-arrestin-2 pathways.
- Results indicated that all agonists acted as full agonists in both pathways without showing biased agonism, suggesting that external factors like drugs and mental health issues could impact the binding of these radiopharmaceuticals.