AI 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.
Article Abstract
Background: Dopamine D2/3 receptor (D2/3R) agonist radiopharmaceuticals are considered superior to antagonists to detect dopamine release, e.g. induced by amphetamines. Agonists bind preferentially to the high-affinity state of the dopamine D2R, which has been proposed as the reason why agonists are more sensitive to detect dopamine release than antagonist radiopharmaceuticals, but this theory has been challenged. Interestingly, not all agonists similarly activate the classic cyclic adenosine mono phosphate (cAMP) and the ?-arrestin-2 pathway, some stimulate preferentially one of these pathways; a phenomenon called biased agonism. Because these pathways can be affected separately by pathologies or drugs (including dopamine releasers), it is important to know how agonist radiotracers act on these pathways. Therefore, we characterized the intracellular signalling of the well-known D2/3R agonist radiopharmaceuticals NPA and PHNO and of several novel D2/3R agonists.
Methods: cAMP accumulation and ?-arrestin-2 recruitment were measured on cells expressing human D2R.
Results: All tested agonists showed (almost) full agonism in both pathways.
Conclusions: The tested D2/3R agonist radiopharmaceuticals did not exhibit biased agonism in vitro. Consequently, it is likely that drugs (including psychostimulants like amphetamines) and/or pathologies that influence the cAMP and/or the ?-arrestin-2 pathway may influence the binding of these radiopharmaceuticals.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4422956 | PMC |
| http://dx.doi.org/10.1186/s13550-014-0053-3 | DOI Listing |
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