化学
运动障碍
多巴胺
生物利用度
帕金森病
多巴胺受体D3
药理学
多巴胺受体D2
多巴胺受体
疾病
受体
神经科学
内科学
生物化学
心理学
医学
作者
Rosa Marı́a Rodrı́guez Sarmiento,Stefan Berchtold,Nenad Manevski,Lothar Lindemann,Fabian Dey,Thomas Clairfeuille,Davide Amendola,Nicolas Vautrelle,Venceslas Duveau,Eoin C. O’Connor
标识
DOI:10.1021/acs.jmedchem.5c00294
摘要
Dopamine replacement therapies for Parkinson’s disease often produce dyskinesias with long-term use. Published studies suggest that introducing β-arrestin signaling might be protective for dyskinesia. We advanced known noncatecholamine D1/D5 receptor G protein-biased agonists and found that removal of oxygen in the linker from published compounds limited β-arrestin recruitment, whereas introduction of nitrogen on the central o -phenyl linker favored β-arrestin recruitment and provided orally bioavailable compounds. Cryogenic electron microscopy suggested key receptor–ligand interactions influencing the different bias behaviors. We discovered compound 24, a D1/D5 receptor agonist with β-arrestin recruitment and properties for use in vivo . We compared 24 with tavapadon, which shows weak efficacy for β-arrestin signaling, in a rat model of Parkinson’s disease with L-DOPA-induced dyskinesias. At particular doses, compound 24 produced efficacy comparable to L-DOPA, but with fewer concomitant dyskinesias. This first in vivo study suggests that β-arrestin may have a positive influence on reducing dyskinesias following acute administration.
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