Litcius/Paper detail

D1 Agonist Improved Movement of Parkinsonian Nonhuman Primates with Limited Dyskinesia Side Effects

Damon Young, Michael Popiolek, Patrick Trapa, Kari R. Fonseca, Julie Brevard, David Gray, Rouba Kozak

2020ACS Chemical Neuroscience28 citationsDOI

Abstract

Parkinson's disease is a progressive neurodegenerative disease characterized by striatal dopaminergic loss. L-DOPA treatment replaces lost dopamine and enables motor function; however, eventually, fluctuating efficacy and side effects associated with its use become challenging for many patients. Here, we demonstrate, in a clinically translatable nonhuman primate model of parkinsonian motor symptoms, that treatment with the partial D1 receptor agonist CVL-751, formerly known as PF-06649751, is just as effective as L-DOPA in enabling movement and reducing disability. Importantly, CVL-751 efficacy is observed with less of the concomitant dyskinesia side effect associated with L-DOPA treatment. Data presented suggest that partial D1 agonists may be an effective and important treatment strategy for the management of Parkinson's patients.

Topics & Concepts

DyskinesiaDopaminergicLevodopaParkinson's diseaseAgonistDopamineNeuroscienceMotor symptomsDiseaseMedicineDopamine agonistSide effect (computer science)PsychologyReceptorInternal medicineProgramming languageComputer scienceParkinson's Disease Mechanisms and TreatmentsNeuroscience and Neuropharmacology ResearchNeurological disorders and treatments