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Neuronal vulnerability in Parkinson disease: Should the focus be on axons and synaptic terminals?


ABSTRACT: While current effective therapies are available for the symptomatic control of PD, treatments to halt the progressive neurodegeneration still do not exist. Loss of dopamine neurons in the SNc and dopamine terminals in the striatum drive the motor features of PD. Multiple lines of research point to several pathways which may contribute to dopaminergic neurodegeneration. These pathways include extensive axonal arborization, mitochondrial dysfunction, dopamine's biochemical properties, abnormal protein accumulation of ?-synuclein, defective autophagy and lysosomal degradation, and synaptic impairment. Thus, understanding the essential features and mechanisms of dopaminergic neuronal vulnerability is a major scientific challenge and highlights an outstanding need for fostering effective therapies against neurodegeneration in PD. This article, which arose from the Movement Disorders 2018 Conference, discusses and reviews the possible mechanisms underlying neuronal vulnerability and potential therapeutic approaches in PD. © 2019 International Parkinson and Movement Disorder Society.

SUBMITTER: Wong YC 

PROVIDER: S-EPMC6879792 | biostudies-literature | 2019 Oct

REPOSITORIES: biostudies-literature

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Neuronal vulnerability in Parkinson disease: Should the focus be on axons and synaptic terminals?

Wong Yvette C YC   Luk Kelvin K   Purtell Kerry K   Burke Nanni Samuel S   Stoessl A Jon AJ   Trudeau Louis-Eric LE   Yue Zhenyu Z   Krainc Dimitri D   Oertel Wolfgang W   Obeso Jose A JA   Volpicelli-Daley Laura A LA  

Movement disorders : official journal of the Movement Disorder Society 20190904 10


While current effective therapies are available for the symptomatic control of PD, treatments to halt the progressive neurodegeneration still do not exist. Loss of dopamine neurons in the SNc and dopamine terminals in the striatum drive the motor features of PD. Multiple lines of research point to several pathways which may contribute to dopaminergic neurodegeneration. These pathways include extensive axonal arborization, mitochondrial dysfunction, dopamine's biochemical properties, abnormal pro  ...[more]

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