Ion channel dysregulation and cellular adaptations to alpha-synuclein in stressful pacemakers of the parkinsonian brainstem

IF 12 1区 医学 Q1 PHARMACOLOGY & PHARMACY
Wei-Hua Chiu , Nadine Wattad , Joshua A. Goldberg
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Abstract

Parkinson's disease (PD) is diagnosed by its cardinal motor symptoms that are associated with the loss of dopamine neurons in the substantia nigra pars compacta (SNc). However, PD patients suffer from various non-motor symptoms years before diagnosis. These prodromal symptoms are thought to be associated with the appearance of Lewy body pathologies (LBP) in brainstem regions such as the dorsal motor nucleus of the vagus (DMV), the locus coeruleus (LC) and others. The neurons in these regions that are vulnerable to LBP are all slow autonomous pacemaker neurons that exhibit elevated oxidative stress due to their perpetual influx of Ca2+ ions. Aggregation of toxic α-Synuclein (aSyn) – the main constituent of LBP – during the long prodromal period challenges these vulnerable neurons, presumably altering their biophysics and physiology. In contrast to pathophysiology of late stage parkinsonism which is well-documented, little is known about the pathophysiology of the brainstem during prodromal PD.

In this review, we discuss ion channel dysregulation associated with aSyn aggregation in brainstem pacemaker neurons and their cellular responses to them. While toxic aSyn elevates oxidative stress in SNc and LC pacemaker neurons and exacerbates their phenotype, DMV neurons mount an adaptive response that mitigates the oxidative stress. Ion channel dysregulation and cellular adaptations may be the drivers of the prodromal symptoms of PD. For example, selective targeting of toxic aSyn to DMV pacemakers, elevates the surface density of K+ channels, which slows their firing rate, resulting in reduced parasympathetic tone to the gastrointestinal tract, which resembles the prodromal PD symptoms of dysphagia and constipation. The divergent responses of SNc & LC vs. DMV pacemaker neurons may explain why the latter outlive the former despite presenting LBPs earlier. Elucidation the brainstem pathophysiology of prodromal PD could pave the way for physiological biomarkers, earlier diagnosis and novel neuroprotective therapies for PD.

帕金森脑干应激性起搏器中的离子通道失调和细胞对α-突触核蛋白的适应。
帕金森病(Parkinson's disease,PD)的诊断依据是其主要的运动症状,而这些症状与黑质髓鞘(substantia nigra pars compacta,SNc)中多巴胺神经元的缺失有关。然而,帕金森病患者在确诊前数年会出现各种非运动症状。这些前驱症状被认为与路易体病变(LBP)在迷走神经背运动核(DMV)、脑小叶位置(LC)等脑干区域的出现有关。这些区域中易受枸杞多糖影响的神经元都是自主起搏的慢速神经元,它们会因持续流入 Ca2+ 离子而表现出氧化应激升高。枸杞多糖的主要成分--有毒的α-突触核蛋白(aSyn)在漫长的前驱期聚集,对这些脆弱的神经元构成挑战,可能会改变它们的生物物理学和生理学。帕金森病晚期的病理生理学已得到充分证实,但与之形成鲜明对比的是,人们对帕金森病前驱期脑干的病理生理学知之甚少。在本综述中,我们将讨论脑干起搏神经元中与 aSyn 聚集相关的离子通道失调及其细胞反应。毒性 aSyn 会增加 SNc 和 LC 起搏器神经元的氧化应激并加重其表型,而 DMV 神经元则会做出适应性反应,减轻氧化应激。离子通道失调和细胞适应可能是导致帕金森病前驱症状的驱动因素。例如,选择性地将毒性 aSyn 靶向 DMV 起搏器会提高 K+ 通道的表面密度,从而减慢其发射率,导致胃肠道副交感神经张力降低,这与吞咽困难和便秘等帕金森病前驱症状相似。SNc和LC起搏神经元与DMV起搏神经元的反应不同,这可能解释了为什么后者的寿命长于前者,而前者却更早出现枸杞多糖症。阐明前驱型帕金森病的脑干病理生理学可为帕金森病的生理生物标志物、早期诊断和新型神经保护疗法铺平道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
23.00
自引率
0.70%
发文量
222
审稿时长
90 days
期刊介绍: Pharmacology & Therapeutics, in its 20th year, delivers lucid, critical, and authoritative reviews on current pharmacological topics.Articles, commissioned by the editor, follow specific author instructions.This journal maintains its scientific excellence and ranks among the top 10 most cited journals in pharmacology.
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