摘要
背景:帕金森病 (PD) 是最常见的神经系统疾病之一,可严重影响日常活动的能力。 PD 的临床表现包括运动和非运动症状。运动症状通常涉及运动状况,如震颤、僵硬、缓慢和平衡受损。相比之下,非运动症状通常不明显,但会影响各种器官系统,如泌尿系统和胃肠系统,以及心理健康。基因突变和有毒环境因素对 PD 有显着影响;然而,其原因和潜在机制仍然未知。目前,多巴胺激动剂、RNA 分子和抗氧化剂等治疗可以在一定程度上缓解 PD 引发的运动症状。然而,这些药物不能有效地阻止持续的多巴胺能损伤,主要是因为血脑屏障 (BBB) 降低了药物输送的效率。最近,细胞外囊泡(EVs)作为一种新型药物递送平台,由于其优异的生物相容性、无毒性穿透血脑屏障的能力以及靶点特异性,已被广泛应用于各种神经系统疾病,包括中风和脑肿瘤。因此,EVs 为治疗 PD 提供了一种有前景的疗法。
目标:本综述重点关注实践中基于 EV 的新疗法。在此,我们简要介绍了 EVs 的生物起源、组成、分离和表征,并讨论了将治疗剂加载到 EVs 上的策略以及最近在 PD 治疗中的应用。此外,我们讨论了有关新型有效疗法的临床前和临床研究方向的观点。
方法:在 PubMed(2020 年 6 月更新)中进行了有关基于细胞外囊泡的 PD 治疗的文献检索。治疗、疗法、药物递送、细胞外囊泡及其组合是搜索查询。系统评价和原始出版物都包括在内。根据相关性选择和比较搜索结果。过去五年发表的文章被列为重中之重。
结论:PD 是一种异质性疾病,可以根据患者的症状和进展水平使用药物方法(例如多巴胺激动剂和左旋多巴)和非药物方法(例如音乐)进行治疗。尽管目前的治疗已证明有效,但临床挑战仍然存在,因为 BBB 减少了接受的药物并降低了药物输送的功效,从而削弱了治疗效果。因此,EVs 作为一种新兴的递送平台,在 PD 治疗方面非常有前景,因为它们可以通过加载或功能化过程轻松地以高治疗效率穿过 BBB。然而,确定安全的 EV 来源、可靠地纯化和分离高产量的 EV 以及提高 EV 中治疗负荷的功效在该领域仍然具有挑战性。因此,未来的研究应集中在产生大规模外泌体载体和设计封装在 EV 中的新有效药物以获得更好的疗效。
关键词: 帕金森病 (PD)、血脑屏障 (BBB)、治疗、细胞外囊泡、分离、药物递送。
Current Medicinal Chemistry
Title:Extracellular Vesicles in the Treatment of Parkinson’s Disease: A Review
Volume: 28 Issue: 31
关键词: 帕金森病 (PD)、血脑屏障 (BBB)、治疗、细胞外囊泡、分离、药物递送。
摘要:
Background: Parkinson’s disease (PD) is one of the most common neurological disorders that can severely affect the ability to perform daily activities. The clinical presentation of PD includes motor and nonmotor symptoms. The motor symptoms generally involve movement conditions like tremors, rigidity, slowness, and impaired balance. In contrast, the nonmotor symptoms are often not apparent but can affect various organ systems, such as the urinary and gastrointestinal systems, and mental health. Gene mutations and toxic environmental factors have contributed significantly to PD; nevertheless, its cause and underlying mechanism remain unknown. Currently, treatments such as dopamine agonists, RNA molecules, and antioxidants can, to some extent, alleviate the motor symptoms triggered by PD. However, these medicines cannot effectively halt ongoing dopaminergic damage, mainly because the blood-brain barrier (BBB) lowers the efficiency of drug delivery. Recently, extracellular vesicles (EVs), a novel drug delivery platform, have been widely used in various neurological diseases, including stroke and brain tumors, because of their excellent biocompatibility, their ability to penetrate the BBB without toxicity, and their target specificity. EVs thus provide a promising therapeutic for treating PD.
Objective: This review focuses on novel therapies based on EVs in practice. Herein, we briefly introduce the biogenesis, composition, isolation, and characterization of EVs, and we discuss strategies for loading therapeutic agents onto EVs and recent applications for PD treatment. Moreover, we discuss perspectives on the direction of preclinical and clinical studies regarding novel and effective therapies.
Methods: A literature search regarding PD treatment based on extracellular vesicles was performed in PubMed (updated in June 2020). Treatment, therapy, drug delivery, extracellular vesicles, and their combinations were the search queries. Both systematic reviews and original publications were included. Searched results were selected and compared based on relevance. Articles published in the last five years were given top priority.
Conclusion: PD is a heterogeneous disease that can be treated by using pharmacologic approaches (e.g. dopamine agonists and levodopa) and nonpharmacologic approaches (e.g. music), based on symptoms and progression level in patients. Even though current treatments have demonstrated effectiveness, clinical challenges remain because the BBB reduces the medication received and lowers the efficacy of drug delivery, which impairs the treatment’s effect. Therefore, EVs, as an emerging delivery platform, are highly promising for PD treatment since they can readily cross the BBB with high therapeutic efficiency through the loading or functionalization process. However, defining a safe source of EVs, reliably purifying and isolating EVs with high yield, and improving the efficacy of therapeutic loading in EVs remain challenging in this field. Therefore, future investigations should focus on generating large-scale exosomal carriers and designing new effective drugs encapsulated in EVs for better efficacy.
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Cite this article as:
Extracellular Vesicles in the Treatment of Parkinson’s Disease: A Review, Current Medicinal Chemistry 2021; 28 (31) . https://dx.doi.org/10.2174/0929867328666210113170941
DOI https://dx.doi.org/10.2174/0929867328666210113170941 |
Print ISSN 0929-8673 |
Publisher Name Bentham Science Publisher |
Online ISSN 1875-533X |
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