Cannabidiol modulation of oxidative stress and signalling.

Q4 Neuroscience Neuronal signaling Pub Date : 2021-08-24 eCollection Date: 2021-09-01 DOI:10.1042/NS20200080
Sónia R Pereira, Becky Hackett, David N O'Driscoll, Melody Cui Sun, Eric J Downer
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引用次数: 24

Abstract

Cannabidiol (CBD), one of the primary non-euphoric components in the Cannabis sativa L. plant, has undergone clinical development over the last number of years as a therapeutic for patients with Lennox-Gastaut syndrome and Dravet syndromes. This phytocannabinoid demonstrates functional and pharmacological diversity, and research data indicate that CBD is a comparable antioxidant to common antioxidants. This review gathers the latest knowledge regarding the impact of CBD on oxidative signalling, with focus on the proclivity of CBD to regulate antioxidants and control the production of reactive oxygen species. CBD is considered an attractive therapeutic agent for neuroimmune disorders, and a body of literature indicates that CBD can regulate redox function at multiple levels, with a range of downstream effects on cells and tissues. However, pro-oxidant capacity of CBD has also been reported, and hence caution must be applied when considering CBD from a therapeutic standpoint. Such pro- and antioxidant functions of CBD may be cell- and model-dependent and may also be influenced by CBD dose, the duration of CBD treatment and the underlying pathology.

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大麻二酚调节氧化应激和信号传导。
大麻二酚(CBD)是大麻植物中主要的非兴奋成分之一,在过去的几年里,作为lenox - gastaut综合征和Dravet综合征患者的治疗药物,已经经历了临床发展。这种植物大麻素具有功能和药理多样性,研究数据表明CBD是一种与普通抗氧化剂相当的抗氧化剂。本文综述了CBD对氧化信号传导影响的最新研究进展,重点介绍了CBD调节抗氧化剂和控制活性氧产生的倾向。CBD被认为是一种有吸引力的神经免疫疾病治疗剂,大量文献表明,CBD可以在多个水平上调节氧化还原功能,对细胞和组织产生一系列下游作用。然而,CBD的促氧化能力也有报道,因此,从治疗的角度考虑CBD时必须谨慎。CBD的这种促氧化和抗氧化功能可能依赖于细胞和模型,也可能受到CBD剂量、CBD治疗持续时间和潜在病理的影响。
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4.60
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审稿时长
14 weeks
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