虾青素与Nrf2信号通路：新治疗方法的新靶点

Astaxanthin and Nrf2 Signaling Pathway: A Novel Target for New Therapeutic Approaches.

作者信息

Ashrafizadeh Milad, Ahmadi Zahra, Yaribeygi Habib, Sathyapalan Thozhukat, Sahebkar Amirhossein

机构信息

Faculty of Engineering and Natural Sciences, Sabanci University, Orta Mahalle, Üniversite Caddesi No. 27, Orhanlı, Tuzla, 34956 Istanbul, Turkey.

PhD student of Clinical Pathology, Faculty of Veterinary Medicine, Shahid Chamran University of Ahvaz, Ahvaz-Iran.

出版信息

Mini Rev Med Chem. 2022;22(2):312-321. doi: 10.2174/1389557521666210505112834.

DOI:10.2174/1389557521666210505112834

PMID:33964864

Abstract

Astaxanthin (AST) is a naturally occurring compound isolated from various sources such as fungi, plants, salmon, and crab. However, Haematococcus Pluvialis, a green alga, is the primary source of this beta carotenoid compound. AST has several favourable biological and pharmacological activities such as antioxidant, anti-inflammatory, anti-tumor, anti-diabetes, hepatoprotective, and neuroprotective activities. Nevertheless, the exact molecular mechanisms of these protective effects of AST are unclear yet. The Nrf2 signaling pathway is one of the critical candidate signaling pathways that may be involved in these beneficial effects of AST. This signaling pathway is responsible for maintaining the redox balance in the physiological state. Upon nuclear translocation, Nrf2 signaling activates antioxidant enzymes to reduce oxidative stress and protect cells against damage. In the current study, we have reviewed the effects of AST on the Nrf2 signaling pathway, which could potentially be developed as a novel therapeutic approach for the management of various diseases.

摘要

虾青素（AST）是一种天然存在的化合物，可从真菌、植物、鲑鱼和螃蟹等多种来源中分离得到。然而，雨生红球藻这种绿藻是这种β-类胡萝卜素化合物的主要来源。AST具有多种有益的生物学和药理学活性，如抗氧化、抗炎、抗肿瘤、抗糖尿病、肝脏保护和神经保护活性。然而，AST这些保护作用的确切分子机制尚不清楚。Nrf2信号通路是可能参与AST这些有益作用的关键候选信号通路之一。该信号通路负责维持生理状态下的氧化还原平衡。核转位后，Nrf2信号激活抗氧化酶以减少氧化应激并保护细胞免受损伤。在本研究中，我们综述了AST对Nrf2信号通路的影响，这有可能被开发为一种治疗各种疾病的新型治疗方法。

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虾青素与Nrf2信号通路：新治疗方法的新靶点

Astaxanthin and Nrf2 Signaling Pathway: A Novel Target for New Therapeutic Approaches.

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