Protective effect of Salidroside on hypoxia‐related liver oxidative stress and inflammation via Nrf2 and JAK2/STAT3 signaling pathways

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Abstract

High‐altitude hypoxia‐induced oxidative stress and inflammation played an essential role in the incidence and development of liver injury. Salidroside (Sal), a phenylpropanoid glycoside extracted from the plant Rhodiola rosea, has recently demonstrated antioxidant, anti‐inflammatory, and antihypoxia properties. Herein, we hypothesized that salidroside may alleviate hypoxia‐induced liver injury via antioxidant and antiinflammatory‐related pathways. A high‐altitude hypoxia animal model was established using hypobaric chamber. Male SD rats were randomly divided into the control group, hypoxia group, control +Sal group, and hypoxia +Sal group. Salidroside treatment significantly inhibited hypoxia‐induced increases of serum and hepatic pro‐inflammatory cytokines release, hepatic ROS production and MDA contents; attenuated hypoxia‐induced decrease of hepatic SOD, CAT, and GSH‐Px activities. Furthermore, salidroside treatment also potentiated the activation of Nrf2‐mediated anti‐oxidant pathway, as indicated by upregulation of n‐Nrf2 and its downstream HO‐1 and NQO‐1. In vitro study found that blocking the Nrf2 pathway using specific inhibitor ML385 significantly reversed the protective effect of salidroside on hypoxia‐induced liver oxidative stress. In addition, salidroside treatment significantly inhibited hepatic pro‐inflammatory cytokines release via JAK2/STAT3‐mediated pathway. Taken together, our findings suggested that salidroside protected against hypoxia‐induced hepatic oxidative stress and inflammation via Nrf2 and JAK2/STAT3 signaling pathways.

Abstract

Protective mechanisms of salidroside against hypoxia‐induced liver injury. Salidroside protected liver from hypoxia‐induced oxidative stress via the Nrf2 signaling pathway. The anti‐inflammatory effect of salidroside was dependent on the inhibition of the JAK2/STAT3 pathway combining with the activation of the Nrf2 pathway.

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Nrf2 signaling pathway: Pivotal roles in inflammation.

Syed Minhaj Uddin Ahmed, Lin Luo, Akhileshwar Namani … (2017)

Inflammation is the most common feature of many chronic diseases and complications, while playing critical roles in carcinogenesis. Several studies have demonstrated that Nrf2 contributes to the anti-inflammatory process by orchestrating the recruitment of inflammatory cells and regulating gene expression through the antioxidant response element (ARE). The Keap1 (Kelch-like ECH-associated protein)/Nrf2 (NF-E2 p45-related factor 2)/ARE signaling pathway mainly regulates anti-inflammatory gene expression and inhibits the progression of inflammation. Therefore, the identification of new Nrf2-dependent anti-inflammatory phytochemicals has become a key point in drug discovery. In this review, we discuss the members of the Keap1/Nrf2/ARE signal pathway and its downstream genes, the effects of this pathway on animal models of inflammatory diseases, and crosstalk with the NF-κB pathway. In addition we also discuss about the regulation of NLRP3 inflammasome by Nrf2. Besides this, we summarize the current scenario of the development of anti-inflammatory phytochemicals and others that mediate the Nrf2/ARE signaling pathway.

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Nrf2-Keap1 signaling in oxidative and reductive stress

Rosario Donato, Alba Minelli, Ileana Giambanco … (2018)

Nrf2 and its endogenous inhibitor, Keap1, function as a ubiquitous, evolutionarily conserved intracellular defense mechanism to counteract oxidative stress. Sequestered by cytoplasmic Keap1 and targeted to proteasomal degradation in basal conditions, in case of oxidative stress Nrf2 detaches from Keap1 and translocates to the nucleus, where it heterodimerizes with one of the small Maf proteins. The heterodimers recognize the AREs, that are enhancer sequences present in the regulatory regions of Nrf2 target genes, essential for the recruitment of key factors for transcription. In the present review we briefly introduce the Nrf2-Keap1 system and describe Nrf2 functions, illustrate the Nrf2-NF-κB cross-talk, and highlight the effects of the Nrf2-Keap1 system in the physiology and pathophysiology of striated muscle tissue taking into account its role(s) in oxidative stress and reductive stress.

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The Role of Oxidative Stress and Antioxidants in Liver Diseases

Sha Li, Hor-Yue Tan, Ning Wang … (2015)

A complex antioxidant system has been developed in mammals to relieve oxidative stress. However, excessive reactive species derived from oxygen and nitrogen may still lead to oxidative damage to tissue and organs. Oxidative stress has been considered as a conjoint pathological mechanism, and it contributes to initiation and progression of liver injury. A lot of risk factors, including alcohol, drugs, environmental pollutants and irradiation, may induce oxidative stress in liver, which in turn results in severe liver diseases, such as alcoholic liver disease and non-alcoholic steatohepatitis. Application of antioxidants signifies a rational curative strategy to prevent and cure liver diseases involving oxidative stress. Although conclusions drawn from clinical studies remain uncertain, animal studies have revealed the promising in vivo therapeutic effect of antioxidants on liver diseases. Natural antioxidants contained in edible or medicinal plants often possess strong antioxidant and free radical scavenging abilities as well as anti-inflammatory action, which are also supposed to be the basis of other bioactivities and health benefits. In this review, PubMed was extensively searched for literature research. The keywords for searching oxidative stress were free radicals, reactive oxygen, nitrogen species, anti-oxidative therapy, Chinese medicines, natural products, antioxidants and liver diseases. The literature, including ours, with studies on oxidative stress and anti-oxidative therapy in liver diseases were the focus. Various factors that cause oxidative stress in liver and effects of antioxidants in the prevention and treatment of liver diseases were summarized, questioned, and discussed.

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Author and article information

Contributors

Lianghong Teng:

ORCID: https://orcid.org/0000-0003-2997-9470

tenglianghong@163.com

Journal

Journal ID (nlm-ta): Food Sci Nutr

Journal ID (iso-abbrev): Food Sci Nutr

Journal ID (doi): 10.1002/(ISSN)2048-7177

Journal ID (publisher-id): FSN3

Title: Food Science & Nutrition

Publisher: John Wiley and Sons Inc. (Hoboken )

ISSN (Electronic): 2048-7177

Publication date (Electronic): 10 July 2021

Publication date Collection: September 2021

Volume: 9

Issue: 9 ( doiID: 10.1002/fsn3.v9.9 )

Pages: 5060-5069

Affiliations

[ ¹ ] Department of Pathology Xuanwu Hospital Capital Medical University Beijing China

[ ² ] Department of Pathophysiology Institute of Basic Medical Sciences Chinese Academy of Medical Sciences (CAMS) School of Basic Medicine Peking Union Medical College (PUMC) Beijing China

[ ³ ] Department of anatomy School of Basic Medicine Binzhou Medical University Yantai China

Author notes

[*] [* ] Correspondence

Lianghong Teng, Department of Pathology, Xuanwu Hospital Capital Medical University, No. 45, Changchun Street, Xicheng District, Beijing 100053, China.

Email: tenglianghong@ 123456163.com

Author information

Yanlei Xiong https://orcid.org/0000-0001-8555-494X

Yanlian Xiong https://orcid.org/0000-0001-5178-8932

Lianghong Teng https://orcid.org/0000-0003-2997-9470

Article

Publisher ID: FSN32459

DOI: 10.1002/fsn3.2459

PMC ID: 8441355

PubMed ID: 34532015

SO-VID: 95b779b5-25f3-423c-8c79-84397ca000f0

License:

This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

History

Date revision received : 17 June 2021

Date received : 15 April 2021

Date accepted : 21 June 2021

Page count

Figures: 7, Tables: 0, Pages: 10, Words: 5613

Funding

Funded by: National Natural Science Foundation of China , doi 10.13039/501100007129;

Award ID: 81700760

Funded by: Natural Science Foundation of Shandong Province , doi 10.13039/501100007129;

Award ID: ZR2018QH002

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cover-date September 2021

details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_JATSPMC version:6.0.7 mode:remove_FC converted:15.09.2021

Protective effect of Salidroside on hypoxia‐related liver oxidative stress and inflammation via Nrf2 and JAK2/STAT3 signaling pathways

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Most cited references 38

Nrf2 signaling pathway: Pivotal roles in inflammation.

Nrf2-Keap1 signaling in oxidative and reductive stress

The Role of Oxidative Stress and Antioxidants in Liver Diseases

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