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Research Article | Open Access | Just Accepted

Polyphenol-rich extract from Sanghuangporous vaninii against acetaminophen-induced liver injury by blocking ferroptosis via NRF2/GPX4 pathway

Peng Liu^{^a}, Yuyang Wang^{^a^,^c}, Wanchao Chen^{^a}, Di Wu^{^a}, Zhong Zhang^{^a}, Zhengpeng Li^{^a}, Anqiang Zhang^{^b}, Wen Li^{^a}, Yan Yang^{^a}(

)

^aInstitute of Edible Fungi, Shanghai Academy of Agricultural Sciences, National Engineering Research Center of Edible Fungi, Key Laboratory of Edible Fungi Resources and Utilization (South), Ministry of Agriculture, 201403 Shanghai, China

^b College of Food Science and Engineering, Zhejiang University of Technology, 310014 Hangzhou, China

^c College of Food Science & Technology, Shanghai Ocean University, 201306 Shanghai, China

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Abstract

Acetaminophen (APAP) used as an antipyretic and analgesic agent can cause acute liver injury (AILI) under overdose. Sanghuangporous vaninii (S. vaninii) is a edible fungus with abundant metabolites exhibits excellent hepatoprotective activities, but the effect for AILI is not yet fully understood. In this study, the polyphenol-rich extract from S. vaninii (PSV) was prepared, with a total phenolic content of 75.72% and 34 compounds. The data of hepatoprotection indicated that PSV obviously alleviated the hepatocellular injury induced by APAP in vivo and in vitro. The protective mechanism of PSV against APAP-induced AILI might be attributed to the activating NRF2/GPX4 pathway. Based on network pharmacology analysis, the active components of PSV such as caffeic acid, osmundacetone and hispolone played a key role in hepatoprotection of PSV. Consequently, this study highlights the protection of PSV on AILI, which provides new insight into bioactivities of S. vaninii.

Keywords

ferroptosis polyphenol acetaminophen hepatotoxicity Sanghuangporous vaninii

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Food Science and Human Wellness

DOI: 10.26599/FSHW.2024.9250217

Cite this article:

Liu P, Wang Y, Chen W, et al. Polyphenol-rich extract from Sanghuangporous vaninii against acetaminophen-induced liver injury by blocking ferroptosis via NRF2/GPX4 pathway. Food Science and Human Wellness, 2024, https://doi.org/10.26599/FSHW.2024.9250217

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Received: 06 December 2023

Revised: 31 January 2024

Accepted: 18 March 2024

Available online: 17 July 2024

Reprints and Permission requests may be sought directly from editorial office.
Email: nanores@tup.tsinghua.edu.cn