Parthenolide, bioactive compound of Chrysanthemum parthenium L., ameliorates fibrogenesis and inflammation in hepatic fibrosis via regulating the crosstalk of TLR4 and STAT3 signaling pathway

Parthenolide, bioactive compound of Chrysanthemum parthenium L., ameliorates fibrogenesis and inflammation in hepatic fibrosis via regulating the crosstalk of TLR4 and STAT3 signaling pathway

The current study focused on the regulatory effects of parthenolide (PNL), a bioactive component derived from Chrysanthemum parthenium L., against hepatic fibrosis via regulating the crosstalk of toll‐like receptor 4 (TLR4) and signal transducer and activator of transcription 3 (STAT3) in activated...

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Published in:Phytotherapy research Vol. 35; no. 10; pp. 5680 - 5693
Main Authors: Cui, Zhen‐Yu, Wang, Ge, Zhang, Jing, Song, Jian, Jiang, Yu‐Chen, Dou, Jia‐Yi, Lian, Li‐Hua, Nan, Ji‐Xing, Wu, Yan‐Ling
Format: Journal Article
Language:English
Published: Chichester, UK John Wiley & Sons, Ltd 01-10-2021
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Subjects:
Apoptosis
Bioactive compounds
Biological activity
Chrysanthemum
Collagen (type I)
Collagenase 3
Crosstalk
crosstalk of TLR4 and STAT3
Cytokines
Fibrosis
hepatic fibrosis
hepatic stellate cells
Inflammation
Inhibitors
Lipopolysaccharides
Liver
Macrophages
Niclosamide
parthenolide
Signal transduction
Signaling
Stat3 protein
Stellate cells
Tissue inhibitor of metalloproteinase 1
TLR4 protein
Toll-like receptors
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Summary:The current study focused on the regulatory effects of parthenolide (PNL), a bioactive component derived from Chrysanthemum parthenium L., against hepatic fibrosis via regulating the crosstalk of toll‐like receptor 4 (TLR4) and signal transducer and activator of transcription 3 (STAT3) in activated hepatic stellate cells (HSCs). HSCs or Raw 264.7 macrophages were activated by TGF‐β or LPS for 1 hr, respectively, and then treated with PNL, CLI‐095 (TLR4 inhibitor), or Niclosamide (STAT3 inhibitor) for the indicated time to detect the crosstalk of TLR4 and STAT3. PNL significantly decreased the expressions of α‐SMA, collagen I, and the ratio of TIMP1 and MMP13 in TGF‐β‐activated HSCs. PNL significantly reduced the releases of pro‐inflammatory cytokines, including IL‐6, IL‐1β, IL‐1α, IL‐18, and regulated signaling P2X7r/NLRP3 axis activation. PNL obviously induced the apoptosis of activated HSCs by regulating bcl‐2 and caspases family. PNL significantly inhibited the expressions of TLR4 and STAT3, including their downstream signaling. PNL could regulate the crosstalk of TLR4 and STAT3, which were verified by their inhibitors in activated HSCs or Raw 264.7 cell macrophages. Thus, PNL could decrease the expressions of fibrosis markers, reduce the releases of inflammatory cytokines, and also induce the apoptosis of activated HSCs. In conclusion, PNL could bi‐directionally inhibit TLR4 and STAT3 signaling pathway, suggesting that blocking the crosstalk of TLR4 and STAT3 might be the potential mechanism of PNL against hepatic fibrosis.
Bibliography:Funding information
Department of Science and Technology of Jilin Province, Grant/Award Numbers: 20180201065YY, 20180414048GH, 20190304084YY; National Natural Science Foundation of China, Grant/Award Numbers: 81660689, 81760668, 81973555; the Innovation and Entrepreneurship Talent Project of Jilin Province, Grant/Award Number: 2020023
ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:0951-418X
1099-1573
DOI:10.1002/ptr.7214