Haiyan Wen scite author profile

Haiyan Wen

5Publications

94Citation Statements Received

84Citation Statements Given

How they've been cited

139

How they cite others

151

Affiliations

Hangzhou Women’s Hospital, Renmin Hospital of Wuhan University, Fuyang Normal University

Publications

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Magnolol induces apoptosis in osteosarcoma cells via G0/G1 phase arrest and p53‐mediated mitochondrial pathway

Zhou

Wen

2019

J of Cellular Biochemistry

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Osteosarcoma is a highly invasive primary malignancy of bone. Magnolol is biologically active, which shows antitumor effects in a variety of cancer cell lines. However, it has not been elucidated magnolol's effects on human osteosarcoma cells (HOC). This study aimed to determine antitumor activity of magnolol and illustrate the molecular mechanism in HOC. Magnolol showed significant inhibition effect of growth on MG‐63 and 143B cells and induced apoptosis and cell cycle arrest at G0/G1. In osteosarcoma cells, magnolol upregulated expressions of proapoptosis proteins and suppressed expressions of antiapoptosis proteins. Additionally, under the pretreatment of pifithrin‐a (PFT‐a, a p53 inhibitor), the magnolol‐induced apoptosis was significantly reversed. The results above indicated that magnolol induces apoptosis in osteosarcoma cells may via G0/G1 phase arrest and p53‐mediated mitochondrial pathway.

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Induction of apoptosis by magnolol via the mitochondrial pathway and cell cycle arrest in renal carcinoma cells

Wen

Zhou

Song

2019

Biochemical and Biophysical Research Communications

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A chondroprotective effect of moracin on IL-1β-induced primary rat chondrocytes and an osteoarthritis rat model through Nrf2/HO-1 and NF-κB axes

et al. 2020

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Inhibiting of self-renewal, migration and invasion of ovarian cancer stem cells by blocking TGF-β pathway

Wen

Qian

et al. 2020

PLoS ONE

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Objective To investigate the effect and mechanism of SB525334 on self-renewal, migration and invasion of ovarian cancer stem cells. Methods ALDHhigh-expressing cancer stem cells (CSCs) were isolated from human ovarian cancer cell line SKOV-3 by flow cytometry and treated with 2μg/mL SB525334 for 6h. The sphere forming assay was used to detect the ability of self-renewal of CSCs and the colony formation assay was used to detect the tumorigenicity in vitro. Transwell migration and invasion assay were used to detect the migration and invasion ability of CSCs. To further explore the mechanism, real-time quantitative PCR and flow cytometry were used to detect the mRNA and protein expression of TGF-β, Smad2, Smad3, phosphorylated Smad2, phosphorylated Smad3 and Smad4, respectively. Expressions of epithelial-mesenchymal transition (EMT)related genes E-cadherin, Snail, Vimentin were also assessed. Results The self-renewal ability, tumorigenicity in vitro, migration and invasion ability of CSCs were significantly attenuated after SB525334 treatment. The expressions of TGF-β, phosphorylated Smad2, phosphorylated Smad3, Snail, and Vimentin were decreased, while Smad4 and E-cadherin expressions were increased. Conclusion SB525334 may inhibit the self-renewal, invasion and migration of ovarian CSCs by blocking the TGF-β/Smad/EMT pathway.

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Low-dose combined exposure of carboxylated black carbon and heavy metal lead induced potentiation of oxidative stress, DNA damage, inflammation, and apoptosis in BEAS-2B cells

Jiang

Wen

Zhou

et al. 2020

Ecotoxicology and Environmental Safety

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Haiyan Wen

Magnolol induces apoptosis in osteosarcoma cells via G0/G1 phase arrest and p53‐mediated mitochondrial pathway

Induction of apoptosis by magnolol via the mitochondrial pathway and cell cycle arrest in renal carcinoma cells

A chondroprotective effect of moracin on IL-1β-induced primary rat chondrocytes and an osteoarthritis rat model through Nrf2/HO-1 and NF-κB axes

Inhibiting of self-renewal, migration and invasion of ovarian cancer stem cells by blocking TGF-β pathway

Low-dose combined exposure of carboxylated black carbon and heavy metal lead induced potentiation of oxidative stress, DNA damage, inflammation, and apoptosis in BEAS-2B cells

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