Yu-ih Lee scite author profile

Colon cancer is one of the most common cancers. In this study, we isolated a lignan [(−)-(2R,3R)-1,4-O-diferuloylsecoisolariciresinol, DFS] from Alnus japonica (Betulaceae) and investigated its biological activity and mechanism of action on colon cancer. DFS reduced the viability of colon cancer cells and induced cell cycle arrest. DFS also suppressed β-catenin nuclear translocation and β-catenin target gene expression through a reduction in FoxM1 protein. To assess the mechanism of the action of DFS, we investigated the effect of DFS on endogenous and exogenous FoxM1 protein degradation in colon cancer cells. DFS-induced FoxM1 protein degradation was suppressed by lysosomal inhibitors, chloroquine and bafilomycin A1, but not by knock-down of proteasomal proteins. The mechanism of DFS for FoxM1 degradation is lysosomal dependent, which was not reported before. Furthermore, we found that FoxM1 degradation was partially lysosomal-dependent under normal conditions. These observations indicate that DFS from A. japonica suppresses colon cancer cell proliferation by reducing β-catenin nuclear translocation. DFS induces lysosomal-dependent FoxM1 protein degradation. This is the first report on the lysosomal degradation of FoxM1 by a small molecule. DFS may be useful in treating cancers that feature the elevated expression of FoxM1.

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Diarylheptanoids suppress proliferation of pancreatic cancer PANC-1 cells through modulating shh-Gli-FoxM1 pathway

Dong

Jeong

Lee

et al. 2017

Arch. Pharm. Res.

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Pancreatic cancer is one of the leading causes of cancer, and it has the lowest 5-year survival rates. It is necessary to develop more potent anti-pancreatic cancer drugs to overcome the fast metastasis and resistance to surgery, radiotherapy, chemotherapy, and combinations of these. We have identified several diarylheptanoids as anti-pancreatic cancer agents from Alpinia officinarum (lesser galangal) and Alnus japonica. These diarylheptanoids suppressed cell proliferation and induced the cell cycle arrest of pancreatic cancer cells (PANC-1). Among them, the most potent compounds 1 and 7 inhibited the shh-Gli-FoxM1 pathway and their target gene expression in PANC-1 cells. Furthermore, they suppressed the expression of the cell cycle associated genes that were rescued by the overexpression of exogenous FoxM1. Taken together, (E)-7-(4-hydroxy-3-methoxyphenyl)-1-phenylhept-4-en-3-one (1) from Alpinia officinarum (lesser galangal) and platyphyllenone (7) from Alnus japonica inhibit PANC-1 cell proliferation by suppressing the shh-Gli-FoxM1 pathway, and they can be potential candidates for anti-pancreatic cancer drug development.

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Stilbenoids from Rheum undulatum Protect Hepatocytes Against Oxidative Stress Through AMPK Activation

et al. 2015

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Oxidative stress promotes several diseases, including liver disease. We have isolated several stilbenoids from Rheum undulatum to investigate their hepatoprotective activities and mechanism. Stilbenoids from R. undulatum protects hepatocytes against arachidonic acid + iron (AA + Fe) induced oxidative stress. Pterostilbene (compound 5) shows stronger activity than the others. Trimethoxystilbenoid (compound 6) shows best activity on protection of HepG2 cells from AA + Fe-induced oxidative stress, and trans-stilbenoid (compound 7) shows weak activity. These stilbenoids suppress ROS generation in AA + Fe-treated HepG2 cells and also suppress AA + Fe-induced MMP disruption. Their protective effects on AA + Fe-induced MMP disruption were abrogated by treatment of AMP-activated protein kinase (AMPK) inhibitor, compound C or transfection of dominant negative form of AMPK. Taken together, stilbenoids from R. undulatum protect hepatocytes against AA + Fe-induced oxidative stress through AMPK activation. And the methoxy groups in the aryl groups are important for their cytoprotective activity.

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Diarylheptanoids from lesser galangal suppress human colon cancer cell growth through modulating Wnt/β-catenin pathway

Dong

Lee

Zhao

et al. 2015

Journal of Functional Foods

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(−)‐Nyasol, isolated from Anemarrhena asphodeloides suppresses neuroinflammatory response through the inhibition of I‐[kappa]B[alpha]degradation in LPS‐stimulated BV‐2 microglial cells

Lee

Chang

et al. 2012

The FASEB Journal

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Activation of microglia has been associated with pathological hallmarks of several neurodegenerative diseases. The regulation of microglial activation by inhibiting the production of pro‐inflammatory molecules can be useful therapeutic approach against neurodegenerative disorders.Anemarrhena asphodeloides Bunge (Liliaceae) has been used as an anti‐pyretic, anti‐inflammatory and anti‐diabetic agent in traditional medicine in Korea, China and Japan. (−)‐Nyasol, a norlignan isolated from Anemarrhena asphodeloides, showed anti‐inflammatory potential in LPS‐activated BV‐2 microglial cells. (−)‐Nyasol suppressed the mRNA levels of tumor necrosis factor α (TNF‐α) and Interleukin 1β (IL‐1β) in activated microglial cells. It also inhibited the production of nitric oxide (NO) and prostaglandin E2 (PGE2) by down‐regulation of inducible nitric oxide synthase (i‐NOS) and cyclooxygenase‐2 (COX‐2), respectively. These inhibitory effects were correlated with the suppression of LPS‐induced nuclear factor κB (NF‐κB) nuclear translocation through the inactivation of p38 mitogen‐activated protein kinase (MAPK). These results suggest that (−)‐nyasol can be a modulator in neuro‐inflammatory conditions induced by microglial activation.

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Yu-ih Lee

A lignan induces lysosomal dependent degradation of FoxM1 protein to suppress β-catenin nuclear translocation

Diarylheptanoids suppress proliferation of pancreatic cancer PANC-1 cells through modulating shh-Gli-FoxM1 pathway

Stilbenoids from Rheum undulatum Protect Hepatocytes Against Oxidative Stress Through AMPK Activation

Diarylheptanoids from lesser galangal suppress human colon cancer cell growth through modulating Wnt/β-catenin pathway

(−)‐Nyasol, isolated from Anemarrhena asphodeloides suppresses neuroinflammatory response through the inhibition of I‐[kappa]B[alpha]degradation in LPS‐stimulated BV‐2 microglial cells

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