5-Demethylnobiletin and its major metabolites:efficient preparation and mechanism of their anti-proliferation activity in HepG2 cells  

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作  者:Yanping Xin Ting Zheng Man Zhang Ruiqiang Zhang Siyue Zhu Dongli Li Denggao Zhao Yanyan Ma Chi-Tang Ho Qingrong Huang 

机构地区:[1]School of Biotechnology and Health Sciences,Wuyi University,Jiangmen 529020,China [2]International Healthcare Innovation Institute(Jiangmen),Jiangmen 529020,China [3]Department of Food Science,Rutgers University,New Jersey 08901,USA

出  处:《Food Science and Human Wellness》2022年第5期1191-1200,共10页食品科学与人类健康(英文)

摘  要:5-Demethylnobile tin(5-DMN),a hydroxylated polymethoxyflavone(OH-PMF)identified in aged citrus peels,has demonstrated health benefiting effects in previous studies.5-DMN undergoes biotransformation in vivo,yielding 5,3’-didemethylnobiletin(5,3’-DDMN),5,4’-didemethylnobiletin(5,4’-DDMN)and5,3’,4’-tridemethylnobiletin(5,3’,4’-TDMN).However,the anti-cancer effects of 5-DMN and its in vivo metabolites against HepG2 cells remain unclear.In this study,an efficient chemical synthetic method was developed to obtain 5-DMN and its 3 metabolites,and their molecular structures were confirmed by;H NMR and LC-MS.Cytotoxicity,cell cycle arrestment,apoptosis and caspase-3 expression were investigated to evaluate the anti-liver cancer effects of these OH-PMFs on HepG2 cells.The results showed that all 4 compounds inhibited the proliferation of HepG2 cells in a concentration-dependent manner.Their anti-proliferative activity was exerted through inducing G2/M phase arrestment,cell apoptosis and promoting expression of a key apoptotic protein called cleaved caspase-3.Our results indicated that 5,3’-DDMN and5,3’,4’-TDMN showed a stronger inhibitory activity on cell proliferation than 5-DMN,followed by 5,4’-DDMN.The expression of cleaved caspase-3 was the highest in cells treated with 5,4’-DDMN,implying that the apoptosis induced by other OH-PMFs might be mediated by other apoptotic execution proteins.Our research reveals the application potential and scientific evidence for the production and functionality of OH-PMFs.

关 键 词:Hydroxylated polymethoxyflavones Chemical synthesis HEPG2 Cell cycle APOPTOSIS 

分 类 号:TQ460.1[化学工程—制药化工] TS218[轻工技术与工程—粮食、油脂及植物蛋白工程]

 

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