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Mechanism of Action of Cyanidin 3-O-Glucoside in Gluconeogenesis and Oxidative Stress-Induced Cancer Cell Senescenceopen access

Authors
Jia, YaoyaoWu, ChunyanRivera-Piza, AdrianaKim, Yeon-JiLee, Ji HaeLee, Sung-Joon
Issue Date
4월-2022
Publisher
MDPI
Keywords
Cyanidin 3-O-glucoside; natural products; phytochemicals; antioxidants; adiponectin signaling; hepatic autophagy; oxidative stress; anti-carcinogenic activity; HepG2 cells
Citation
ANTIOXIDANTS, v.11, no.4
Indexed
SCIE
SCOPUS
Journal Title
ANTIOXIDANTS
Volume
11
Number
4
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/141873
DOI
10.3390/antiox11040749
ISSN
2076-3921
Abstract
Cyanidin-3-O-glucoside (C3G) is a natural anthocyanin abundant in fruits and vegetables that interacts and possibly modulates energy metabolism and oxidative stress. This study investigated the effect of C3G on gluconeogenesis and cancer cell senescence. C3G activates adenosine monophosphate-activated protein kinase (AMPK), a cellular energy sensor involved in metabolism and the aging process. C3G suppressed hepatic gluconeogenesis by reducing the expression of gluconeogenic genes through the phosphorylation inactivation of CRTC2 and HDAC5 coactivators via AMPK. C3G did not directly interact with AMPK but, instead, activated AMPK through the adiponectin receptor signaling pathway, as demonstrated through adiponectin receptor gene knockdown experiments. In addition, C3G increased cellular AMP levels in cultured hepatocytes, and the oral administration of C3G in mice elevated their plasma adiponectin concentrations. These effects collectively contribute to the activation of AMPK. In addition, C3G showed potent antioxidant activity and induced cellular senescence, and apoptosis in oxidative-stress induced senescence in hepatocarcinoma cells. C3G increased senescence-associated beta-galactosidase expression, while increasing the expression levels of P16, P21 and P53, key markers of cellular senescence. These findings demonstrate that anthocyanin C3G achieves hypoglycemic effects via AMPK activation and the subsequent suppression of gluconeogenesis and exhibits anti-cancer activity through the induction of apoptosis and cellular senescence.
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