[1] Zhang J, Lv W, Liu X, Sun Z, Zeng M, Kang J, Zhang Q, Liu F, Su J*, Cao K*, Liu J*. Ginsenoside Rh4 prevents endothelial dysfunction as a novel AMPK activator. British Journal of Pharmacology, 2024, accepted. (IF=7.3)
[2] Cao K#, Xu J#, Cao W#, Wang X, Lv W, Zeng M, Zou X, Liu J*, Feng Z*. Assembly of mitochondrial succinate dehydrogenase in human health and disease. Free Radical Biology Medicine, 2023, 207:247-259. (IF=7.4)
[3] Zhang J, Lv W, Zhang G, Zeng M, Cao W, Su J, Cao K*, Liu J*. Nrf2 and mitochondria form a mutually regulating circuit in the prevention and treatment of metabolic syndrome. Antioxidants and Redox Signaling. 2023, Dec 4, accepted. (IF 6.6)
[4] Xiong Y, Xu J, Cao W, Zhang J, Feng Z, Cao K*, Liu J*. Hydroxytyrosol improves strenuous exercise-associated cardiac pathological changes via modulation of mitochondrial homeostasis. Food & Function. 2022, 13(16): 8676-8684. (IF= 6.317)
[5] Wang X#, Zhang X#, Cao K#, Zeng M#, Fu X#, Zheng A, Zhang F, Gao F, Zou X, Li H, Li M, Lv W, Xu J, Long J, Zang W, Gao F, Chen J, Ding J*, Liu J*, Feng Z*. Cardiac disruption of SDHAF4-mediated mitochondrial complex II assembly promotes dilated cardiomyopathy. Nature Communications. 2022, 13(1):3947. (IF= 17.694)
[6] Cao K, Feng Z, Gao F, Zang W, Liu J*. Mitoepigenetics: An intriguing regulatory layer in aging and metabolic-related diseases. Free Radical Biology Medicine, 2021, 177: 337-346. (IF=8.101)
[7] Cao K#, Lv W#, Wang X#, Dong S, Liu X, Yang T, Xu J, Zeng M, Zou X, Zhao D, Ma Q, Lin M, Long J, Zang W, Gao F, Feng Z*, Liu J*. Hypermethylation of Hepatic Mitochondrial ND6 Provokes Systemic Insulin Resistance. Advanced Science. 2021, 8(11):2004507. (IF=17.521)
[8] Cao K, Wang K, Yang M, Liu X, Lv W, Liu J*. Punicalagin improves hepatic lipid metabolism via modulation of oxidative stress and mitochondrial biogenesis in hyperlipidemic mice. Food & Function. 2020, 11 (11): 9624-9633. (IF=6.317)
[9] Cao K#, Lv W#, Hu Shao, Gao J, Liu J*, Feng Z*. Punicalagin Activates AMPK/PGC‐1α/Nrf2 Cascade in Mice: The Potential Protective Effect Against Prenatal Stress. Molecular Nutrition Food Research, 2020, 64 (14): e2000312. (IF=6.575)
[10] Cao K, Lv W, Liu X, Fan Y, Wang K, Feng Z, Liu J, Zang W, Xing L, Liu J*. Herba houttuyniae extract benefits hyperlipidemic mice via activation of the AMPK/PGC-1α/Nrf2 cascade. Nutrients, 2020, 12 (1), 164. (IF=6.706)
[11] Cao K, Xu J, Pu W, Dong Z, Sun L, Zang W, Gao F, Zhang Y, Feng Z*, Liu J*. Punicalagin, an active component in pomegranate, ameliorates cardiac mitochondrial impairment in obese rats via AMPK activation. Scientific Reports, 2015, 5: 14014. (IF=5.578)
[12] Cao K#, Xu J#, Zou X, Li Y, Chen C, Zheng A, Li H, Szeto IM, Shi Y, Long J, Liu J*, Feng Z*. Hydroxytyrosol prevents diet-induced metabolic syndrome and attenuates mitochondrial abnormalities in obese mice. Free Radical Biology Medicine, 2014, 67: 396-407. (IF=5.736)
[13] Cao K, Zheng A, Xu J, Li H, Liu J, Peng Y, Long J, Zou X, Li Y, Chen C, Liu J, Feng Z*. AMPK activation prevents prenatal stress-induced cognitive impairment: modulation of mitochondrial content and oxidative stress. Free Radical Biology Medicine, 2014, 75: 156-166. (IF=5.736)
[14] Xu J, Cao K, Liu X, Zhao L, Feng Z, Liu J*. Punicalagin Regulates Signaling Pathways in Inflammation-Associated Chronic Diseases. Antioxidants. 2022, 11(1), 29.(IF=7.675)
[15] Liu X, Cao K, Lv W, Feng Z, Liu J, Gao J, Li H, Zang W, Liu, J*. Punicalagin attenuates endothelial dysfunction by activating FoxO1, a pivotal regulating switch of mitochondrial biogenesis. Free Radical Biology Medicine, 2019, 135: 251-260. (IF=6.170)
[16] Liu, X, Cao K, Lv W, Feng Z, Liu J, Gao J, Wang Y, Qin C, Liu J, Zang W, Liu J*. Aqueous extract of Houttuynia cordata ameliorates aortic endothelial injury during hyperlipidemia via FoxO1 and p38 MAPK pathway. Journal of Functional Foods, 2019, 62: 103510. (IF= 3.701)
[17] Xu J, Cao K, Feng Z*, Liu J*. Benefits of the soluble and insoluble fractions of bitter gourd in mice fed a high-fat diet. Journal of Functional Foods, 2018, 42: 216-223. (IF= 3.197)
[18] Xu J#, Cao K#, Li Y, Zou X, Chen C, Szeto IM, Dong Z, Zhao Y, Shi Y, Wang J, Liu J*, Feng Z*. Bitter gourd inhibits the development of obesity-associated fatty liver in C57BL/6 mice fed a high-fat diet. Journal of Nutrition, 2014, 144 (4): 475-483. (IF=3.875)
[19] Chen F, Bai M, Cao K, Zhao Y, Cao X, Wei J, Wu N, Li J, Wang L, Fan C, Zhao Y. Programming Enzyme-Initiated Autonomous DNAzyme Nanodevices in Living Cells. ACS Nano, 2017, 11 (12): 11908-11914. (IF=13.7)
[20] Xu J, Wang X, Cao K, Dong Z, Feng Z*, Liu J*. Combination of β-glucan and Morus alba L. Leaf Extract Promotes Metabolic Benefits in Mice Fed a High-Fat Diet. Nutrients, 2017, 9 (10), 1110. (IF=3.55)
[21] Zheng A, Li H, Cao K, Xu J, Zou X, Li Y, Chen C, Liu J, Feng Z*. Maternal hydroxytyrosol administration improves neurogenesis and cognitive function in prenatally stressed offspring. Journal of Nutritional Biochemistry, 2015, 26 (2): 190-199. (IF=3.794)
[22] Li Y, Zou X, Cao K, Xu J, Yue T, Dai F, Zhou B, Lu W, Feng Z*, Liu J*. Curcumin analog 1, 5-bis (2-trifluoromethylphenyl)-1, 4-pentadien-3-one exhibits enhanced ability on Nrf2 activation and protection against acrolein-induced ARPE-19 cell toxicity. Toxicology and Applied Pharmacology, 2013, 272 (3): 726-735. (IF=3.705)
[23] Chen F, Bai M, Zhao Y, Cao K, Cao X, Zhao Y*. MnO2-Nanosheet-Powered Protective Janus DNA Nanomachines Supporting Robust RNA Imaging. Analytical Chemistry, 2018, 90 (3): 2271-76. (IF=6.3)
[24] Li Y, Zou X, Gao J, Cao K, Feng Z*, Liu J*. APR3 modulates oxidative stress and mitochondrial function in ARPE-19 cells. FASEB Journal, 2018, May 24: fj201800001RR. (IF=5.595)
[25] Zou X, Yan C, Shi Y, Cao K, Xu J, Wang X, Chen C, Luo C, Li Y, Gao J, Pang W, Zhao J, Zhao F, Li H, Zheng A, Sun W, Long J, Szeto IM, Zhao Y, Dong Z, Zhang P, Wang J, Lu W, Zhang Y, Liu J*, Feng Z*. Mitochondrial dysfunction in obesity-associated nonalcoholic fatty liver disease: the protective effects of pomegranate with its active component punicalagin. Antioxidants & Redox Signaling, 2014, 21 (11): 1557-1570. (IF=7.407)
[26] Zheng A, Li H, Xu J, Cao K, Pu W, Yang Z, Peng Y, Long J, Liu J*, Feng Z*. Hydroxytyrosol improves mitochondrial function and reduces oxidative stress in the brain of db/db mice: role of AMP-activated protein kinase activation. British Journal of Nutrition, 2015, 113 (11): 1667-1676. (IF=3.453)
[27] Zhao L, Feng Z, Zou X, Cao K, Xu J, Liu J*. Aging leads to elevation of O-GlcNAcylation and disruption of mitochondrial homeostasis in retina. Oxidative Medicine and Cellular Longevity, 2014, 2014: 425705. (IF=3.516)
[28] Zhao D, Zhang S, Wang X, Gao D, Liu J, Cao K, Chen L, Liu R, Liu J, Long J*. ATG7 regulates hepatic Akt phosphorylation through the c-JUN/PTEN pathway in high fat diet-induced metabolic disorder. FASEB Journal, 2019, 33 (12): 14296-14306. (IF=5.391)
[29] Gao J, Feng Z, Wang X, Zeng M, Liu J, Han S, Xu J, Chen L, Cao K, Long J. Li Z, Shen W*, Liu J*. SIRT3/SOD2 maintains osteoblast differentiation and bone formation by regulating mitochondrial stress. Cell Death and Differentiation, 2018, 25 (2): 229. (IF=8.339)
[30] Wang X Feng Z, Wang X, Yang L, Han S, Cao K, Xu J, Zhao L, Zhang Y*, Liu J*. O-GlcNAcase deficiency suppresses skeletal myogenesis and insulin sensitivity through the modulation of mitochondrial homeostasis. Diabetologia, 2016. (IF=6.671)
[31] Liu J, Peng Y, Wang X, Fan Y, Qin C, Shi L, Tang Y, Cao K, Li H, Long J*, Liu J*. Mitochondrial Dysfunction Launches Dexamethasone-Induced Skeletal Muscle Atrophy via AMPK/FOXO3 Signaling. Molecular Pharmacology, 2016, 13 (1): 73-84. (IF=4.384)
[32] Chen C, Han X, Zou X, Li Y, Yang L, Cao K, Xu J, Long J, Liu J*, Feng Z*. 4-methylene-2-octyl-5-oxotetrahydrofuran-3-carboxylic acid (C75), an inhibitor of fatty-acid synthase, suppresses the mitochondrial fatty acid synthesis pathway and impairs mitochondrial function. Journal of Biological Chemistry, 2014, 289 (24): 17184-17194. (IF=4.573)
[33] Zou X, Gao J, Zheng Y, Wang X, Chen C, Cao K, Xu J, Li Y, Lu W, Liu J, Feng Z*. Zeaxanthin induces Nrf2-mediated phase II enzymes in protection of cell death. Cell Death & Disease, 2014, 5: e1218. (IF=5.014)
[34] Zheng A, Li H, Wang X, Feng Z, Xu J, Cao K, Zhou B, Wu J*, Liu J*. Anticancer effect of a curcumin derivative B63: ROS production and mitochondrial dysfunction. Current Cancer Drug Targets, 2014, 14 (2): 156-166. (IF=3.522)
[35] 曹可,冯智辉*,刘健康*. 天然AMPK激活剂防治代谢综合征的研究进展. 生命科学研究, 2014, 18 (6): 5.
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