Professor | 程继东 | 数字化转型顾问

	Upload Avatar (500 x 500)
Name	程继东
Contact Information	njidongcheng36@hotmail.com
Language ability	中文, 英语, 日语
Province	福建

Upload Avatar (500 x 500)

Name

程继东

Contact Information

njidongcheng36@hotmail.com

Language ability

中文, 英语, 日语

Province

福建

University/Lab Affiliation and Title	厦门大学
Faculty	Medical
Academic Background & Achievements	1983-1988: 医学学士, 江西医学院 1991-1994: 医学硕士, 汕头大学医学院 2000-2003: 医学博士, 日本兵库医科大学
Work Experience	2003-2004: 博士后研究员, 日本兵库医科大学 2004-2009: 室长, 日本国立循环器中心研究所细胞生物学研究室 2009-2016: 教授/博导, 副院长, 学术委员会主任, 广东省分子影像重点实验室主任, 汕头大学医学院第一附属医院 2017-至今: 特别招聘教授, 日本兵库医科大学糖尿病内分泌代谢科 2018-至今: 教授/博导, 厦门大学医学院 2019-至今: 副院长, 厦门大学附属翔安医院 2022-至今: 厦门大学医学伦理委员会主任委员; 厦门市核酸代谢与调控转化医学重点实验室主任

University/Lab Affiliation and Title

厦门大学

Faculty

Medical

Academic Background & Achievements

1983-1988: 医学学士, 江西医学院
1991-1994: 医学硕士, 汕头大学医学院
2000-2003: 医学博士, 日本兵库医科大学

Work Experience

2003-2004: 博士后研究员, 日本兵库医科大学
2004-2009: 室长, 日本国立循环器中心研究所细胞生物学研究室
2009-2016: 教授/博导, 副院长, 学术委员会主任, 广东省分子影像重点实验室主任, 汕头大学医学院第一附属医院
2017-至今: 特别招聘教授, 日本兵库医科大学糖尿病内分泌代谢科
2018-至今: 教授/博导, 厦门大学医学院
2019-至今: 副院长, 厦门大学附属翔安医院
2022-至今: 厦门大学医学伦理委员会主任委员; 厦门市核酸代谢与调控转化医学重点实验室主任

Areas of Focus	代谢性疾病的分子机制分子肝病学
Publications	Mechanistic insights of soluble uric acid-induced insulin resistance: Insulin signaling and beyond., Yu W, Xie D, Yamamoto T, Koyama H, Cheng J., 2023 High Uric Acid Promotes Atherosclerotic Plaque Instability by Apoptosis Targeted Autophagy., Liu W, Yu W, Xie D, Wang Q, Zhao H, Lv J, He F, Xu C, Chen B, Yamamoto T, Koyama H, Cheng J., 2022 Hyperuricemia contributes to glucose intolerance of hepatic inflammatory macrophages and impairs the insulin signaling pathway via IRS2-proteasome degradation., Zhao H, He F, Lu J, Wang M, Yan Y, Chen B, Xie D, Xu C, Wang Q, Liu W, Yu W, Xi Y, Linqian Yu, Yamamoto T, Koyama H, Zhang C, Wang W and Cheng J., 2022 High Level of Uric Acid Promotes Atherosclerosis by Targeting NRF2-Mediated Autophagy Dysfunction and Ferroptosis., Yu W, Liu W, Xie D, Wang Q, Xu C, Zhao H, Lv J, He F, Chen B, Yamamoto T, Koyama H, Cheng J., 2022 Autophagy protects against high uric acid-induced hepatic insulin resistance., He F, Wang M, Zhao H, Xie D, Lv J, Liu W, Yu W, Wang Q, Chen B, Xu C, Yamamoto T, Koyama H, Cheng J., 2022 Vespakinin-M, a natural peptide from Vespa magnifica, promotes functional recovery in stroke mice., Zhao H, Wang M, Gao Y, Wu X, Xiao H, Yang D, He F, Lv J, Xie D, Wang Q, Liu W, Luo J, Yang Z, Zhang C, Cheng J, Zhao Y., 2022 Silencing TXNIP ameliorates high uric acid-induced insulin resistance via the IRS2/AKT and Nrf2/HO-1 pathways in macrophages., Yu W, Chen C, Zhuang W, Wang W, Liu W, Zhao H, Lv J, Xie D, Wang Q, He F, Xu C, Chen B, Yamamoto T, Koyama H, Cheng J., 2021 High uric acid induces liver fat accumulation via ROS/JNK/AP-1 signaling., Xie D, Zhao H, Lu J, He F, Liu W, Yu W, Wang Q, Hisatome I, Yamamoto T, Koyama H, Cheng J., 2021 High uric acid promotes dysfunction in pancreatic beta cells by blocking IRS2/AKT signalling., Hu Y, Zhao H, Lu J, Xie D, Wang Q, Huang T, Xin H, Hisatome I, Yamamoto T, Wang W, Cheng J., 2021 Uric acid inhibits HMGB1-TLR4-NF-kappaB signaling to alleviate oxygen-glucose deprivation/reoxygenation injury of microglia., Wang Q, Zhao H, Gao Y, Lu J, Xie D, Yu W, He F, Liu W, Hisatome I, Yamamoto T, Wang W, Cheng J., 2021 Uric Acid and Cardiovascular Disease: An Update From Molecular Mechanism to Clinical Perspective., Yu W , Cheng J., 2020 Metformin ameliorates high uric acid-induced insulin resistance in skeletal muscle cells., Yuan H, Hu Y, Zhu Y, Zhang Y, Luo C, Li Z, Wen T, Zhuang W, Zou J, Hong L, Zhang X, Hisatome I, Yamamoto T, Cheng J., 2017 无症候性高尿酸血症的治疗-糖尿病的合併について, 程　継東　山本哲也., 2016 High uric acid directly inhibits insulin signalling and induces insulin resistance., Zhu Y, Hu Y, Huang T, Zhang Y, Li Z, Luo C, Luo Y, Yuan H, Hisatome I, Yamamoto T, Cheng J., 2014 AMPD1: a novel therapeutic target for reversing insulin resistance., Cheng J, Morisaki H, Toyama K, Sugimoto N, Shintani T, Tandelilin A, Hirase T, Holmes EW, Morisaki T., 2014 Uric acid induces oxidative stress and growth inhibition by activating adenosine monophosphate-activated protein kinase and extracellular signal-regulated kinase signal pathways in rat pancreatic β-cells., Zhang Y, Yamamoto T, Hisatome Y, Li Y, Cheng W, Sun N, Cai B, Huang T, Zhu Y, Li Z, Jing X, Cheng J., 2013 Recombinant HbsAg inhibits LPS-induced COX-2 expression and IL-18 production by interfering with the NF kappa B pathway in a human monocytic cell line, THP-1., Cheng J, Imanishi H, Morisaki H, Liu W, Nakamura H, Morisaki T, Hada T., 2005 肝線維化と肝癌におけるcyclooxygenase 2に関する検討, 程　継東., 2004 NS-398, a selective cyclooxygenase 2 inhibitor, inhibited cell growth and induced cell cycle arrest in human hepatocellular carcinoma cell lines., Cheng J, Imanishi H, Amuro Y, Hada T., 2002 Detection of TTV in serum of patients with chronic liver disease and interferon efficacy., Cheng J, Hada T, Fukui K, Ohno M, Hara N, Ohkawa T, Yokoyama Y, Imanishi H, Iijima H, Shimomura S, Yamamoto T, Amuro Y, Higashino K., 1999 食管鳞癌自发细胞凋亡和核增殖抗原p53关系的研究., 程继东, 李淳, 沈忠英., 1998

Areas of Focus

代谢性疾病的分子机制
分子肝病学

Publications

Mechanistic insights of soluble uric acid-induced insulin resistance: Insulin signaling and beyond., Yu W, Xie D, Yamamoto T, Koyama H, Cheng J*., 2023
High Uric Acid Promotes Atherosclerotic Plaque Instability by Apoptosis Targeted Autophagy., Liu W, Yu W, Xie D, Wang Q, Zhao H, Lv J, He F, Xu C, Chen B, Yamamoto T, Koyama H, Cheng J*., 2022
Hyperuricemia contributes to glucose intolerance of hepatic inflammatory macrophages and impairs the insulin signaling pathway via IRS2-proteasome degradation., Zhao H, He F, Lu J, Wang M, Yan Y, Chen B, Xie D, Xu C, Wang Q, Liu W, Yu W, Xi Y, Linqian Yu, Yamamoto T, Koyama H, Zhang C, Wang W and Cheng J*., 2022
High Level of Uric Acid Promotes Atherosclerosis by Targeting NRF2-Mediated Autophagy Dysfunction and Ferroptosis., Yu W, Liu W, Xie D, Wang Q, Xu C, Zhao H, Lv J, He F, Chen B, Yamamoto T, Koyama H, Cheng J*., 2022
Autophagy protects against high uric acid-induced hepatic insulin resistance., He F, Wang M, Zhao H, Xie D, Lv J, Liu W, Yu W, Wang Q, Chen B, Xu C, Yamamoto T, Koyama H, Cheng J*., 2022
Vespakinin-M, a natural peptide from Vespa magnifica, promotes functional recovery in stroke mice., Zhao H, Wang M, Gao Y, Wu X, Xiao H, Yang D, He F, Lv J, Xie D, Wang Q, Liu W, Luo J, Yang Z, Zhang C*, Cheng J*, Zhao Y*., 2022
Silencing TXNIP ameliorates high uric acid-induced insulin resistance via the IRS2/AKT and Nrf2/HO-1 pathways in macrophages., Yu W, Chen C, Zhuang W, Wang W, Liu W, Zhao H, Lv J, Xie D, Wang Q, He F, Xu C, Chen B, Yamamoto T, Koyama H, Cheng J*., 2021
High uric acid induces liver fat accumulation via ROS/JNK/AP-1 signaling., Xie D, Zhao H, Lu J, He F, Liu W, Yu W, Wang Q, Hisatome I, Yamamoto T, Koyama H, Cheng J*., 2021
High uric acid promotes dysfunction in pancreatic beta cells by blocking IRS2/AKT signalling., Hu Y, Zhao H, Lu J, Xie D, Wang Q, Huang T, Xin H, Hisatome I, Yamamoto T, Wang W*, Cheng J*., 2021
Uric acid inhibits HMGB1-TLR4-NF-kappaB signaling to alleviate oxygen-glucose deprivation/reoxygenation injury of microglia., Wang Q, Zhao H, Gao Y, Lu J, Xie D, Yu W, He F, Liu W, Hisatome I, Yamamoto T, Wang W*, Cheng J*., 2021
Uric Acid and Cardiovascular Disease: An Update From Molecular Mechanism to Clinical Perspective., Yu W , Cheng J*., 2020
Metformin ameliorates high uric acid-induced insulin resistance in skeletal muscle cells., Yuan H, Hu Y, Zhu Y, Zhang Y, Luo C, Li Z, Wen T, Zhuang W, Zou J, Hong L, Zhang X, Hisatome I, Yamamoto T, Cheng J*., 2017
无症候性高尿酸血症的治疗-糖尿病的合併について, 程　継東　山本哲也., 2016
High uric acid directly inhibits insulin signalling and induces insulin resistance., Zhu Y, Hu Y, Huang T, Zhang Y, Li Z, Luo C, Luo Y, Yuan H, Hisatome I, Yamamoto T, Cheng J*., 2014
AMPD1: a novel therapeutic target for reversing insulin resistance., Cheng J, Morisaki H, Toyama K, Sugimoto N, Shintani T, Tandelilin A, Hirase T, Holmes EW, Morisaki T., 2014
Uric acid induces oxidative stress and growth inhibition by activating adenosine monophosphate-activated protein kinase and extracellular signal-regulated kinase signal pathways in rat pancreatic β-cells., Zhang Y, Yamamoto T, Hisatome Y, Li Y, Cheng W, Sun N, Cai B, Huang T, Zhu Y, Li Z, Jing X, Cheng J*., 2013
Recombinant HbsAg inhibits LPS-induced COX-2 expression and IL-18 production by interfering with the NF kappa B pathway in a human monocytic cell line, THP-1., Cheng J*, Imanishi H, Morisaki H, Liu W, Nakamura H, Morisaki T, Hada T., 2005
肝線維化と肝癌におけるcyclooxygenase 2に関する検討, 程　継東., 2004
NS-398, a selective cyclooxygenase 2 inhibitor, inhibited cell growth and induced cell cycle arrest in human hepatocellular carcinoma cell lines., Cheng J*, Imanishi H, Amuro Y, Hada T., 2002
Detection of TTV in serum of patients with chronic liver disease and interferon efficacy., Cheng J, Hada T, Fukui K, Ohno M, Hara N, Ohkawa T, Yokoyama Y, Imanishi H, Iijima H, Shimomura S, Yamamoto T, Amuro Y, Higashino K., 1999
食管鳞癌自发细胞凋亡和核增殖抗原p53关系的研究., 程继东, 李淳, 沈忠英., 1998

代谢性疾病分子机制高尿酸血症痛风代谢综合征葡萄糖代谢脂质代谢核酸代谢肝癌肝炎

刘伟 - 浙江大学

易聪 - 浙江大学

徐晓军 - 浙江大学

Area of Focus
脂质代谢 | 药理学 | 内分泌 | 代谢 | 中药 | 药物发现 | 临床研究 | 分子生物学 | 代谢性疾病 | 治疗学

View All

Personal Information

Academic Information

Research

联系我们

还未创建账户?

Personal Information

Academic Information

Research

联系我们