郭非凡 - 复旦大学 - 脑科学转化研究院

个人简介

郭非凡，复旦大学教授，国家重点研发项目首席科学家，“国家高层次人才”、“国务院政府特殊津贴”获得者，“上海市领军人才”、“上海市优秀学术带头人”入选者，获“上海市巾帼创新奖”、“上海市三八红旗手标兵”等称号。 2001年毕业于日本东京大学，获脑神经医学博士学位；2001-2002年和2002-2005年先后在美国明尼苏达州立大学、哈佛大学医学院Beth Israel Deaconess医学中心接受博士后训练；2005-2007年在美国宾州州立大学生物系担任助理研究教授；2007-2022年在中国科学院上海生命科学研究院和中国科学院上海营养与健康研究所先后任研究员、中科院营养代谢与食品安全重点实验室主任； 2022年2月全职加入复旦大学脑科学转化研究院任复旦大学教授、脑转院副院长。获科技部国家重点研发项目、国家杰出青年基金、基金委重点项目、基金委重大研究计划项目、上海市领军人才、学术带头人、浦江人才计划等项目的资助。获国务院政府特殊津贴、上海市巾帼创新奖、三八红旗手标兵、三八红旗手等荣誉。致力于代谢性疾病发生发展的营养感应与神经调控机制，创新性提出氨基酸是调控机体能量和糖脂代谢的关键信号分子。原创性研究工作发表在Cell Metabolism、Nature Communications、Gastroenterology、Diabetes (14篇)、Diabetologia、Autophagy等学术期刊上。

研究领域

代谢性疾病包括肥胖、糖尿病等发病人数不断攀升，中国人群患病数量均已过亿。代谢性疾病往往导致多种疾病并发或共存，特别是神经系统相关症状如抑郁、焦虑等，造成沉重社会与经济负担，但目前发病机理不清且有效治疗手段仍然缺乏。机体代谢稳态维持需要多个器官协同完成:中枢神经系统通过神经肽或神经内分泌通路调控摄食及外周代谢器官功能，而外周代谢器官也通过分泌蛋白、迷走神经等调控中枢神经功能。除遗传因素，环境因素特别是营养在这些调控中起重要作用。当以上某些环节出现异常就会导致代谢紊乱及疾病的发生。因此，迫切需要阐明中枢与外周互作机理，从而为阐明疾病发病机理及发掘治疗手段提供理论基础。具体来说，拟从以下几方面展开工作：（1）中枢神经系统调控稳态信号（2）外周组织信号影响中枢神经系统机理（3）代谢性疾病及神经功能紊乱的营养感应机理及干预新措施

近期论文

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Yuan Feixiang#, Zhou Ziheng#, Wu Shangming, Jiao Fuxin, Chen Liang, Fang Leilei, Yin Hanrui, Hu Xiaoming, Jiang Xiaoxue, Liu Kan, Xiao Fei, Jiang Haizhou, Chen Shanghai, Liu Zhanju, Shu Yousheng and Guo Feifan*. Intestinal activating transcription factor 4 regulates stress-related behavioral alterations via paraventricular thalamus in male mice. PNAS. 2023 May 9;120(19):e2215590120. Xiao Fei#, Jiang Haizhou#, Li Zi, Jiang Xiaoxue, Chen Shanghai, Niu Yuguo, Yin Hanrui, Shu Yousheng, Peng Bo, Lu Wei, Li Xiaoying, Li Zhigang, Lan Shujue, Xu Xiaoyan, Guo Feifan *. Reduced hepatic bradykinin degradation accounts for cold-induced BAT thermogenesis and WAT browning in male mice. Nature Communications. 2023 May 2;14(1):2523. Hu Xiaoming#, Jiao Fuxin#, Deng Jiali, Zhou Ziheng, Chen Shanghai, Liu Changqin, Liu Zhanju*, Guo Feifan*. Intestinal epithelial cell-specific deletion of cytokine-inducible SH2- containing protein alleviates experimental colitis in ageing mice. J Crohns Colitis. 2023 Mar 7;jjad041 Jiao Fuxin, Hu Xiaoming, Yin Hanrui, Yuan Feixiang, Zhou Ziheng, Wu Wei, Chen Shanghai, Liu Zhanju, Guo Feifan*. Inhibition of c-Jun in AgRP neurons increases stress-induced anxiety and colitis susceptibility. Commun Biol. 2023 Jan 14;6(1):50. Yuan Feixiang, Wu Shangming, Zhou Ziheng, Jiao Fuxin, Yin Hanrui, Niu Yuguo, Jiang Haizhou, Chen Shanghai, Guo Feifan*. Leucine deprivation results in antidepressant effects via GCN2 in AgRP neurons. Life Metabolism. 2023 Advance access publication 4 February. doi.org/10.1093/lifemeta/load004 Jiang Xiaoxue, liu Kan, Jiang Haizhou, Yin Hanrui, Wang En-duo, Cheng Hong, Yuan Feixiang, Xiao Fei, Wang Fenfen, Lu Wei, Peng Bo, Shu Yousheng, Li Xiaoying, Chen Shanghai, Guo Feifan*. SLC7A14 imports GABA to lysosomes and impairs hepatic insulin sensitivity via inhibiting mTORC2. Cell Reports. 2023 Jan 31;42(1):111984. Jiang Xiaoxue, Xiao Fei and Guo Feifan*. Oocyte TET3: an epigenetic modifier responsible for maternal inheritance of glucose intolerance. Signal Transduction and Targeted Therapy. 2022 Oct 8;7(1):357. Hu Xiaoming#, Niu Yuguo#, Luo Pepxiang, Xiao Fei, Yuan Feixiang, Yin Hanrui, Chen Shanghai, Guo Feifan*. Amino acid sensor GCN2 promotes SARS-CoV-2 receptor ACE2 expression in response to amino acid deprivation. Communications Biology. 2022 Jul 1;5(1):651. Xiao Fei#, Deng Jiali#, Jiao Fuxin, Hu Xiaoming, Jiang Haizhou, Yuan Feixiang, Chen Shanghai, Niu Yuguo, Jiang Xiaoxue, Guo Feifan*. Hepatic cytokine-inducible SH2-containing protein (CISH) regulates gluconeogenesis via cAMP-responsive element binding protein (CREB). FASEB J. 2022 Oct;36(10):e22541. Niu Yuguo, Jiang Haizhou, Yin Hanrui, Wang Fenfen, Hu Ronggui, Hu Xiaoming, Peng Bo, Shu Yousheng, Li Zhigang, Chen Shanghai, Guo Feifan*. Hepatokine ERAP1 Disturbs Skeletal Muscle Insulin Sensitivity Via Inhibiting USP33-Mediated ADRB2 Deubiquitination. Diabetes. 2022 May 1;71(5):921-933. Yin Hanrui, Yuan Feixiang, Jiao Fuxin, Niu Yuguo, Jiang Xiaoxue, Deng Jiali, Guo Yajie, Chen Shanghai, Zhai Qiwei, Hu Cheng*, Li Yiming*, Guo Feifan*. Intermittent Leucine Deprivation Produces Long-lasting Improvement in Insulin Sensitivity by Increasing Hepatic Gcn2 Expression. Diabetes. 2022 Feb 1;71(2):206-218 Hu Xiaoming, Guo Feifan*. Amino Acid Sensing in Metabolic Homeostasis and Health. Endocr Rev. 2021 Feb;42(1):56-76.(Invited review); Selected as "Featured article" by Endocrine Reviews Yuan Feixiang, Jiang Haizhou, Yin Hanrui, Jiang Xiaoxue, Jiao Fuxin, Chen Shanghai, Ying Hao, Chen Yan, Zhai Qiwei, Guo Feifan*. Activation of GCN2/ATF4 Signals in Amygdalar PKC-δ Neurons Promotes WAT Browning Under Leucine Deprivation. Nat Commun. 2020 Jun 5;11(1):2847 Deng Jiali, Guo Yajie, Yuan Feixiang, Chen Shanghai, Yin Hanrui, Jiang Xiaoxue, Jiao Fuxin, Wang Fenfen, Ji Hongbin, Hu Guohong, Ying Hao, Chen Yan, Zhai Qiwei, Xiao Fei*, Guo Feifan*. Autophagy inhibition prevents glucocorticoid-increased adiposity via suppressing BAT whitening. Autophagy. 2020 Mar;16(3):451-465 Hu Xiaoming, Deng Jiali, Yu Tianming, Chen Shanghai, Ge Yadong, Zhou Ziheng, Guo Yajie, Ying Hao, Zhai Qiwei, Chen Yan, Yuan Feixiang, Niu Yuguo, Shu Weigang, Chen Huimin, Ma Caiyun, Liu Zhanju*, Guo Feifan*. ATF4 Deficiency Promotes Intestinal Inflammation in Mice by Reducing Uptake of Glutamine and Expression of Antimicrobial Peptides. Gastroenterology. 2019 Mar;156(4):1098-1111 Deng Yalan, Xiao Yuzhong, Yuan Feixiang, Liu Yaping, Jiang Xiaoxue, Deng Jiali, Fejes-Toth Geza, Naray-Fejes-Toth Aniko, Chen Shanghai, Chen Yan, Ying Hao, Zhai Qiwei, Shu Yousheng*, and Guo Feifan*. SGK1/FOXO3 Signaling in Hypothalamic POMC Neurons Mediates Glucocorticoid-Increased Adiposity. Diabetes. 2018 Apr;67(4):569-580 Xiao Yuzhong, Deng Yalan, Yuan Feixiang, Xia Tingting, Liu Hao, Li Zhigang, Chen Shanghai, Liu Zhixue, Ying Hao, Liu Yong, Zhai Qiwei, Guo Feifan*. An ATF4-ATG5 signaling in hypothalamic POMC neurons regulates obesity. Autophagy. 2017 Jun 3;13(6):1088-1089 Xiao Yuzhong, Deng Yalan, Yuan Feixiang, Xia Tingting, Liu Hao, Li Zhigang, Liu Zhixue, Ying Hao, Liu Yi, Zhai Qiwei, Chen Shanghai, Guo Feifan*. An ATF4/ATG5 signaling in hypothalamic POMC neurons regulates fat mass via affecting energy expenditure. Diabetes. 2017 May;66(5):1146-1158 Deng Jiali#, Yuan Feixiang#, Guo Yajie, Xiao Yuzhou, Niu Yuguo, Deng Yalan, Han Xiao, Guan Youfei, Chen Shanghai, and Guo Feifan*.Deletion of ATF4 in AgRP neurons promotes fat loss mainly via increasing energy expenditure.Diabetes.2017 Mar,66(3):640-650 Guo Yajie#, Yu Junjie#, Deng Jiali, Liu Bin, Xiao Yuzhong, Li Kai, Xiao Fei, Yuan Feixiang, Liu Yong, Chen Shanghai, and Guo Feifan*. A Novel Function of Hepatic FOG2 in Insulin Sensitivity and Lipid Metabolism Through Peroxisome Proliferator–Activated Receptor alpha. Diabetes. 2016 Aug;65(8):2151-63 Xiao Fei#, Deng Jiali#, Guo Yajie, Niu Yuguo, Yuan Feixiang, Yu Junjie, Chen Shanghai, Guo Feifan*. BTG1 ameliorates liver steatosis by decreasing stearoyl-CoA desaturase 1 (SCD1) abundance and altering hepatic lipid metabolism. Science Signaling. 2016 May 17;9(428):ra50 Xiao Yuzhong#, Liu Hao#,Yu Junjie, Zhao Zilong, Xiao Fei, Xia Tingting, Wang Chunxia, Li Kai, Deng Jiali, Guo Yajie, Chen Shanghai, Chen Yan and Guo Feifan*. MAPK1/3 regulate hepatic lipid metabolism via ATG7-dependent autophagy. Autophagy.2016;12(3):592-3 Xiao Yuzhong#, Liu Hao#,Yu Junjie, Zhao Zilong, Xiao Fei, Xia Tingting, Wang Chunxia, Li Kai, Deng Jiali, Guo Yajie, Chen Shanghai, Chen Yan and Guo Feifan*. Activation of ERK1/2 ameliorates liver steatosis in leptin receptor deficient (db/db)mice via stimulating ATG7-dependent autophagy. Diabetes. 2016 Feb;65(2):393-405 Yu Junjie, Xiao Fei, Guo Yajie, Deng Jiali, Liu Bin, Zhang Qian, Li Kai, Wang Chunxia, Chen Shanghai, and Guo Feifan*. Hepatic phosphoserine aminotransferase 1 (PSAT1) regulates insulin sensitivity in mice via tribbles homolog 3 (TRB). Diabetes. 2015 May;64(5):1591-602 Xiao Fei#, Xia Tingting#, Lv Ziquan#, Zhang Qian, Xiao Yuzhong, Yu Junjie, Liu Hao, Deng Jiali, Guo Yajie, Wang Chunxia, Li Kai, Liu Bin, Chen Shanghai, and Guo Feifan*. Central prolactin receptors (PRLRs) regulate hepatic insulin sensitivity in mice via signal transducer and activator of transcription 5 (STAT5) and the vagus nerve.Diabetologia. 2014, 57: 2136-2144 Xiao Fei, Yu Junjie, Liu Bin, Guo Yajie, Li Kai, Deng Jiali, Zhang Junzhi, Wang Chunxia, Chen Shanghai, Du Ying, Lu Yingli, Xiao Yuzhong, Zhang Zhou, and Guo Feifan*. A Novel Function of MicroRNA 130a-3p in Hepatic Insulin Sensitivity and Liver Steatosis. Diabetes. 2014, 63: 2631-2642 Yu Junjie#, Xiao Fei#, Zhang Qian, Liu Bin, Guo Yajie, Lv Ziquan, Xia Tingting, Chen Shanghai, Li Kai, Du Ying, and Guo Feifan*. Prolactin Receptor (PRLR) regulates hepatic insulin sensitivity in mice via Signal Transducer and Activator of Transcription (STAT)5. Diabetes. 2013, 62: 3103-3013. Zhang Qian, Yu Junjie, Lv Ziquan, Liu Bin, Xia Tingting, Xiao Fei, Chen Shanghai, and Guo Feifan*. Central activating transcription factor (ATF4) regulates hepatic insulin resistance in mice via S6K1 signaling and the vagus nerve. Diabetes. 2013, 62: 2230-2239. Xia Tingting, Cheng Ying, Zhang Qian, Xiao Fei, Liu Bin, Chen Shanghai, and Guo Feifan*. S6K1 in the central nervous system regulates energy expenditure via MC4R/corticotrophin -releasing hormone pathways in response to deprivation of an essential amino acid. Diabetes. 2012, 61: 2461-2471. Xiao Fei, Huang Zhiying, Li Houkai, Yu Junjie, Wang Chunxia, Chen Shanghai, Meng Qingshu, Cheng Ying, Gao Xiang, Li Jia, Liu Yong, and Guo Feifan*. Leucine deprivation increases hepatic insulin sensitivity via GCN2/mTOR/S6K1 and AMPK pathways. Diabetes. 2011, 60:746-756. Cheng Ying#, Meng Qingshu#, Wang Chunxia, Li Houkai, Huang Zhiying, Chen Shanghai, and Xiao Fei, Guo Feifan*. Leucine deprivation decreases fat mass by stimulation of lipolysis in WAT and upregulation of UCP1 in BAT. Diabetes. 2010, 59:17-25. Wang Chunxia, Huang Zhiying, Du Ying, Cheng Ying, Chen Shanghai and Guo Feifan*. ATF4 regulates lipid metabolism and thermogenesis. Cell Research. 2010, 20:174–184. Jiang Xiaoxue, Xiao Fei and Guo Feifan*. Oocyte TET3: an epigenetic modifier responsible for maternal inheritance of glucose intolerance. Signal Transduction and Targeted Therapy. 2022 Oct 8;7(1):357. Jiang Xiaoxue, Xiao Fei and Guo Feifan*. Oocyte TET3: an epigenetic modifier responsible for maternal inheritance of glucose intolerance. Signal Transduction and Targeted Therapy. 2022 Oct 8;7(1):357.