邓宏魁
北京大学博雅讲席教授、长江学者特聘教授,干细胞生物学家,北京大学干细胞研究中心主任,973项目和国家重点研发计划首席科学家。
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驻地:北京
邓宏魁
北京大学博雅讲席教授、长江学者特聘教授,干细胞生物学家,北京大学干细胞研究中心主任,清华-北大生命科学联合中心高级研究员,国家杰出青年科学基金获得者,973项目和国家重点研发计划首席科学家。
个人履历:
邓宏魁,美籍华人,1963年出生于北京,干细胞生物学家,北京大学博雅讲席教授、长江学者特聘教授,北京大学干细胞研究中心主任,清华-北大生命科学联合中心高级研究员,国家杰出青年科学基金获得者,973项目和国家重点研发计划首席科学家。课题组长期以来致力于开发调控细胞命运的新方法和建立多潜能干细胞制备的全新底层技术,累计发表论文160余篇,被引用16,000余次,尤其在小分子化合物诱导细胞命运转变方面做出了一系列开拓性工作:1)首次实现完全使用小分子化合物逆转“发育时钟”,让小鼠体细胞重新获得多潜能性(Science, 2013),在后续的研究工作中揭示了化学重编程全新的分子机制(Cell, 2015; Cell Stem Cell, 2018),一系列成果开创了全新的体细胞重编程体系;2) 首次实现完全使用小分子化合物诱导人类体细胞转变为多潜能干细胞(hCiPS细胞)(Nature, 2022),是我国从源头上独创的新一代多潜能干细胞制备技术;3)利用小分子化合物建立了一种全新的具有全能性特征的干细胞(EPS细胞)(Cell, 2017),从小鼠2细胞胚胎建立了新型全能性干细胞(TPS细胞)(Cell Res, 2022);4)利用小分子化合物实现功能成熟细胞在体外的长期维持(Science, 2019),从多潜能干细胞诱导制备功能成熟的肝细胞,在急性肝衰猪模型上成功完成了人工肝治疗的动物实验;从多潜能干细胞高效分化制备功能成熟的胰岛细胞,在糖尿病小鼠和猴模型上验证了有效性和安全性(Nature Medicine, 2022);5)实现小分子化合物诱导小鼠体细胞成为功能性神经元(Cell Stem Cell, 2015),并实现了在成年小鼠大脑中将体细胞原位转变神经元的体内重编程(Cell Discov, 2021)。入选《自然》2019年度影响世界的十大科学人物,荣获2024年未来科学大奖“生命科学奖”。
荣誉奖励:
2011年荣获北京市科学技术一等奖;
2013年荣获药明康德生命化学研究杰出成就奖;
2014年荣获第七届“谈家桢生命科学奖”;
2017年第十八届吴阶平-保罗·杨森医学药学奖;
2018年荣获中国干细胞年会干细胞杰出贡献奖;
2019年荣获中国细胞生物学学会杰出成就奖;
2019年荣国北京大学国华杰出学者奖;
2019年,入选《自然》2019十大科学人物;
973项目和国家重点研发计划;
2024年荣获未来科学大奖“生命科学奖”。
论文代表:
Xu L, Wang J, Liu Y, Xie L, Su B, Mou D, Wang L, Liu T, Wang X, Zhang B, Zhao L, Hu L, Ning H, Zhang Y, Deng K, Liu L, Lu X, Zhang T, Xu J, Li C, Wu H, Deng H, Chen H. CRISPR-Edited Stem Cells in a Patient with HIV and Acute Lymphocytic Leukemia. N Engl J Med. 2019 Sep 26;381(13):1240-1247.
Xiang C, Du Y, Meng G, Soon Yi L, Sun S, Song N, Zhang X, Xiao Y, Wang J, Yi Z, Liu Y, Xie B, Wu M, Shu J, Sun D, Jia J, Liang Z, Sun D, Huang Y, Shi Y, Xu J, Lu F, Li C, Xiang K, Yuan Z, Lu S, Deng H. Long-term functional maintenance of primary human hepatocytes in vitro. Science. 2019 Apr 26;364(6438):399-402.
Xie B, Sun D, Du Y, Jia J, Sun S, Xu J, Liu Y, Xiang C, Chen S, Xie H, Wang Q, Li G, Lyu X, Shen H, Li S, Wu M, Zhang X, Pu Y, Xiang K, Lai W, Du P, Yuan Z, Li C, Shi Y, Lu S, Deng H. A two-step lineage reprogramming strategy to generate functionally competent human hepatocytes from fibroblasts. Cell Res. 2019 Sep;29(9):696-710.
Zhao T, Fu Y, Zhu J, Liu Y, Zhang Q, Yi Z, Chen S, Jiao Z, Xu X, Xu J, Duo S, Bai Y, Tang C, Li C, Deng H. Single-Cell RNA-Seq Reveals Dynamic Early Embryonic-like Programs during Chemical Reprogramming. Cell Stem Cell. 2018 Jul 5;23(1):31-45.
Li X, Xu J, Deng H. Small molecule-induced cellular fate reprogramming: promising road leading to Rome. Curr Opin Genet Dev. 2018 May 29; 52:29-35.
Yang Y, Liu B, Xu J, Wang J, Wu J, Shi C, Xu Y, Dong J, Wang C, Lai W, Zhu J, Xiong L, Zhu D, Li X, Yang W, Yamauchi T, Sugawara A, Li Z, Sun F, Li X, Li C, He A, Du Y, Wang T, Zhao C, Li H, Chi X, Zhang H, Liu Y, Li C, Duo S, Yin M, Shen H, Belmonte JC, Deng H. Derivation of Pluripotent Stem Cells with In Vivo Embryonic and Extraembryonic Potency. Cell. 2017;169(2):243-257.
Li X, Liu D, Ma Y, Du X, Jing J, Wang L, Xie B, Sun D, Sun S, Jin X, Zhang X, Zhao T, Guan J, Yi Z, Lai W, Zheng P, Huang Z, Chang Y, Chai Z, Xu J, Deng H. Direct Reprogramming of Fibroblasts via a Chemically Induced XEN-like State. Cell Stem Cell. 2017 Aug 3;21(2):264-273.
Xu L, Yang H, Gao Y, Chen Z, Xie L, Liu Y, Liu Y, Wang X, Li H, Lai W, He Y, Yao A, Ma L, Shao Y, Zhang B, Wang C, Chen H, Deng H. CRISPR/Cas9-Mediated CCR5 Ablation in Human Hematopoietic Stem/Progenitor Cells Confers HIV-1 Resistance In Vivo. Mol Ther. 2017 Aug 2;25(8):1782-1789.
Ye J, Ge J, Zhang X, Cheng L, Zhang Z, He S, Wang Y, Lin H, Yang W, Liu J, Zhao Y, Deng H. Pluripotent stem cells induced from mouse neural stem cells and small intestinal epithelial cells by small molecule compounds. Cell Res. 2016; 26:34-45.
Zhao Y, Zhao T, Guan J, Zhang X, Fu Y, Ye J, Zhu J, Meng G, Ge J, Yang S, Cheng L, Du Y, Zhao C, Wang T, Su L, Yang W, Deng H. A XEN-like State Bridges Somatic Cells to Pluripotency during Chemical Reprogramming, Cell. 2015; 163, 1678-91.
Li X, Zuo X, Jing J, Ma Y, Wang J, Liu D, Zhu J, Du X, Xiong L, Du Y, Xu J, Xiao X, Wang J, Chai Z, Zhao Y, Deng H. Small-Molecule-Driven Direct Reprogramming of Mouse Fibroblasts into Functional Neurons. Cell Stem Cell. 2015; 17:195-203.
Xu J, Du Y, Deng H. Direct lineage reprogramming: strategies, mechanisms, and applications. Cell Stem Cell. 2015;16(2):119-34. Review.
Fang R, Liu K, Zhao Y, Li H, Zhu D, Du Y, Xiang C, Li X, Liu H, Miao Z, Zhang X, Shi Y, Yang W, Xu J, Deng H. Generation of naive induced pluripotent stem cells from rhesus monkey fibroblasts. Cell Stem Cell. 2014; 15(4):488-96.
Du Y, Wang J, Jia J, Song N3 Xiang C, Xu J, Hou Z, Su X, Liu B, Jiang T, Zhao D, Sun Y, Shu J, Guo Q, Yin M, Sun D, Lu S, Shi Y, Deng H. Human hepatocytes with drug metabolic function induced from fibroblasts by lineage reprogramming. Cell Stem Cell. 2014; 14:394-403.
Liu H, Yang H, Zhu D, Sui X, Li J, Liang Z, Xu L, Chen Z, Yao A, Zhang L, Zhang X, Yi X, Liu M, Xu S, Zhang W, Lin H, Xie L, Lou J, Zhang Y, Xi J, Deng H. Systematically labeling developmental stage-specific genes for the study of pancreatic β-cell differentiation from human embryonic stem cells. Cell Res. 2014; 24(10):1181-200.
Hou P, Li Y, Zhang X, Liu C, Guan J, Li H, Zhao T, Ye J, Yang W, Liu K, Ge J, Xu J, Zhang Q, Zhao Y, Deng H. Pluripotent stem cells induced from mouse somatic cells by small-molecule compounds. Science. 2013, 341(6146):651-4.
Shu J, Wu C, Wu Y, Li Z, Shao S, Zhao W, Tang X, Yang H, Shen L, Zuo X, Yang W, Shi Y, Chi X, Zhang H, Gao G, Shu Y, Yuan K, He W, Tang C, Zhao Y, Deng H. Induction of pluripotency in mouse somatic cells with lineage specifiers. Cell. 2013, 153(5):963-75.
Sun X, Xu J, Lu H, Liu W, Miao Z, Sui X, Liu H, Su L, Du W, He Q, Chen F, Shi Y, Deng H. Directed differentiation of human embryonic stem cells into thymic epithelial progenitor-like cells reconstitutes the thymic microenvironment in vivo. Cell Stem Cell. 2013, 13(2):230-6.
Wang C, Tang X, Sun X, Miao Z, Lv Y, Yang Y, Zhang H, Zhang P, Liu Y, Du L, Gao Y, Yin M, Ding M, Deng H. TGFβ inhibition enhances the generation of hematopoietic progenitors from human ES cell-derived hemogenic endothelial cells using a stepwise strategy. Cell Res. 2012;22(1):194-207.
Li Y, Zhang Q, Yin X, Yang W, Du Y, Hou P, Ge J, Liu C, Zhang W, Zhang X, Wu Y, Li H, Liu K, Wu C, Song Z, Zhao Y, Shi Y, Deng H. Generation of iPSCs from mouse fibroblasts with a single gene, Oct4, and small molecules. Cell Res. 2011, 21(1):196-204.
Yu C, Liu Y, Miao Z, Yin M, Lu W, Lv Y, Ding M, Deng H. Retinoic acid enhances the generation of hematopoietic progenitors from human embryonic stem cell-derived hemato-vascular precursors. Blood. 2010 Dec 2;116(23):4786-94.
Song Z, Cai J, Liu Y, Zhao D, Yong J, Duo S, Song X, Guo Y, Zhao Y, Qin H, Yin X, Wu C, Che J, Lu S, Ding M, Deng H. Efficient generation of hepatocyte-like cells from human induced pluripotent stem cells. Cell Res. 2009 Nov; 19(11):1233-42.
Li W, Wei W, Zhu S, Zhu J, Shi Y, Lin T, Hao E, Hayek A, Deng H and Ding S. Generation of Rat and Human Induced Pluripotent Stem Cells by Combining Genetic Reprogramming and Chemical Inhibitors. Cell Stem Cell. 2009, 4(1):16-9.
Zhang D, Jiang W, Liu M, Sui X, Yin X, Chen S, Shi Y, Deng H. Highly efficient differentiation of human ES cells and iPS cells into mature pancreatic insulin-producing cells. Cell Res. 2009 Apr; 19(4):429-38.
Liu H, Zhu F, Yong J, Zhang P, Hou P, Li H, Jiang W, Cai J, Liu M, Cui K, Qu X, Xiang T, Lu D, Chi X, Gao G, Ji W, Ding M, Deng H. Generation of induced pluripotent stem cells from adult rhesus monkey fibroblasts. Cell Stem Cell. 2008 Dec 4; 3(6):587-90.
Zhao Y, Yin X, Qin H, Zhu F, Liu H, Yang W, Zhang Q, Xiang C, Hou P, Song Z, Liu Y, Yong J, Zhang P, Cai J, Liu M, Li H, Li Y, Qu X, Cui K, Zhang W, Xiang T, Wu Y, Zhao Y, Liu C, Yu C, Yuan K, Lou J, Ding M, Deng H. Two supporting factors greatly improve the efficiency of human iPSC generation. Cell Stem Cell. 2008 Nov 6; 3(5):475-9.
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