隋建华博士
隋建华实验室将基础生物学研究与医学应用相结合,开展以人抗体为主的相关研究。
- 基本信息
- 教育经历
- 工作经历
- 研究概述
- 发表文章
隋建华 博士北京生命科学研究所研究员,生物制品中心和抗体中心主任Jianhua Sui, Ph.D. Assistant Investigator & Director of Biologics CenterNIBS, BeijingPhone:86-10-80726688-8630Fax: 86-10-80726021 E-mail:suijianhua@nibs.ac.cn
教育经历:
Education
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2000 |
中国协和医科大学中国医学科学院 血液学研究所 病理生理学博士 |
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Ph.D. Pathophysiology, Institute of Hematology, Peking Union Medical College & Chinese Academy of Medical Sciences, China
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1997 |
兰州大学医学院心血管内科学硕士 |
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M.S. Cardiovascology, Lanzhou Medical School, Lanzhou University, China |
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1994 |
兰州大学医学院 临床医学学士 |
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B.S. Clinical Medicine, Lanzhou Medical School, Lanzhou University, China |
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工作经历
Professional Experience
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2012– |
北京生命科学研究所研究员,生物制品中心主任 |
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Assistant Investigator and Director of Biologics Research Center National Institute of Biological Sciences, Beijing, China |
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2004–2011 |
哈佛大学 医学院 Dana-Farber癌症研究所 讲师 |
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Instructor Department of Cancer Immunology & AIDS, Dana-Farber Cancer Institute, Department of Medicine, Harvard Medical School, Boston, US |
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2000–2004 |
哈佛大学 医学院 Dana-Farber癌症研究所 博士后 |
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Postdoctoral Fellow Department of Cancer Immunology & AIDS, Dana-Farber Cancer Institute, Department of Medicine, Harvard Medical School, Boston, US |
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研究概述
Research Description
我们实验室/生物制品中心以重要感染性疾病,恶性肿瘤及自身免疫疾病为研究对象,将基础生物学研究与医学应用相结合,开展以治疗性抗体为主的相关研究。主要包括:1)发现和确认新型治疗性靶分子; 2)开发治疗性人源抗体; 3)发展新型抗体工程技术; 4)以抗体为主的生物大分子制备和抗体新药临床前研究及评估等。
Our laboratory and the Biologics Research Center conduct human antibody related researches at the intersection of biology and medicine. We take interdisciplinary approaches to develop innovative biologics for diseases prevention and therapy, mainly focus on infectious diseases, cancer andautoimmune diseases. Research programs include: 1) identification and validation of novel therapeutic targets; 2) development of therapeutic human monoclonal antibodies; 3) develop new antibody engineering technologies; 4) biologics production and pre-clinical validation of new antibody drugs, etc.
部分发表文章
Selected Publications (*Corresponding or co-corresponding author)
1. Li Y, Liu J, Chen W, Wang W, Yang F, Liu X, Sheng Y, Du K, He M, Lü X, Li H, Zhao L, Wei Z, Wang F, Zheng S, Sui J*. A pH-dependent anti-CD47 antibody that selectively targets solid tumors and improves therapeutic efficacy and safety. J Hematol Oncol 2023, 16 (1) : 2.
2. Tian X, Liu X, Ding J, Wang F, Wang K, Liu J, Wei Z, Hao X, Li Y, Wei X, Zhang H, Sui J*. An anti-CD98 antibody displaying pH-dependent Fc-mediated tumour-specific activity against multiple cancers in CD98-humanized mice. Nat Biomed Eng 2023, 7 (1) : 8-23.
3. Liu X, Tian X, Hao X, Zhang H, Wang K, Wei Z, Wei X, Li Y, Sui J*. A cross-reactive pH-dependent EGFR antibody with improved tumor selectivity and penetration obtained by structure-guided engineering. Mol Ther Oncolytics 2022, 27 : 256-269.
4. Du K, Li Y, Liu J, Chen W, Wei Z, Luo Y, Liu H, Qi Y, Wang F, Sui J*. A bispecific antibody targeting GPC3 and CD47 induced enhanced antitumor efficacy against dual antigen-expressing HCC. Mol Ther 2021, 29 (4) : 1572-1584
5. Yang F, Zhao L, Wei Z, Yang Y, Liu J, Li Y, Tian X, Liu X, , and Sui J*. A Cross-Species Reactive TIGIT-Blocking Antibody Fc Dependently Confers Potent Antitumor Effects. J Immunol 2020, 205(8): 2156-2168
6. Li SB, Liu YY, Yuan L, Ji MF, Zhang A, Li HY, Tang LQ, Fang SG, Zhang H, Xing S, Li MZ, Zhong Q, Lin SJ, Liu WL, Huang P, Zeng YX, Zheng YM, Ling ZQ, Sui JH, Zeng MS. 2020. Autocrine INSL5 promotes tumor progression and glycolysis via activation of STAT5 signaling. EMBO Mol Med: e12050
7. Liu H, Zheng S, Hou X, Liu X, Du K, Lv X, Li Y, Yang F, Li W, Sui J*. Novel antibodies targeting the N-terminus of FGF19 inhibit hepatocellular carcinoma growth without bile-acid-related side effects. Can Sci 2020,111(5):1750-1760
8. Qiao L, Sui J, Luo G. Robust Human and Murine Hepatocyte Culture Models of Hepatitis B Virus Infection and Replication. J Virol 2018, 92 (23).
9. Li D, He W, Liu X, Zheng S, Qi Y, Li H, Mao F, Liu J, Sun Y, Pan L, Du K, Ye K, Li W, Sui J*. A potent human neutralizing antibody Fc-dependently reduces established HBV infections. eLife 2017, 6: e26738.
10. Kang J, Wang J, Cheng J, Cao Z, Chen R, Li H, Liu S, Chen X, Sui J*, Lu F. Down-regulation of NTCP expression by cyclin D1 in hepatitis B virus-related hepatocellular carcinoma has clinical significance. Oncotarget 2017;8(34):56041-56050.
11. He W, Cao Z, Mao F, Ren J, Li Y, Li D, Li H, Peng B, Yan H, Qi Y, Sun Y, Wang F, Sui J*, Li W. Three amino acids modification in sodium taurocholate cotransporting polypeptide renders mice susceptible for infection of hepatitis D virus In vivo. J Virol 2016, 90 (19), 8866-74.
12. Huang X, Dong W, Milewska A, Golda A, Qi Y, Zhu QK, Marasco WA, Baric RS, Sims AC, Pyrc K, Li W, Sui J*. HCoV-HKU1 Spike protein uses O-acetylated sialic acid as an attachment receptor determinant and employs HE protein as a receptor-destroying enzyme. J Virol 2015, 89 (14), 7202-7213.
13. Sui J, Deming M, Rockx B, Liddington RC, Zhu QK, Baric RS, Marasco WA. Effects of human anti-spike protein receptor binding domain antibodies on severe acute respiratory syndrome coronavirus neutralization escape and fitness. J Virol 2014, 88 (23), 13769-80.
14. DK Chang, Sui J, Geng S, Muvaffak A, Bai M, Fuhlbrigge R, Lo A, Yammanuru A, Hubbard L, Sheehan J, Campbell J, Zhu Q, Kupper T, Marasco WA. Humanization of an anti-CCR4 antibody that kills cutaneous T cell lymphoma cells and abrogates suppression by T regulatory cells. Molecular Cancer Therapeutics 2012,11 (11):2451-61.
15. Yan H, Zhong G, Xu G, He W, Jing Z, Gao Z, Huang Y, Qi Y, Peng B, Wang H, Fu L, Song M, Chen P, Gao W, Ren B, Sun Y, Cai T, Feng X, Sui J, Li W. 2012. Sodium taurocholate cotransporting polypeptide is a functional receptor for human hepatitis B and D virus. eLife 2012, 1:e00049.
16. Sui J, Sheehan J, Hwang WC, Bankston LA, Burchett SK, Huang CY, Liddington RC, Beigel JH, Marasco WA. Wide prevalence of heterosubtypic broadly neutralizing human anti-Influenza A antibodies. Clin Infect Dis 2011, 52 (8):1003-1009
17. Sui J*, Hwang WC, Perez S, Wei G, Aird D, Chen L, Santelli E, Stec B, Cadwell G, Ali M, Murakami A, Yammanuru A, Han T, Cox N, Bankston LA, Donis RO, Liddington RC and Marasco WA. Structural and functional basis for broad-spectrum neutralization of avian and human influenza A viruses. Nat Struct Mol Biol 2009, 16(3):265-73.
Comments in Nat Biotech, Nat Struct Mol Bio and Nat Med 2009.
18. Sui J*, Aird DR, Tamin A, Murakami A, Yan M, Yammanur, A, Jing H, Kan B, Liu, X, Zhu Q, Yuan Q, Adams GP, Bellini WJ, Xu J, Anderson LJ and Marasco WA. Broadening of neutralization activity to directly block a dominant antibody-driven SARS-Coronavirus evolution pathway. Plos Pathogen 2008, 4(11):e1000197.
19. Marasco WA, Sui J*. The growth and potential of human anti-viral monoclonal antibody therapeutics. Nature Biotechnology (Invited Review) 2007, 25(12):1421-34.
20. Xu C, Sui J, Tao H, Zhu Q, Wayne A. Marasco. Human anti-CXCR4 antibodies undergo VH replacement, exhibit functional V-Region sulfation and define CXCR4 antigenic heterogeneity. J Immunol 2007,179(4):2408-18
21. Sui J, Li W, Roberts A, Matthews LJ, Murakami A, Vogel L, Wong SK, Subbarao K, Farzan M, Marasco WA. Evaluation of human Mab 80r for immunoprophylaxis of SARS by an animal study, epitope mapping and analysis of spike variants. J Virol 2005, 79(10):5900-5906.
22. Bai J, Sui J, Demirjian A, Vollmer Jr CM, Marasco WA, Callery MP. Predominant Bcl-XL knockdown disables antiapoptotic mechanisms: tumor necrosis factor-related apoptosis-inducing ligand-based triple chemotherapy overcomes chemoresistance in pancreatic cancer cells in Vitro. Cancer Res 2005, 65(6):2344-2352
23. Sui J, Li W, Murakami A, Tamin A, Matthews LJ, Wong SK, Moore MJ, Tallrico AS, Olurinde M, Choe H, Anderson LJ, Bellini WJ, Farzan M, and Marasco WA. Potent neutralization of SARS coronavirus Infection by a human monoclonal antibody against the ACE2-binding domain of spike protein. Proc Natl Acad Sci USA 2004,101(8):2536-41.
24. Sui J, Marasco WA. Evidence against Ebola virus sGP binding to human neutrophils by a specific receptor. Virology 2002, 303(1):9-14.
专利
Patents
1. Sui J, Liu H. Anti-FGF19 antibodies. Patent No. US222/0041706A1. 2022
2. Sui J, Li D, Li W. Anti-PreS1-HBV Antibodies. Patent No. US10544205B2. 2020
3. Marasco WA, Sui J. Human monoclonal anti-PD-L1 antibodies and methods of use. Patent No.: US10604581B2. 2020
4. Marasco WA, Sui J, Zhu Q, Kupper T. Affinity matured anti-CCR4 humanized monoclonal antibodies and methods of use. Patent No. US9441045B2;JP6411329B2. 2018
5. Marasco WA, Sui J. Antibodies against H5N1 and methods of use thereof. Patent No. EP2222701B1;JP6149213B2;CA2708221C. 2017
6. Marasco WA, Sui J, Anvir Y. Humanized monoclonal antibodies and methods of use. Patent No. US9527924B2;EP2575882B1. 2016
7. Marasco WA, Sui J, Zhu Q, Kupper T. Humanized monoclonal antibodies and methods of use. Patent No. US9416169. 2016
8. Marasco WA, Sui J, Xu C. Antibodies against CXCR4 and methods of Use Thereof. Patent No. US8329178 B2; EP1871807 B1; CA2597717C. 2012
9. Marasco WA, Sui J. Antibodies against SARS-COV and methods of use thereof. Patent No. US7750123. 2010
