2012-现在,高级研究员,北京大学-清华大学生命科学联合中心
2011-现在,教育部特聘教授
2011-2012,研究员,北京大学-清华大学生命科学联合中心
2006-2011, “百人计划”研究员, 北京大学生命科学学院
2003-2006, Research associate (博士后), The Scripps Research Institute, La Jolla, CA, USA
1999-2003, Research associate (博士后), The Lerner Research Institute, CCF, Cleveland, Ohio, USA
1997-1999, 博士后, 北京大学生命科学学院
特邀综述
1. Fang R. Jiang Q. Yu X. Zhao Z. and Jiang Z*. 2022, Recent advances in the activation and regulation of the cGAS-STING pathway. Advances in Immunology 156: 56-102.
2. Yu X. Zhao Z. and Jiang Z*. 2022, Recent progress on the activation of the cGAS–STING pathway and its regulation by biomolecular condensation. J. Mol. Cell Biol. 14(6), mjac042.
3. Wang C. Zhang R. Wei X. Lv M. and Jiang Z*. 2020, Metalloimmunology: The metal ion-controlled immunity. Advances in Immunology (ed. Dong C. and Jiang Z.) 145: 188-241.
4. Chen H, Ning X, Jiang Z*. 2017, Caspases control antiviral innate immunity. Cellular & Molecular Immunology 14: 736-747.
5. Gao J, Tao J, Liang W, Jiang Z*. 2016, Cyclic (di)nucleotides: the common language shared by Microbe and Host. Current Opinion in Microbiology 30: 79–87.
6. Tao J, Zhou X, Jiang Z*. 2016, cGAS-cGAMP-STING: The three musketeers of cytosolic DNA sensing and signaling. IUBMB Life 68: 858-870.
7. Chen H. and Jiang Z*. 2013, The essential adaptors of innate immune signaling. Protein & Cell 4: 27–39.
8. Beutler B, Jiang Z, Georgel P, Crozat K, Croker B, Rutschmann S, Du X and Hoebe K, 2006, Genetic Analysis of Host Resistance: Toll-like Receptor Signaling and Immunity at Large. Annual Review of Immunology 24: 353-389.
9. Hoebe K. Jiang Z, George P, Tabeta K, Janssen E, Du X, and Beutler B. 2006, TLR signaling pathways: opportunities for activation and blockade in pursuit of therapy. Current Pharmaceutical Design 12: 4123-4134.
10. Hoebe K, Jiang Z, Tabeta K, Du X, Georgel P, Crozat K, Beutler B. 2006, Genetic analysis of innate immunity. Adv Immunol. 91: 175-226.
11. Beutler B, Georgel P, Rutschmann S, Jiang Z, Croker B, Crozat K. 2005, Genetic analysis of innate resistance to mouse cytomegalovirus (MCMV). Brief Funct Genomic Proteomic 4: 203-213.
1. Fang R, Jiang Q, Jia X, and Jiang Z*. 2023, ARMH3-mediated recruitment of PI4KB directs Golgi-to-endosome trafficking and activation of the antiviral effector STING. Immunity 56: 500-515.
2. Fang R, Jiang Q, Guan Y, Gao P, Zhang R, Zhao Z, and Jiang Z*. 2021, Golgi-synthesized sulfated glycosaminoglycans mediate polymerization and activation of the cGAMP sensor STING. Immunity, 54: 962–975.
3. Yu X, Zhang L, Shen J, Zhai Y, Jiang Q, Yi M, Deng X, Ruan Z, Fang R, Chen Z, Ning X, Jiang Z*. 2021, The STING Phase-separator Suppresses Innate Immune Signaling. Nature Cell Biology, 23: 330-340.
4. Zhu L, Xi L, Wang C, Li C, Li M, Liu Q, Wang X, Yang W, Pan D, Hu L, Yang Y, Lu Z, Wang Y, Zhou D*, Jiang Z*, Shen X*. 2021, T6SS translocates a micropeptide to suppress STING-mediated innate immunity by sequestering manganese. Proc Natl Acad Sci USA. 118 (42): e2103526118.
5. Zhang R, Wang C, Guan Y, Wei X, Sha M, Jing M, Lv M, Guo W, Xu J, Wan Y, Jia X, Jiang Z*. 2021, Manganese salts function as potent adjuvants. Cellular & Molecular Immunology, 18: 1222–1234.
6. Yang J, Zhou X, Zhang R, Sun H, You F, Jiang Z*. 2021, Differences in IFNβ secretion upon Rab1 inactivation in cells exposed to distinct innate immune stimuli. Cellular & Molecular Immunology. 18: 1590–1592.
7. Lv M. Chen M, Zhang R, Zhang W, Wang C, Zhang Y, Wei X, Guan Y, Liu J, Feng K, Jing M, Wang X, Liu Y, Mei Q*, Han W*, Jiang Z*. 2020, Manganese is critical for antitumor immune responses via cGAS-STING and improves the efficacy of clinical immunotherapy. Cell Research, 30: 966–979.
8. Ning X, Wang Y, Jing M, Sha M, Lv M, Gao P, Zhang R, Huang X, Feng J, Jiang Z*. 2019, Apoptotic Caspases Suppress Type I Interferon Production via the Cleavage of cGAS, MAVS and IRF3. Molecular Cell, 74: 1-13.
9. Wang C, Guan Y, Lv M, Zhang R, Guo Z, Wei X, Du X, Yang J, Li T, Wan Y, Su X, Huang X, Jiang Z*. 2018, Manganese Increases the Sensitivity of the cGAS-STING Pathway for Double-stranded DNA and Is Required for the Host Defense against DNA Viruses. Immunity, 48: 675-687.
10. Wang Y, Ning X, Gao P, Wu S, Sha M, Lv M, Zhou X, Gao J, Fang R, Meng G, Su X, Jiang Z*. 2017, Inflammasome activation triggers caspases-mediated cleavage of cGAS to regulate responses to DNA virus infection. Immunity, 46: 393-404.
11. Chen H, Sun H, You F, Sun W, Zhou X, Chen L, Yang J, Wang Y, Tang H, Guan Y, Xia W, Gu J, Ishikawa H, Gutman D, Barber G, Qin Z, Jiang Z*. 2011, Activation of STAT6 by STING is Critical for Antiviral Innate Immunity. Cell, 147: 436-446.
12. You FP, Sun H, Zhou X, Sun WX, Liang SM, Zhai ZH & Jiang Z*. 2009, PCBP2 mediates degradation of the adaptor MAVS via the HECT ubiquitin ligase AIP4. Nature Immunology, 10: 1300-1308.
13. Sun W, Li Y, Chen L, Chen H, You F, Zhou X, Zhou Y, Zhai Z, Chen D, Jiang Z*. 2009, ERIS, an ER IFN stimulator, activates innate immune signaling through dimerization. PNAS, 106: 8653-8.
14. Gao J, Tao J, Liang W, Zhao M, Du X, Cui S, Duan H, Kan B, Su X, Jiang Z*. 2015, Identification and characterization of phosphodiesterase V-cGAPs that specifically degrade 3`3`-cyclic GMP-AMP. Cell Research, 25: 539-550.
15. Fang R, Jiang Q, Zhou X, Wang C, Guan Y, Tao J, Xi J, Feng J, Jiang Z*. 2017, MAVS activates TBK1 and IKKb through TRAFs in NEMO dependent and independent manner. PLoS Pathogens, 13(11): e1006720.
16. Fang R, Lin Y, Zhou X, Wang C, Guan Y, Tao J, Xi J, Feng J, Jiang Z*. 2017, NEMO-IKKβ Are Essential for IRF3 and NF-κB Activation in the cGAS-STING Pathway. J Immunology, 199: 3222-3233.
17. Tao J, Zhang X, Jin J, Du X, Lian T, Yang J, Zhou X, Jiang Z*, Su X*, 2017, Non-specific DNA binding by N-terminal domain promotes activation of human cyclic GMP-AMP synthase. J Immunology, 198: 3627-3636.
18. Gao J, Tao J, Liang W, Jiang Z*. 2016, Cyclic (di)nucleotides: the common language shared by Microbe and Host. Current Opinion in Microbiology, 30: 79–87.
19. Huang YH, Liu XY, Du XX, Jiang Z, Su XD*. 2012, The structural basis for the sensing and binding of cyclic di-GMP by STING. Nat Struct Mol Biol., 19: 728-30.
20. Zhou X, You F, Chen H, Jiang Z*. 2012, Poly(C)-binding protein 1 mediates house-keeping degradation of mitochondrial antiviral signaling (MAVS). Cell Research, 22: 717-727.
21. Xiao H, Qian W, Staschke K, Qian Y, Cui G, Deng L, Ehsani M, Wang X, Qian YW, Chen ZJ, Gilmour R, Jiang Z*, Li X*. 2008, Pellino 3b negatively regulates interleukin-1-induced TAK1-dependent NF kB activation. J Biol Chem., 283: 14654-64.
22. Jiang Z, Georgel P, Li C, Choe J, Crozat K, Rutschmann S, Du X, Bigby T, Mudd S, Sovath S, Wilson I A, Olson A, Beutler B. 2006, Details of Toll-like receptor:adapter interaction revealed by germ-line mutagenesis. PNAS, 103: 10961-66.
23. Jiang Z, Georgel P, Du X, Shamel L, Sovath S, Mudd S, Huber M, Kalis C, Keck S, Galanos C, Freudenberg M, Beutler B. 2005, CD14 is required for MyD88-independent LPS signaling. Nature Immunology, 6: 565-70.
24. Jiang Z, Mak TW, Sen G, Li X. 2004, Toll-like receptor 3-mediated activation of NF-kappaB and IRF3 diverges at Toll-IL-1 receptor domain-containing adapter inducing IFN-beta. PNAS, 101: 3533-8.
25. Jiang Z, Zamanian-Daryoush M, Nie H, Silva AM, Williams BR, Li X. 2003 Poly (I-C)-induced TLR3-mediated activation of NFkappa B and MAP kinase is through an IRAK-independent pathway employing the signaling components TLR3-TRAF6-TAK1-TAB2-PKR. J Biol Chem., 278: 16713-9.
26. Jiang Z, Johnson HJ, Nie H, Qin J, Bird TA, Li X. 2003, Pellino 1 is required for interleukin-1 (IL-1)-mediated signaling through its interaction with the IRAK4-IRAK-TRAF6 complex. J Biol Chem., 278: 10952-6.
27. Jiang Z, Ninomiya-Tsuji J, Qian Y, Matsumoto K, Li X. 2002, Interleukin-1 (IL-1) receptor-associated kinase-dependent IL-1-induced signaling complexes phosphorylate TAK1 and TAB2 at the plasma membrane and activate TAK1 in the cytosol. Mol Cell Biol., 22: 7158-67.
28. Beutler B, Jiang Z, Georgel P, Crozat K, Croker B, Rutschmann S, Du X and Hoebe K, 2006, Genetic Analysis of Host Resistance: Toll-like Receptor Signaling and Immunity at Large. Annual Review of Immunology, 24: 353-89.