1989.09 – 1993.07 上海医科大学药学院药学专业,学士
1997.10 – 2000.03 日本国立九州大学大学院药学研究院药剂学,硕士
2000.04 – 2003.03 日本国立九州大学大学院药学研究院药剂学,博士
2003.06 – 2005.05 复旦大学药学院,讲师
2005.05 – 2010.05 复旦大学药学院,副教授
2008.01- 2010.05 复旦大学药学院,副教授,博士研究生导师
2010.05 – 今 复旦大学药学院,教授,博士研究生导师
2011.01– 2023.12 复旦大学药学院药剂学系主任
2011.01 – 2018.05 教育部智能化递药重点实验室副主任
2018.06 – 今 教育部智能化递药重点实验室主任
教授,杰青,教育部新世纪人才,上海市优秀学科带头人
博士生导师(硕士生导师),教育部重点实验室主任
1. 国家自然科学基金委员会国际(地区)合作与交流项目,靶向调控肺癌谷氨酰胺代谢及免疫重编程的诊疗递药策略及其相关机制研究 (82361148716)
2. 国家自然科学基金委员会重点项目, 克服胰腺癌固有耐药的多功能药物递释策略及其机制研究(32030059)
3. 科技部重点研发项目课题,肿瘤恶性进展关键驱动分子的新型靶向降解系统研发及应用(2023YFC3404103)
4. 国家杰出青年科学基金, 靶向药物递释系统(81425023)
5. 国家863项目,靶向治疗肝癌的纳米药物关键技术与产品开发(2008AA02Z117)
2012.03 上海市巾帼创新奖
2012.03 上海市“三八”红旗手标兵
2011.01 教育部自然科学一等奖(排名第二)
2010.11 上海市自然科学二等奖(排名第二)
2010.01 新世纪人才计划
2009.11 中国药学会-石药集团青年药剂学奖
1.靶向药物递释系统
2. 生物大分子药物载体系统
3. 药物新剂型的研究开发
在基于纳米技术新型药物递释系统的应用基础研究的重要进展包括:
1. 利用内源性转运机制设计靶向药物递释系统:启用了具有肿瘤、高跨血脑屏障转运能力的多个受体、转运蛋白转运途径,评价它们高效介导脑靶向的转运行为、机制;同时发现相对于大分子抗体、蛋白,分子量小的靶向功能分子的可塑性强、靶向效率高,作为靶向功能分子具有更好的药物研发和临床应用潜力。进一步,基于血脑屏障、脑胶质瘤细胞共同靶点特征,选用对两者均具有靶向性的胆碱衍生物、葡萄糖衍生物等双功能靶向分子,实现药物的脑内病灶富集的双级靶向,同时降低对正常脑、外周组织的影响。
2. 设计微环境触发的靶向治疗策略实现药物病灶靶向递释、定点释放:根据疾病的病理和生理的微环境特征,构建了组织、细胞微环境触发的靶向、控释的药物递释系统,控制药物病灶释放,为设计高效、低毒脑靶向制剂提供了理论依据。
3. 根据疾病的生理、病理特征,设计、合成、优化高分子材料,“订制”符合药物分子、疾病治疗要求的高分子材料,构建载药能力高、控制释放、生物可降解、毒副作用低的药物载体。研究重点为氨基酸为基本单位的高分子材料。
4. 采用树枝状高分子、壳聚糖等高分子载体的纳米技术提高难溶药物的口服吸收。
5. 培养的博士生1人获上海市优秀博士论文, 培养的硕士生3人获上海市优秀硕士论文。
2015.03 – 现在 中国药学会纳米药物专业委员会, 委员
2012.05– 现在 药学学报(中英文两刊)编委、Asian J Pharm Sci编委
2010年来, 在国际重要学术期刊上发表多篇高质量SCI 论文, 其中IF>10 的通讯作者论文7篇, IF=5-10 间的通讯作者论文37篇, IF>5的论文>75%. 包括下列著名国际刊物Adv Mater, Adv Funct Mater, Adv Sci, ACS Nano, J Am Chem Soc, Biomaterials, Small和J Control Release等:
1. Wang Y, Fan HR, Chen QJ, Song HL, Li XW, Su BY, Sun T, Cheng LL*, Jiang C*. Mitocytosis-inducing nanoparticles alleviate gemcitabine resistance via dual disruption of pyrimidine synthesis and redox homeostasis in pancreatic ductal adenocarcinoma. Biomaterials. 2025;123630.
2. Fan HR, Chen HY, Song HL, Li CF, Wang Y, Zhao ZH, Guo Q, Li XW, Liu MX, Sun T*, Jiang C*. Cascade-Targeted Nanoparticles for Enhanced Gemcitabine Delivery and Adenosine Metabolism Modulation to Overcome Treatment Resistance in Pancreatic Cancer. Advanced Science. 2025, e07118.
3. Zhou Z, Liu MX, You HY, Su BY, Wu YX, Zhang SL, Sun T, Jiang C*. Multiple-Stimuli-Responsive Biomimetic Polypyrrole Delivery System for Synergistic Regulation and Restoration of Epileptic Foci. Advanced Functional Materials. 2025, e10305.
4. Zhang TY, Liu PX, Shen WR, Li C, Zhao ZH, Wu YX, Sun T, Jiang C*. DNase I-Mediated Chemotactic Nanoparticles for NETs Targeting and Microenvironment Remodeling Treatment of Acute Ischemic Stroke. Advanced Science. 2025, e03689.
5. Li XW, Geng S, Chen QJ, Su BY, Song HL, Zhou JY, Jia R, Fan HR, Li CF, Wang Y, Tian ZH, Sun T, Jiang C*. Disrupting Tumor Lactate Homeostasis to Sensitize Chemo-Immunotherapy Using a Glucose-Disguised Lactate Interceptor. ACS Nano. 2025, 19, 21556-21570.
6. Zhao ZH, Zhou JY, Li XW, Zhang TY, Tian ZH, Sun T*, Jiang C*.Manganese-based virus-mimicking nanomedicine with triple immunomodulatory functions inhibits breast cancer brain metastasis. Biomaterials. 2025;123262.
7. Wang Y, Chen QJ, Luo YF, Qu YQ, Li XW, Song HL, Li CF, Zhang YW, Sun T, Jiang C*. Metabolic Nanoregulators Induce Ferroptosis and Change Metabolite Flow to Reverse Immunosuppressive Tumor Microenvironment. ACS Nano. 2024;18(51):34996–35012.
8. Song HL, Chen HY, Chen QJ, Fan HR, Li CF, Wang Y, Zhang SL, Li XW, Su BY, Sun T, Jiang C*. Size and Charge Dual-Switchable Nanoparticles for Achieving Chemosensitization and Immune Infiltration against Pancreatic Ductal Adenocarcinoma. Advanced Functional Materials. 2024, 2411643.
9. Liu PX, Zhang TY, Wu YX, Chen QJ, Sun T, Jiang C*. A Peptide-Drug Conjugate-Based Nanoplatform for Immunometabolic Activation and In Situ Nerve Regeneration in Advanced-Stage Alzheimer's Disease. Advanced Materials. 2024;2407829.
10. Li XW, Guo Q, Chen QJ, Chu YC, Zhang YW, Chen HY, Zhao ZH, Wang Y, Luo YF, Li CF, You HY, Song HL, Su BY, Jalili K, Sun T, Jiang C*. Reconciling the Cooperative–Competitive Patterns among Tumor and Immune Cells for Triple-Negative Breast Cancer Treatment Using Multimodule Nanocomplexes. Advanced Materials. 2024;2312219.
11. Li XW, Sun T*, Jiang C*. Intelligent Delivery Systems in Tumor Metabolism Regulation: Exploring the Path Ahead. Advanced Materials. 2024;2309582.
12. Chen QJ, Liu LS, Lu YF, Chen XL, Zhang YJ, Zhou WX, Guo Q, Li C, Zhang YW, Zhang Y, Liang DH, Sun T, Jiang C*. Tumor Microenvironment‐Triggered Aggregated Magnetic Nanoparticles for Reinforced Image‐Guided Immunogenic Chemotherapy. Advanced Science.201802134
13. Zhang YJ, Zhu X, Chen XL, Chen QJ, Zhou WX, Guo Q, Lu YF, Li C, Zhang Y, Liang DH, Sun T, Wei XB, Jiang C*. Activated Platelets-Targeting Micelles with Controlled Drug Release for Effective Treatment of Primary and Metastatic Triple Negative Breast Cancer. Advanced Functional Materials, 2019, 1806620.
14. Lu YF , Guo ZY, Zhang YJ, Li C, Zhang Y, Guo Q, Chen QJ, Chen QJ, He X,Liu LS, Ruan CH, Sun T,Ji B, Lu WG, Jiang C*. Microenvironment remodeling micelles for Alzheimer’s disease therapy by early modulation of activated microglia. Advanced Science, 2018, 1801586
15. He X, Chen XL, Liu LS, Zhang Y,Lu YF, Zhang YJ, Chen QJ, Ruan CH, Guo Q, Li C, Sun T, Jiang C*. Sequentiallygered nanoparticles with tumor penetration and intelligent drug release for pancreatic cancer therapy. Advanced Science, 2018, 1701070.
16. Zhang Y, Cai KM, Li C, Guo Q, Chen QJ, He X, Liu LS, Zhang YJ, Lu YF, Chen XL, Sun T, Huang YZ, Cheng JJ, Jiang C*. Macrophage membrane-coated nanoparticles for tumor-targeted chemotherapy. Nano Letters, 2018, 18, 1908-1915.
17. Zhang YJ, Guo ZY, Cao ZL, Zhou WX, Zhang Y, Chen QJ, Lu YF, Chen XL, Guo Q, Li C, Liang DH, Sun T, Jiang C*.Endogenous albumin-mediated delivery of redox responsive micelles for targeted cancer therapy. Biomaterials, 2018, 183, 243-257.
18. Chen XL, Wang QB, Liu LS, Sun T, Wenxi Zhou, Chen QJ, Lu YF, He X, Zhang Y, Zhang YJ, Ruan CH, Guo Q, Chao Li, Jiang C*. Double-sided effect of tumor microenvironment on platelets targeting nanoparticles. Biomaterials, 2018, 183, 258-267.
19. Sun T, Zhang GP, Wang QB, Chen QJ, Chen XL, Lu YF, Liu LS, Zhang Y, He X, Ruan CH, Zhang YJ, Guo Q, Jiang C*. A targeting theranostics nanomedicine as an alternative approach for hyperthermia perfusion. Biomaterials, 2018,183: 268-279.
20. He X, Zhang JX, Chao Li, Zhang Y, Lu YF, Zhang YJ, Liu LS, Ruan CH, Chen QJ, Chen XL, Guo Q, Sun T, Cheng JJ*, Jiang C*. Theranostics, 2018, 8 (18), 4884-4897.
21. Liu LS, Chen QJ, Ruan CH, Chen XL, Zhang Y, He X, Zhang YJ, Lu YF, Guo Q, Sun T, Wang H*, Jiang C*. Platinum-based nanovectors engineered with immune-modulating adjuvant for inhibiting tumor growth and promoting immunity. Theranostics, 2018, 8 (11), 2974-2987.
22. Liu Y, An S, Li J, Kuang Y, He X, Guo Y, Ma H, Zhang Y, Ji B, Jiang C*. Brain-targeted co-delivery of therapeutic gene and peptide by multifunctional nanoparticles in Alzheimer's disease mice. Biomaterials. 2016 Feb;80:33-45. doi:10.1016/j.biomaterials.2015.11.060.
23. An S, Lu X, Zhao W, Sun T, Zhang Y, Lu Y, Jiang C*.Amino Acid Metabolism Abnormity and Microenvironment Variation Mediated Targeting and Controlled Glioma Chemotherapy. Small. 2016 Oct;12(40):5633-5645. doi: 10.1002/smll.201601249.
24. An S, He DS, Wagner E*, Jiang C*,Peptide-like polymers exerting effective glioma-targeted siRNA delivery and release for therapeutic application. Small,2015 Jul 28. doi: 10.1002/smll.201501167.
25. Cai K, He X, Song Z, Yin Q, Zhang Y, Uckun FM, Jiang C* Dimeric drug polymeric nanoparticles with exceptionally high drug loading and quantitative loading efficiency. J Am Chem Soc. 2015 Mar 18;137(10):3458-61.
26. An S, Jiang XT, Shi J, He X, Li JF, Guo Y, Zhang Y, Ma HJ, Lu YF, Jiang C*, Single-component self-assembled RNAi nanoparticles fnctionalized with tumor-targeting iNGR delivering abundant siRNA for efficient glioma therapy. Biomaterials, 2015 June, 53: 330–340.
27. Shao K, Ding N, Huang S, Ren S, Zhang Y, Kuang Y, Guo Y, Ma H, An S, Li Y,Jiang C*.Smart Nanodevice Combined Tumor-Specific Vector with Cellular Microenvironment-Triggered Property for Highly Effective Antiglioma Therapy. ACS Nano. 2014 Feb 25;8(2):1191-203.
28. Han L, Liu MM, Ye DY, Zhang N, Lim Ed, Lu J, Jiang C*. Tumor cell membrane-targeting pH-dependent electron donor-acceptor fluorescence systems with low background signals. Biomaterials.2014 Mar;35(9):2952-60.
29. Li JF, Guo YB, Kuang YY, An S, Ma HJ, Jiang C*. Choline-derivate modified co-delivery system for Glioma therapy. Biomaterials. 2013 Dec;34(36):9142-8
30. An S, Kuang YY, Li JF, Ma HJ, Guo YB, He X, Jiang C*. Brain-targeting delivery for RNAi neuroprotection against cerebral ischemia reperfusion injury. Biomaterials.2013 34(35):8949-59.
31. Han L, Guo Y, Ma H, He X, Kuang Y, Zhang N, Lim Ed, Zhou WJ, Jiang C*.Acid Active Receptor-Specific Peptide Ligand for In Vivo Tumor-Targeted Delivery, Small, 2013 Nov 11;9(21):3647-58.
32. Huang SX, Shao K, Liu Y, Kuang YY, Li JF, An S, Guo Y, Ma HJ, Jiang C*, Tumor Targeting and Microenvironment Responsive Smart Nanoparticles for Combination Therapy of Anti-Angiogenesis and Apoptosis. ACS Nano. 2013 Mar 26;7(3):2860-71.
33. Huang S, Shao K, Kuang Y, Liu Y, Li J, An S, Guo Y, Ma H, He X, Jiang C*.Tumor Targeting and Microenvironment Responsive Smart Nanoparticles for Gene Delivery. Biomaterials. 2013 Jul;34(21):5294-302.
34. Liu Y, Hu Y, Guo Y, Ma H, Li J, Jiang C*.Targeted imaging of activated caspase-3 in the central nervous system by a dual functional nano-device.J Control Release. 2012 Oct 28;163(2):203-10.
35. Shao K, Wu J, Chen Z, Huang S, Li JF, Ye L, Lou J, Zhu L, Jiang C*. A brain-vectored angiopep-2 based polymeric micelles for the treatment of intracranial fungal infection. Biomaterials. 2012 Oct;33(28):6898-907.
36. Liu SH, Ma HJ, Guo YB, Li JF, Huang SX, Kuang Y, Han L, Shao K, Liu Y, Jiang C*. Gene and doxorubicin co-delivery system for targeting therapy of glioma. Biomaterials.2012;33(19):4907-16.
37. Li J, Zhou L, Ye D, Huang S, Shao K, Huang R, Han L, Liu Y, Ye L, Lou J, Jiang C*.Choline-Derivate-Modified Nanoparticles for Brain-Targeting Gene Delivery. Advanced Materials. 2011 Oct 18;23(39):4516-20.
38. Huang SX, Li JF, Han L, Liu SH, Ma HJ, Huang RQ, Jiang C*, Dual targeting effect of Angiopep-2-modified, DNA-loaded nanoparticlesfor glioma. Biomaterials.2011, 32: 6832-6838.
