余爽,博导,PI,从事干细胞与再生医学领域研究近二十年。2001年华中科技大学同济医学院七年制临床医学本科及硕士学位,2004年首都医科大学神经生物学博士学位,2004-2016加入德国慕尼黑马普研究所,历任博士后、高级研究人员、欧盟Switchbox项目负责人。2016年回国后被聘为中国科学院苏州生物科学技术研究所研究员,现任生物材料与干细胞研究室副主任。
目前主持项目包括国家干细胞重点研发专项、中国科学院战略先导专项A、国家自然科学基金、江苏省重点研发专项等多项国家和省市级重大课题。以第一作者和通讯作者的身份发表50余篇SCI论文。参与出版英文专著1部。目前致力于下列研究:(1)干细胞/类器官培养及相关的细胞替代疗法在皮肤功能性重建中的应用;(2)干细胞/外泌体技术在神经精神疾病中的应用及其机制探索;(3)多物理因素与生物因素协同参与干细胞为基础的修复及再生。
中科院百人计划、江苏省双创团队,江苏省“333” 中青年科学技术带头人,姑苏重大创新创业人才等
(1)干细胞/类器官培养及相关的细胞替代疗法在皮肤功能性重建中的应用;
(2)干细胞/外泌体技术在神经精神疾病中的应用及其机制探索;
(3)多物理因素与生物因素协同参与干细胞为基础的修复及再生。
1、国家重点研发计划“干细胞研究与器官修复”:物理性因素调控组织干细胞促进创伤后组织原位再生修复的机制与新策略(课题负责人,总经费2600万元,主持经费650万元)
2、中科院战略性先导科技专项(A类)器官重建与制造:三维培养及人工皮肤三维重建装置为基础的皮肤类器官构建(主持,经费:300万元)
3、姑苏重大创新团队项目:干细胞关键技术研发及其核心装备产业化开发(联合主持,经费:1000万元)。
4、国家自然科学基金青年项目:脑源性神经营养因子干预早年糖皮质激素相关精神障碍的可行性研究(主持,经费20万元)
5、江苏省重点研发计划:基因工程结合智能生物材料重编程人星型胶质细胞治疗帕金森病的临床前研究(主持,经费:150万元)。
6、省“333”科研项目:多能干细胞及智能生物材料为基础的拟纹状体组织构建及对PD大鼠模型的疗效研究(主持)
1. Activation of angiopoietin-1 signaling with engineering mesenchymal stem cells promoted efficient angiogenesis in diabetic wound healing. Stem Cell Res Ther. 2025;16:75.
2. Controlled release of mesenchymal stem cell-derived nanovesicles through glucose- and reactive oxygen species-responsive hydrogels accelerates diabetic wound healing. Journal of Controlled Release, 2024 Dec:376:985-998.
3. Adipose-Derived Stem-Cell-Membrane-Coated PLGA-PEI Nanoparticles Promote Wound Healing via Efficient Delivery of miR-21. Pharmaceutics. 2024 Aug 23;16(9):1113.
4. The composite biomatrix SC/CM improved the therapeutic effects of xenogeneic MSC on wound healing in immune-competent mice via immune niche reprogramming. J. Mater Sci., 2024,59, 15514–15528.
5. Metformin coordinates with mesenchymal cells to promote VEGF-mediated angiogenesis in diabetic wound healing through Akt/mTOR activation. Metabolism. 2023 Mar;140:155398.
6. Development of a portable reflectance confocal microscope and its application in the noninvasive in vivo evaluation of mesenchymal stem cell-promoted cutaneous wound healing. Bio-design and manufacturing, 2023;6:268–283
7. Cerebral-Organoid-Derived Exosomes Alleviate Oxidative Stress and Promote LMX1A-Dependent Dopaminergic Differentiation. Int J Mol Sci. 2023 Jul 4;24(13):11048.
8. Novel pneumatically assisted atomization device for living cell delivery and application of sprayed mesenchymal stem cells in skin regeneration. Bio design and manufacturing. 2022; 5, 220–232.
9. Wang NN, Ji XR, Wu Y, Zhou SC, Peng HY, Wang JW, Yu S*, Zhang JZ. The Different Molecular Code in Generation of Dopaminergic Neurons from Astrocytes and Mesenchymal Stem Cells. Int J Mol Sci. 2021; 22(22): 12141
10. Zhou Y, Zhou JH, Xu X, Du FZ, Nie MT, Hu LZ, Ma YH, Liu MM, Yu S*, Zhang JZ, Chen YG. Matrigel/umbilical cord-derived mesenchymal stem cells promote granulosa cell proliferation and ovarian vascularization in a mouse model of premature ovarian failure. Stem Cells and Development. 2021; 30(15):782-796
11. An L, Tao Q, Wu Y, Wang N, Liu Y, Wang F, Zhang L, Shi A, Zhou X, Yu S*, Zhang J. Synthesis of SPIO nanoparticles and the subsequent applications in stem cell labeling for Parkinson's disease. Nanoscale Res Lett, 2021, 16:107
12. Liu Y, Zhou Y, Huang K-H, Fang X, Li Y, Wang F, An L, Chen Q, Zhang Y, Shi A, Yu S*, Jingzhong Zhang. Targeting epidermal growth factor-overexpressing triple-negative breast cancer by natural killer cells expressing a specific chimeric antigen receptor. CELL PROLIFERATION, 2020;00:e12858.
13. Chen Q, Wang F, Zhang Y, Liu Y, An L, Ma Z, Zhang J, Yu S*. Neonatal DEX exposure leads to hyperanxious and depressive-like behaviors as well as a persistent reduction BDNF expression in developmental stages. Biochemical and Biophysical Research Communications, 2020, Vol.527(1): 311-316
14. Liu Y, Song H, Yu S, Huang K-H, Ma X, Zhou Y, Yu S*, Zhang J, Chen L. Protein Kinase D3 promotes the cell proliferation by activating the ERK1/c-MYC axis in breast cancer. Journal of Cellular and Molecular Medicine. 2020 Feb;24(3):2135-2144
*为通讯作者。
余爽 研究员
研究方向:
电子邮件:yush@sibet.ac.cn
电 话:13951103916
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