国際高等研究基幹

丁 昭文

ディーン ジャオウェン  (ZHAOWEN DING)

基本情報

所属
千葉大学 国際高等研究基幹 特任研究員

研究者番号
50995925
ORCID ID
 https://orcid.org/0000-0002-2362-7530
J-GLOBAL ID
202301006617763504
researchmap会員ID
R000057314

論文

 7
  • Xiaoming Hu, Shuang Wang, Shaotong Fu, Meng Qin, Chengliang Lyu, Zhaowen Ding, Yan Wang, Yishu Wang, Dongshu Wang, Li Zhu, Tao Jiang, Jing Sun, Hui Ding, Jie Wu, Lingqian Chang, Yimin Cui, Xiaocong Pang, Youchun Wang, Weijin Huang, Peidong Yang, Limin Wang, Guanghui Ma, Wei Wei
    Nature Communications 2023年12月18日  
  • Zhaowen Ding, Xiao Zhang, Yan Wang, Kenji Ogino, Yuanbin Wu, Hua Yue, Zhouguang Jiao, Cui Song, Guihong Lu, Shuang Wang, Xiaoyong Gao, Yongjun Gao, Min Shi, Yugang Wang, Guanghui Ma, Wei Wei
    Nano Today 49 101815-101815 2023年4月  
  • Liwen Huang, Xiao Zhang, Zhaowen Ding, Yilin Qi, Wenjing Wang, Xihan Xu, Hua Yue, Lihuan Bai, Heping Wang, Leyan Feng, Jing Ren, Xue Yang, Guanghui Ma, Wei Wei, Xue Xue
    Nano Today 46 101556-101556 2022年10月  
  • Shuang Wang, Feng Li, Tong Ye, Jianghua Wang, Chengliang Lyu, Shuang Qing, Zhaowen Ding, Xiaoyong Gao, Rongrong Jia, Di Yu, Jun Ren, Wei Wei, Guanghui Ma
    Science Translational Medicine 13(615) 2021年10月13日  
    Macrophage-tumor chimeric exosomes inhibit tumor growth in multiple mouse models by stimulating the immune response and tumor microenvironment.
  • Xiao Zhang, Zhaowen Ding, Guanghui Ma, Wei Wei
    Advanced Science 8(11) 2021年3月23日  
    Abstract Bio–nano interfaces are integral to all applications of nanomaterials in biomedicine. In addition to peptide‐ligand‐functionalized nanomaterials, passivation on 2D nanomaterials has emerged as a new regulatory factor for integrin activation. However, the mechanisms underlying such ligand‐independent processes are poorly understood. Here, using graphene oxide passivated with polyethylene glycol (GO‐PEG) as a test bed, a ternary simulation model is constructed that also includes a membrane and both subunits of integrin αvβ8 to characterize GO‐PEG‐mediated integrin activation on the cell membrane in a ligand‐independent manner. Combined with the experimental findings, production simulations of the ternary model show a three‐phase mechanotransduction process in the vertical interaction mode. Specifically, GO‐PEG first induces lipid aggregation‐mediated integrin proximity, followed by transmembrane domain rotation and separation, leading to the extension and activation of extracellular domains. Thus, this study presents a complete picture of the interaction between passivated 2D nanomaterials and cell membranes to mediate integrin activation, and provides insights into the potential de novo design and rational use of novel desirable nanomaterials at diverse bio–nano interfaces.