A high‐performance cell‐labeling NIR‐II dye for in vivo cell tracking
Bin Sun,
Rui Ma,
Xin Wang,
Shengjie Ma,
Wenzhong Li,
Tianyi Liu,
Wenhao Zhu,
Zhengchao Ji,
Kenneth S. Hettie,
Chunchen Liu,
Yongye Liang,
Shoujun Zhu
Affiliations
Bin Sun
Joint Laboratory of Opto‐Functional Theranostics in Medicine and Chemistry The First Hospital of Jilin University Changchun P.R. China
Rui Ma
Department of Materials Science and Engineering Southern University of Science and Technology Shenzhen P.R. China
Xin Wang
Joint Laboratory of Opto‐Functional Theranostics in Medicine and Chemistry The First Hospital of Jilin University Changchun P.R. China
Shengjie Ma
Joint Laboratory of Opto‐Functional Theranostics in Medicine and Chemistry The First Hospital of Jilin University Changchun P.R. China
Wenzhong Li
Joint Laboratory of Opto‐Functional Theranostics in Medicine and Chemistry The First Hospital of Jilin University Changchun P.R. China
Tianyi Liu
Department of Neurosurgery The First Hospital of Jilin University Changchun P.R. China
Wenhao Zhu
Department of Neurosurgery The First Hospital of Jilin University Changchun P.R. China
Zhengchao Ji
Joint Laboratory of Opto‐Functional Theranostics in Medicine and Chemistry The First Hospital of Jilin University Changchun P.R. China
Kenneth S. Hettie
Molecular Imaging Program at Stanford, Department of Radiology and Otolaryngology—Head & Neck SurgeryStanford University School of MedicineStanford California USA
Chunchen Liu
Department of Materials Science and Engineering Southern University of Science and Technology Shenzhen P.R. China
Yongye Liang
Department of Materials Science and Engineering Southern University of Science and Technology Shenzhen P.R. China
Shoujun Zhu
Joint Laboratory of Opto‐Functional Theranostics in Medicine and Chemistry The First Hospital of Jilin University Changchun P.R. China
Abstract Fluorescent dyes that emit in the second near‐infrared (NIR‐II, 1000–3000 nm) region have provided significant advances toward real‐time and high‐resolution imaging of vessel and lymphatic system. However, in vivo NIR‐II tracking of the fate of labeled cells still remains challenging. Here, we develop a shielding unit–donor–acceptor–donor–shielding unit (S‐D‐A‐D‐S) NIR‐II fluorophore (FE‐4ZW) with zwitterionic terminal groups for high‐efficiency cell labeling without using cell‐penetrating peptides, which provides for enhanced non‐invasive in vivo determination of the location of cell migration. The tethering terminal sulfoammonium inner salts are featured with its high affinity for cell membranes, thereby enabling the stable labeling even for fixed cells. The fate of transplanted stem cell and the tumor cell migration along lymphatic system in brain or periphery tissues are clearly monitored by the cell‐internalized FE‐4ZW. We also confirmed that a clinically used surfactant, D‐α‐tocopheryl polyethylene glycol‐1000 succinate, can reduce the liver and spleen uptake of FE‐4ZW. The fluorophore design strategy and cell‐labeling technology reported here open a new realm in the visualization of cell migration and insight into the relocation process, thereby ultimately providing an opportunity to investigate in greater detail of the underlying mechanisms of stem cell therapy and tumor metastasis.
