标题：Reaction-free and MMP-independent fluorescent probes for long-term mitochondria visualization and tracking
作者：Zhang, Ruoyao; Niu, Guangle; Li, Xuechen; Guo, Lifang; Zhang, Huamiao; Yang, Rui; Chen, Yuncong; Yu, Xiaoqiang; Tang, Ben Zhong
作者机构：[Zhang, Ruoyao; Li, Xuechen; Guo, Lifang; Zhang, Huamiao; Yang, Rui; Yu, Xiaoqiang] Shandong Univ, State Key Lab Crystal Mat, Ctr Bio & Micronano Func 更多
通讯作者：Yu, Xiaoqiang;Yu, XQ;Tang, BZ;Tang, BZ
通讯作者地址：[Yu, XQ]Shandong Univ, State Key Lab Crystal Mat, Ctr Bio & Micronano Funct Mat, Jinan 250100, Shandong, Peoples R China;[Tang, BZ]Hong Kong Univ Sci 更多
摘要：Visualizing and tracking mitochondrial dynamic changes is crucially important in the fields of physiology, pathology and pharmacology. Traditional electrostatic-attraction based mitochondrial probes fail to visualize and track the changes due to their leakage from mitochondria when mitochondrial membrane potential (MMP) decreases. Reaction-based MitoTracker probes can realize visualization and tracking of mitochondria changes independent of MMP changes. However, such probes impair mitochondrial proteins and exhibit high cytotoxicity. Therefore, it still remains challenging to explore reaction-free and highly biocompatible probes for visualizing and tracking mitochondrial dynamics independent of MMP fluctuations. Herein we synthesized two reaction-free fluorescent mitochondrial probes ECPI-12 and IVPI-12 bearing a long C12-alkyl chain. These cationic probes can firmly immobilize in the mitochondrial inner membrane by strong hydrophobic interaction between the C12-alkyl chain and lipid bilayer, resulting in high specificity and long-term mitochondrial staining regardless of MMP changes. They also exhibit large two-photon absorption cross-sections and show deep penetration in live tissues in twophoton microscopy. Furthermore, they display excellent biocompatibility and realize in situ and real-time mitophagy tracking in live cells. These excellent properties could make ECPI-12 and IVPI-12 the first selective tools for long-term visualization and tracking of mitochondrial dynamics.