De Novo Design of a Robust Fluorescent Probe for Basal HClO Imaging in a Mouse Parkinson’s Disease Model
Jiali Chen, Yao Lu, Yue Wu, Zhipeng Chen, Xingjiang Liu, Chengwu Zhang, Jiarong Sheng, Lin Li, Wenqiang Chen, Xiangzhi Song
Abstract
Elevated HClO gets involved in the pathogenesis of Parkinson’s disease (PD). Herein, a novel fluorescent probe NUU-1 was designed and synthesized. Distinct from the general strategies, NUU-1 features two distinct HClO reactive sites, a HClO-specific reaction site and a HClO-nonspecific reactive site, which in turn endows NUU-1 with the “0 + 1 > 1” amplification effect, that thus dramatically promotes the selectivity. NUU-1 displayed a fast response rate (within 15 s), remarkable fluorescence enhancement (about 538-fold), and excellent sensitivity (LOD = 25.8 nM) in response to HClO while the remaining fluorescence silence toward other common ROS (H2O2, •OH, ONOO–, O2•–, and 1O2) even at high concentrations (up to 0.5 mM). NUU-1 allows for the imaging of both exogenous and endogenous HClO in living dopaminergic cells (SH-SY5Y). Moreover, by employing NUU-1 as the probe, the image of HClO in C. elegans and zebrafish was successfully achieved. Significantly, in the first trial, NUU-1 was successfully utilized for the brain basal HClO imaging in PD mice models and distinguished PD brain tissues from normal control, thereby holding great potential for in-depth biological applications.