纳米探针
体内
酶
临床前影像学
生物标志物
化学
亚细胞定位
信号(编程语言)
磁共振成像
荧光
病理
核磁共振
医学
分子成像
酶分析
斑马鱼
分子生物学
疾病
成像生物标志物
作者
Lingling Xu,Qiaochu Jiang,Yuanyuan Jin,Tianyu Lin,Ruijie Cao,Haidong Xu,Xiaoyang Liu,Zhanjun Yang,Wenjun Zhan,Gaolin Liang
摘要
ABSTRACT Alzheimer's disease (AD) is the most common progressive neurodegenerative disorder with very few therapeutic methods; thus, its early detection is urgently important. β‐secretase (BACE1) is a well‐recognized biomarker of early‐stage AD, but its in vivo imaging‐based diagnostic method is rarely reported. Herein, we report a BACE1‐disassemblable nanoprobe, 19 F‐Cy5.5‐NP for “Turn‐On” 19 F magnetic resonance/near‐infrared fluorescence ( 19 F MR/NIR‐FL) imaging of the enzyme activity in AD in vivo. The “Turn‐On” 19 F MRI signals are employed for imaging BACE1 activity with high specificity, while the “Turn‐On” NIR‐FL signals are used for double checking the enzyme activity with high spatial resolution. Specifically, 19 F‐Cy5.5‐NP, with a silent 19 F MR/NIR‐FL signal is obtained from the precursor Cys(StBu)‐Glu‐Val‐Asn‐Leu‐Asp‐Ala‐Glu‐Phe(CF 3 )‐Lys(Cy5.5)‐CBT ( 19 F‐Cy5.5 ) through a CBT‐Cys click reaction. Upon BACE1 cleavage, the nanoprobe disassembles, resulting in 6.8 ± 1.3‐fold and 9.5 ± 0.3‐fold increases of 1 9 F NMR and NIR‐FL signals in vitro, respectively. Moreover, 19 F‐Cy5.5‐NP renders 4.6 ± 0.9‐fold/1.5 ± 0.1‐fold higher 19 F MRI/NIR‐FL signal in Aβ 25–35 ‐treated PC12 cells than that in normal PC12 cells. In vivo experimental results show that this nanoprobe enables the precise imaging of BACE1 activity in AD zebrafish models. We anticipate that 19 F‐Cy5.5‐NP could be applied for the early diagnosis of AD in clinics in the future.
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