Neurofibrillary tangles (NFTs) have long been recognized as one of the pathological hallmarks in Alzheimer's disease (AD). Recent studies, however, showed that soluble aggregated Tau species, especially hyperphosphorylated Tau oligomers, which are formed at early stage of AD prior to the formation of NFT, disrupted neural system integration. Unfortunately, little is known about Tau aggregates, and few Tau targeted imaging probe has been reported. Successful development of new imaging methods that can visualize early stages of Tau aggregation specifically will obviously be important for AD imaging, as well as understanding Tau-associated neuropathology of AD. Here, we report the first NIR ratiometric probe, CyDPA2, that targets Tau aggregates. The specificity of CyPDA2 to aggregated Tau was evaluated with in vitro hyperphosphorylated Tau proteins (pTau), as well as ex vivo Tau samples from AD human brain samples and the tauopathy transgenic mouse model, P301L. The characteristic enhancements of absorption ratio and fluorescence intensity in CyDPA2 were observed in a pTau concentration-dependent manner. In addition, fluorescence microscopy and gel staining studies demonstrated CyDPA2-labeled Tau aggregates. These data indicate that CyDPA2 is a promising imaging probe for studying Tau pathology and diagnosing AD at an early stage.
Keywords: Alzheimer’s disease (AD); Near infrared (NIR); Tau; imaging; probe; ratiometric.