Synthesis and Evaluation of 18 F-Labeled Chalcone Analogue for Detection of α-Synuclein Aggregates in the Brain Using the Mouse Model.

In the brains of patients with synucleinopathies such as Parkinson's disease, dementia with Lewy bodies, and multiple system atrophy, α-synuclein (α-syn) aggregates deposit abnormally to induce neurodegeneration, although the mechanism is unclear. Thus, in vivo imaging studies targeting α-syn aggregates have attracted much attention to guide medical intervention against synucleinopathy. In our previous study, a chalcone analogue, [ 125 I]PHNP-3, functioned as a feasible probe in terms of α-syn binding in vitro ; however, it did not migrate to the mouse brain, and further improvement of brain uptake was required. In the present study, we designed and synthesized two novel 18 F-labeled chalcone analogues, [ 18 F]FHCL-1 and [ 18 F]FHCL-2, using a central nervous system multiparameter optimization (CNS MPO) algorithm with the aim of improving blood-brain barrier permeation in the mouse brain. Then, we evaluated their utility for in vivo imaging of α-syn aggregates using a mouse model. In the competitive inhibition assay, both chalcone analogues exhibited high binding affinity for α-syn aggregates ( K i = 2.6 and 3.4 nM, respectively), while no marked amyloid β (Aβ)-binding was observed. The 18 F-labeling reaction was successfully performed. In a biodistribution experiment, brain uptake of both chalcone analogues in normal mice (2.09 and 2.40% injected dose/gram (% ID/g) at 2 min postinjection, respectively) was higher than that of [ 125 I]PHNP-3, suggesting that the introduction of 18 F into the chalcone analogue led to an improvement in brain uptake in mice while maintaining favorable binding ability for α-syn aggregates. Furthermore, in an ex vivo autoradiography experiment, [ 18 F]FHCL-2 showed the feasibility of the detection of α-syn aggregates in the mouse brain in vivo . These preclinical studies demonstrated the validity of the design of α-syn-targeting probes based on the CNS MPO score and the possibility of in vivo imaging of α-syn aggregates in a mouse model using 18 F-labeled chalcone analogues.