Abstract
IntroductionCurcumin is a neuroprotective compound that inhibits the formation of amyloid oligomers and fibrils and binds to β-amyloid plaques in Alzheimer’s disease (AD). We aimed to synthesize an 18F-labeled curcumin derivate ([18F]4) and to characterize its positron emission tomography (PET) tracer-binding properties to β-amyloid plaques in a transgenic APP23 mouse model of AD. MethodsWe utilized facile one-pot synthesis of [18F]4 using nucleophilic 18F-fluorination and click chemistry. Binding of [18F]4 to β-amyloid plaques in the transgenic APP23 mouse brain cryosections was studied in vitro using heterologous competitive binding against PIB. [18F]4 uptake was studied ex vivo in rodents and in vivo using PET/computed tomography of transgenic APP23 and wild-type control mice. ResultsThe radiochemical yield of [18F]4 was 21±11%, the specific activity exceeded 1TBq/μmol, and the radiochemical purity exceeded 99.3% at the end of synthesis. In vitro studies of [18F]4 with the transgenic APP23 mouse revealed high β-amyloid plaque binding. In vivo and ex vivo studies demonstrated that [18F]4 has fast clearance from the blood, moderate metabolism but low blood–brain barrier (BBB) penetration. Conclusions[18F]4 was synthesized in high yield and excellent quality. In vitro studies, metabolite profile, and fast clearance from the blood indicated a promising tracer for Aβ imaging. However, [18F]4 has low in vivo BBB penetration and thus further studies are needed to reveal the reason for this and to possibly overcome this issue.
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