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Design and Evaluation of [ 18 F]CHDI-650 as a Positron Emission Tomography Ligand to Image Mutant Huntingtin Aggregates.

Longbin LiuPeter D JohnsonMichael E PrimeVinod KhetarpalChristopher J BrownLuca AnzillottiDaniele BertoglioXuemei ChenSamuel CoeRandall DavisAnthony P DickieSimone EspositoElise GadouleauPaul R GilesCatherine GreenawayJames HaberChrister HalldinScott HallerSarah HayesTodd HerbstFrank HerrmannManuela HeßmannMing Min HsaiYaser KhaniAdrian KoteyAngelo LemboJohn E MangetteGwendolyn A MarrinerRichard W MarstonMatthew R MillsEdith MonteagudoAnton Forsberg-MorénSangram NagLaura OrsattiChristine SandiegoSabine SchaertlJoanne SprostonSteven StaelensJack TookeyPenelope A TurnerAndrea VecchiMaria VenezianoIgnacio Muñoz-SanjuanJonathan A BardCelia Dominguez
Published in: Journal of medicinal chemistry (2022)
Therapeutic interventions are being developed for Huntington's disease (HD), a hallmark of which is mutant huntingtin protein (mHTT) aggregates. Following the advancement to human testing of two [ 11 C]-PET ligands for aggregated mHTT, attributes for further optimization were identified. We replaced the pyridazinone ring of CHDI-180 with a pyrimidine ring and minimized off-target binding using brain homogenate derived from Alzheimer's disease patients. The major in vivo metabolic pathway via aldehyde oxidase was blocked with a 2-methyl group on the pyrimidine ring. A strategically placed ring-nitrogen on the benzoxazole core ensured high free fraction in the brain without introducing efflux. Replacing a methoxy pendant with a fluoro-ethoxy group and introducing deuterium atoms suppressed oxidative defluorination and accumulation of [ 18 F]-signal in bones. The resulting PET ligand, CHDI-650, shows a rapid brain uptake and washout profile in non-human primates and is now being advanced to human testing.
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