Assessing amyloid plaque burden in aging marmosets and genetically engineered PSEN1 mutation carriers using 11C‐PiB PET

Abstract

AbstractBackgroundThere is an urgent need to develop novel animal models to investigate the underlying cellular and molecular root causes of the pathogenesis and progression of AD. Our group has worked to establish the common marmoset as the first primate‐specific model of AD to reveal the earliest cellular and molecular events of AD processes and allow charting of AD progression from its inception. For this, we established a colony of outbred marmosets and used genetic engineering techniques to generate marmosets carrying the PSEN1‐C410Y and PSEN1‐A426P mutations that cause early‐onset, familial AD. The present study aims to use PET imaging to access and track the progression of Ab plaque burden non‐invasively and longitudinally in our marmoset models of AD.MethodMarmosets anesthetized with isoflurane delivered via a facemask were placed in a preclinical PET/CT scanner customized with marmoset‐specific beds. Respiratory rate, heart rate, arterial O2 saturation, and rectal temperature were monitored and maintained at normal physiological values. Our PET imaging protocol follows the Alzheimer’s Disease Neuroimaging Initiative (ADNI). The amyloid‐binding 11C‐Pittsburgh Compound B (11C‐PiB) was delivered intravenously in doses varying from 18.5 – 185 MBq (0.5 – 5 mCi). A 90‐min dynamic acquisition was performed immediately following the radiotracer injection, followed by a 3D CT scan acquired at 200 µm isotropic resolution. After the PET/CT neuroimaging scan, the marmosets were recovered from anesthesia and returned to their home cages.ResultWe observed positive 11C‐PiB binding and retention in the brains of aging outbred marmosets and in marmosets harboring PSEN1 mutations. Significant 11C‐PiB retention was observed in the cortex and white matter tracts. The areas with the highest 11C‐PiB retention were the lateral frontal cortex, anterior cingulate cortex, and temporal lobe regions.ConclusionThis study demonstrates using 11C‐PiB to track Ab plaque burden in the brains of aging marmosets and marmosets harboring PSEN1 mutations. As observed in human patients of AD, the amount of 11C‐PiB bound (measured in SUV and SUVR units) varied from animal to animal, and we are currently performing group analysis to investigate the dependence of 11C‐PiB retention on age and sex.This research was funded by NIH/NIA grants R24AG073190 and U19AG074866.