1. Butyrylcholinesterase-knockout reduces fibrillar β-amyloid and conserves 18FDG retention in 5XFAD mouse model of Alzheimer’s disease
- Author
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Drew R. DeBay, Chris V. Bowen, Ian R. Macdonald, George Andrew Reid, Earl Martin, Sultan Darvesh, Steve Burrell, and George Mawko
- Subjects
0301 basic medicine ,Genetically modified mouse ,medicine.medical_specialty ,Cerebellum ,Pathology ,Amyloid ,Chemistry ,General Neuroscience ,Hippocampal formation ,medicine.disease ,03 medical and health sciences ,030104 developmental biology ,0302 clinical medicine ,Endocrinology ,medicine.anatomical_structure ,Cerebral cortex ,Internal medicine ,medicine ,Cholinergic ,Neurology (clinical) ,Alzheimer's disease ,Molecular Biology ,030217 neurology & neurosurgery ,Butyrylcholinesterase ,Developmental Biology - Abstract
Alzheimer's disease (AD) is the most common neurodegenerative disorder causing dementia. One hallmark of the AD brain is the deposition of β-amyloid (Aβ) plaques. AD is also a state of cholinergic dysfunction and butyrylcholinesterase (BChE) associates with Aβ pathology. A transgenic mouse (5XFAD) is an aggressive amyloidosis model, producing Aβ plaques with which BChE also associates. A derived strain (5XFAD/BChE-KO), with the BChE gene knocked out, has significantly lower fibrillar Aβ than 5XFAD mice at the same age. Therefore, BChE may have a role in Aβ pathogenesis. Furthermore, in AD, diminished glucose metabolism in the brain can be detected in vivo with positron emission tomography (PET) imaging following 2-deoxy-2-(18F)fluoro-D-glucose (18FDG) administration. To determine whether hypometabolism is related to BChE-induced changes in fibrillar Aβ burden, whole brain and regional uptake of 18FDG in 5XFAD and 5XFAD/BChE-KO mice was compared to corresponding wild-type (WT5XFAD and WTBChE-KO) strains at 5months. Diminished fibrillar Aβ burden was confirmed in 5XFAD/BChE-KO mice relative to 5XFAD. 5XFAD and 5XFAD/BChE-KO mice demonstrated reduction in whole brain 18FDG retention compared to respective wild-types. Regional analysis of relevant AD structures revealed reduction in 18FDG retention in 5XFAD mice in all brain regions analyzed (save cerebellum) compared to WT5XFAD. Alternatively, 5XFAD/BChE-KO mice demonstrated a more selective pattern of reduced retention in the cerebral cortex and thalamus compared to WTBChE-KO, while retention in hippocampal formation, amygdala and basal ganglia remained unchanged. This suggests that in knocking out BChE and reducing fibrillar Aβ, a possible protective effect on brain function may be conferred in a number of structures in 5XFAD/BChE-KO mice.
- Published
- 2017
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