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Literature DB >> 34312508

Brain-wide Cas9-mediated cleavage of a gene causing familial Alzheimer's disease alleviates amyloid-related pathologies in mice.

Yangyang Duan^1,2, Tao Ye^1,2,3,4, Zhe Qu⁵, Yuewen Chen^1,3,4, Abigail Miranda¹, Xiaopu Zhou^1,2, Ka-Chun Lok^1,2, Yu Chen^1,2,3,4, Amy K Y Fu^1,2,3, Viviana Gradinaru⁵, Nancy Y Ip^6,7,8.

Abstract

The pathology of familial Alzheimer's disease, which is caused by dominant mutations in the gene that encodes amyloid-beta precursor protein (APP) and in those that encode presenilin 1 and presenilin 2, is characterized by extracellular amyloid plaques and intracellular neurofibrillary tangles in multiple brain regions. Here we show that the brain-wide selective disruption of a mutated APP allele in transgenic mouse models carrying the human APP Swedish mutation alleviates amyloid-beta-associated pathologies for at least six months after a single intrahippocampal administration of an adeno-associated virus that encodes both Cas9 and a single-guide RNA that targets the mutation. We also show that the deposition of amyloid-beta, as well as microgliosis, neurite dystrophy and the impairment of cognitive performance, can all be ameliorated when the CRISPR-Cas9 construct is delivered intravenously via a modified adeno-associated virus that can cross the blood-brain barrier. Brain-wide disease-modifying genome editing could represent a viable strategy for the treatment of familial Alzheimer's disease and other monogenic diseases that affect multiple brain regions.

Entities: Chemical

Mesh：

Substances：

Year: 2021 PMID： 34312508 DOI： 10.1038/s41551-021-00759-0

Source DB: PubMed Journal: Nat Biomed Eng ISSN： 2157-846X Impact factor: 29.234

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