Exogenous Aβ seeds induce Aβ depositions in the blood vessels rather than the brain parenchyma, independently of Aβ strain-specific information

Tsuyoshi Hamaguchi; Jee Hee Kim; Akane Hasegawa; Ritsuko Goto; Kenji Sakai; Kenjiro Ono; Yoshinori Itoh; Masahito Yamada

doi:10.1186/s40478-021-01252-0

Acta Neuropathologica Communications (Sep 2021)

Exogenous Aβ seeds induce Aβ depositions in the blood vessels rather than the brain parenchyma, independently of Aβ strain-specific information

Tsuyoshi Hamaguchi,
Jee Hee Kim,
Akane Hasegawa,
Ritsuko Goto,
Kenji Sakai,
Kenjiro Ono,
Yoshinori Itoh,
Masahito Yamada

Affiliations

Tsuyoshi Hamaguchi: Department of Neurology and Neurobiology of Aging, Kanazawa University Graduate School of Medical Sciences
Jee Hee Kim: Department of Neurology and Neurobiology of Aging, Kanazawa University Graduate School of Medical Sciences
Akane Hasegawa: Department of Neurology and Neurobiology of Aging, Kanazawa University Graduate School of Medical Sciences
Ritsuko Goto: Department of Neurology and Neurobiology of Aging, Kanazawa University Graduate School of Medical Sciences
Kenji Sakai: Department of Neurology and Neurobiology of Aging, Kanazawa University Graduate School of Medical Sciences
Kenjiro Ono: Department of Neurology and Neurobiology of Aging, Kanazawa University Graduate School of Medical Sciences
Yoshinori Itoh: Yokufukai Geriatric Hospital
Masahito Yamada: Department of Neurology and Neurobiology of Aging, Kanazawa University Graduate School of Medical Sciences

DOI: https://doi.org/10.1186/s40478-021-01252-0
Journal volume & issue: Vol. 9, no. 1
pp. 1 – 17

Abstract

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Abstract Little is known about the effects of parenchymal or vascular amyloid β peptide (Aβ) deposition in the brain. We hypothesized that Aβ strain-specific information defines whether Aβ deposits on the brain parenchyma or blood vessels. We investigated 12 autopsied patients with different severities of Aβ plaques and cerebral amyloid angiopathy (CAA), and performed a seeding study using an Alzheimer’s disease (AD) mouse model in which brain homogenates derived from the autopsied patients were injected intracerebrally. Based on the predominant pathological features, we classified the autopsied patients into four groups: AD, CAA, AD + CAA, and less Aβ. One year after the injection, the pathological and biochemical features of Aβ in the autopsied human brains were not preserved in the human brain extract-injected mice. The CAA counts in the mice injected with all four types of human brain extracts were significantly higher than those in mice injected with PBS. Interestingly, parenchymal and vascular Aβ depositions were observed in the mice that were injected with the human brain homogenate from the less Aβ group. The Aβ and CAA seeding activities, which had significant positive correlations with the Aβ oligomer ratio in the human brain extracts, were significantly higher in the human brain homogenate from the less Aβ group than in the other three groups. These results indicate that exogenous Aβ seeds from different Aβ pathologies induced Aβ deposition in the blood vessels rather than the brain parenchyma without being influenced by Aβ strain-specific information, which might be why CAA is a predominant feature of Aβ pathology in iatrogenic transmission cases. Furthermore, our results suggest that iatrogenic transmission of Aβ pathology might occur due to contamination of brain tissues from patients with little Aβ pathology, and the development of inactivation methods for Aβ seeding activity to prevent iatrogenic transmission is urgently required.

Published in Acta Neuropathologica Communications

ISSN: 2051-5960 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Neurosciences. Biological psychiatry. Neuropsychiatry: Neurology. Diseases of the nervous system
Website: http://actaneurocomms.biomedcentral.com

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