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Evidence that glial cells attenuate G47R transthyretin accumulation in the central nervous system
Author(s) -
SumiAkamaru Hisae,
Eto Masaki,
Yamauchi Amane,
Uehara Takuya,
Kakuda Keita,
Obayashi Konen,
Kato Shinsuke,
Naka Takashi,
Mochizuki Hideki
Publication year - 2018
Publication title -
neuropathology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.701
H-Index - 61
eISSN - 1440-1789
pISSN - 0919-6544
DOI - 10.1111/neup.12412
Subject(s) - transthyretin , amyloidosis , cerebral amyloid angiopathy , basement membrane , pathology , amyloid (mycology) , angiopathy , parenchyma , perivascular space , subarachnoid space , central nervous system , chemistry , biology , medicine , cerebrospinal fluid , neuroscience , endocrinology , disease , dementia , diabetes mellitus
Amyloidogenic protein forms amyloid aggregations at membranes leading to dysfunction of amyloid clearance and amyloidosis. Glial cells function in the clearance and degradation of amyloid β (Aβ) in the brain. This study aimed to clarify the reason why amyloid transthyretin (ATTR) rarely accumulates in the CNS. We pathologically analyzed the relationship between amyloid deposition with basement membranes or glial cells in a rare case of ATTR leptomeningeal amyloidosis. In addition, we compared the cytotoxicity of ATTR G47R, the amyloidosis‐causing mutation in the case studied ( n  = 1), and Aβ in brains from patients with cerebral amyloid angiopathy ( n  = 6). In the subarachnoid space of the ATTR G47R case, most amyloids accumulated at the components of basement membranes. On the CNS surface, ATTR accumulations were retained by astrocytic end feet. In areas where glial end feet enveloped ATTR, ubiquitination and micro‐vacuolation of ATTR was evident. The colocalization of GFAP and ubiquitin was also evident. The accumulation of ATTR G47R in the CNS was negatively correlated with the prevalence of astrocytes. Quantitatively, amyloid deposits along the vessels were mostly partial in cerebral Aβ angiopathy cases and nearly complete along the basement membrane in the ATTR G47R case. The vascular expressions of type IV collagen and smooth muscle actin were severely reduced in areas with ATTR G47R deposition, but not in areas with Aβ deposition. The vascular protein level recovered in the ATTR G47R case when vessels entered into areas of parenchyma that were rich in astrocytes. In addition, the strong interactions between the transthyretin variant and basement membranes may have led to dysfunction of transthyretin clearance and leptomeningeal amyloidosis. The present study was the first to show that glial cells may attenuate G47R transthyretin accumulation in the CNS.

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