Studies on the potential risk of amyloidosis from exposure to cultured fibril from silk fibroin.

Amyloid A (AA) amyloidosis is induced by administering amyloid fibrils to animals under inflammatory conditions. Silk fibroin (SF), the main component of silk threads, forms amyloid-like fibrils and has been previously reported to induce AA amyloidosis in mice. In this study, SF was cultured in ethanol solution, and after confirming fibril formation through thioflavin T assay, Congo red assay, and observation under electron microscopy, cultured SF ethanol solutions were administered to mice via various routes to investigate the induction of target organs and amyloidosis.

Label-free autofluorescence and hyperspectral imaging of cerebral amyloid-β lesions in aged squirrel monkeys.

The observation of amyloid-β (Aβ) lesions using autofluorescence in transgenic mice and human Alzheimer disease patients has been reported frequently. However, no reports verify the autofluorescence of spontaneous Aβ amyloidosis in animals, to our knowledge. We validated the autofluorescence of Aβ lesions in spontaneous squirrel monkey cases under label-free conditions; lesions had intense blue-white autofluorescence in fluorescence microscopy using excitation light at 400-440 nm.

Local administration of amyloid enhancing factor initiates in situ amyloid A deposition followed by systemic lesions in mice.

Amyloid A (AA) amyloidosis is experimentally transmissible in some animal species, such as mice and chickens. While the spleen is important as the initial deposition site in the transmission of AA amyloidosis, it is not essential for establishing the transmission, and its role is not precisely understood. In this study, to clarify why the spleen is the first site of deposition in transmissible AA amyloidosis, we administered amyloid enhancing factor, which is AA fibrils extracted from AA amyloidosis affected mouse to local organs (liver, spleen, kidney, stomach wall, and Peyer's patches), to tail vein and into peritoneum; then compared the amyloid distribution.