Matrix Metalloproteinase-9 Degrades Amyloid-β Fibrils in Vitro and Compact Plaques in Situ

The pathological hallmark of Alzheimer disease is the senile plaque principally composed of tightly aggregated amyloid-β fibrils (fAβ), which are thought to be resistant to degradation and clearance. In this study, we explored whether proteases capable of degrading soluble Aβ (sAβ) could degrade fAβ...

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Published in:The Journal of biological chemistry 2006-08, Vol.281 (34), p.24566-24574
Main Authors: Yan, Ping, Hu, Xiaoyan, Song, Haowei, Yin, Kejie, Bateman, Randall J., Cirrito, John R., Xiao, Qingli, Hsu, Fong F., Turk, John W., Xu, Jan, Hsu, Chung Y., Holtzman, David M., Lee, Jin-Moo
Format: Article
Language:English
Subjects:
Aging - metabolism
Alzheimer Disease - metabolism
Amyloid beta-Peptides - chemistry
Amyloid beta-Peptides - metabolism
Animals
Brain - enzymology
Humans
Hydrolysis
Immunohistochemistry
Mass Spectrometry
Matrix Metalloproteinase 9 - metabolism
Mice
Mice, Transgenic
Plaque, Amyloid - metabolism
Substrate Specificity
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Summary:The pathological hallmark of Alzheimer disease is the senile plaque principally composed of tightly aggregated amyloid-β fibrils (fAβ), which are thought to be resistant to degradation and clearance. In this study, we explored whether proteases capable of degrading soluble Aβ (sAβ) could degrade fAβ as well. We demonstrate that matrix metalloproteinase-9 (MMP-9) can degrade fAβ and that this ability is not shared by other sAβ-degrading enzymes examined, including endothelin-converting enzyme, insulin-degrading enzyme, and neprilysin. fAβ was decreased in samples incubated with MMP-9 compared with other proteases, assessed using thioflavin-T. Furthermore, fAβ breakdown with MMP-9 but not with other proteases was demonstrated by transmission electron microscopy. Proteolytic digests of purified fAβ were analyzed with matrix-assisted laser desorption ionization time-of-flight mass spectrometry to identify sites of Aβ that are cleaved during its degradation. Only MMP-9 digests contained fragments (Aβ1-20 and Aβ1-30) from fAβ1-42 substrate; the corresponding cleavage sites are thought to be important for β-pleated sheet formation. To determine whether MMP-9 can degrade plaques formed in vivo, fresh brain slices from aged APP/PS1 mice were incubated with proteases. MMP-9 digestion resulted in a decrease in thioflavin-S (ThS) staining. Consistent with a role for endogenous MMP-9 in this process in vivo, MMP-9 immunoreactivity was detected in astrocytes surrounding amyloid plaques in the brains of aged APP/PS1 and APPsw mice, and increased MMP activity was selectively observed in compact ThS-positive plaques. These findings suggest that MMP-9 can degrade fAβ and may contribute to ongoing clearance of plaques from amyloid-laden brains.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M602440200