University of Wollongong
Browse

File(s) not publicly available

Amyloid plaque in the human brain can decompose from Aβ(1-40/1-42) by spontaneous nonenzymatic processes

journal contribution
posted on 2024-11-16, 07:20 authored by Brian Lyons, Michael FriedrichMichael Friedrich, Mark Raftery, Roger TruscottRoger Truscott
The degradation of long-lived proteins in the body is an important aspect of aging, and much of the breakdown is due to the intrinsic instability of particular amino acids. In this study, peptides were examined to discover if spontaneous nonenzymatic reactions could be responsible for the composition of Alzheimer's (AD) plaque in the human brain. The great majority of AD plaque consists of N-terminally truncated versions of Aβ(1-40/1-42), with the most abundant peptide commencing with Glu (residue 3 in Aβ1-40/1-42) that is present as pyroGlu. Several Asp residues are racemized in Aβ plaque, with residue 1 being predominantly l-isoAsp and peptide bond cleavage next to Ser 8 is also evident. In peptides, loss of the two N-terminal amino acids as a diketopiperazine was demonstrated at pH 7. For the Aβ N-terminal hexapeptide, AspAlaGluPheArgHis, this resulted in the removal of AspAla diketopiperazine and the generation of Glu as the new N-terminal residue. The Glu cyclized readily to pyroGlu. This pathway was altered significantly by zinc, which promoted pyroGlu formation but decreased AspAla diketopiperazine release. Zinc also facilitated cleavage on the N-terminal side of Ser 8. Racemization of the original N-terminal Asp to l-isoAsp was also detected and loss of one amino acid from the N-terminus. These data are therefore entirely consistent with plaque in the human brain forming from deposition of Aβ(1-40/1-42) and, over time, decomposing spontaneously. Since amyloid plaque is present in the human brain for years prior to the onset of AD, gradual spontaneous changes to the polypeptides within it will alter its properties and those of the oligomers that can diffuse from it. Such incremental changes in composition may therefore contribute to the origin of AD-associated cytotoxicity.

Funding

Ancient proteins and disease.

National Health and Medical Research Council

Find out more...

History

Citation

Lyons, B., Friedrich, M., Mark Raftery, M. & Truscott, R. (2016). Amyloid plaque in the human brain can decompose from Aβ(1-40/1-42) by spontaneous nonenzymatic processes. Analytical Chemistry, 88 (5), 2675-2684.

Journal title

Analytical Chemistry

Volume

88

Issue

5

Pagination

2675-2684

Language

English

RIS ID

105916

Usage metrics

    Categories

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC