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Cleavage C-terminal to Asp leads to covalent crosslinking of long-lived human proteins.

Wang Z, Friedrich MG, Truscott RJW, Schey KL
Biochim Biophys Acta Proteins Proteom. 2019 1867 (9): 831-839

PMID: 31226490 · DOI:10.1016/j.bbapap.2019.06.009

With age, long-lived proteins in the human body deteriorate, which can have consequences both for aging and disease. The aging process is often associated with the formation of covalently crosslinked proteins. Currently our knowledge of the mechanism of formation of these crosslinks is limited. In this study, proteomics was used to characterize sites of covalent protein-protein crosslinking and identify a novel mechanism of protein-protein crosslinking in the adult human lens. In this mechanism, Lys residues are crosslinked to C-terminal Asp residues that are formed by non-enzymatic protein truncation. Ten different crosslinks were identified in major lens proteins such as αA-crystallin, αB-crystallin and AQP0. Crosslinking in AQP0 increased significantly with age and also increased significantly in cataract lenses compared with normal lenses. Using model peptides, a mechanism of formation of the Lys-Asp crosslink was elucidated. The mechanism involves spontaneous peptide cleavage on the C-terminal side of Asp residues which can take place in the pH range 5-7.4. Cleavage appears to involve attack by the side chain carboxyl group on the adjacent peptide bond, resulting in the formation of a C-terminal Asp anhydride. This anhydride intermediate can then either react with water to form Asp, or with a nucleophile, such as a free amine group to form a crosslink. If an ε-amino group of Lys or an N-terminal amine group attacks the anhydride, a covalent protein-protein crosslink will be formed. This bi-phasic mechanism represents the first report to link two spontaneous events: protein cleavage and crosslinking that are characteristic of long-lived proteins.

Copyright © 2019 Elsevier B.V. All rights reserved.

MeSH Terms (10)

alpha-Crystallin A Chain alpha-Crystallin B Chain Aquaporins Aspartic Acid Eye Proteins Humans Hydrogen-Ion Concentration Lens, Crystalline Models, Molecular Peptides

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