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Spontaneous Cleavage at Glu and Gln Residues in Long-Lived Proteins
journal contributionposted on 2021-10-22, 21:15 authored by Michael G. Friedrich, Zhen Wang, Kevin L. Schey, Roger J. W. Truscott
Long-lived proteins (LLPs) are prone to deterioration with time, and one prominent breakdown process is the scission of peptide bonds. These cleavages can either be enzymatic or spontaneous. In this study, human lens proteins were examined and many were found to have been cleaved on the C-terminal side of Glu and Gln residues. Such cleavages could be reproduced experimentally by in vitro incubation of Glu- or Gln-containing peptides at physiological pHs. Spontaneous cleavage was dependent on pH and amino acid sequence. These model peptide studies suggested that the mechanism involves a cyclic intermediate and is therefore analogous to that characterized for cleavage of peptide bonds adjacent to Asp and Asn residues. An increased amount of some Glu/Gln cleaved peptides in the insoluble fraction of human lenses suggests that cleavage may act to destabilize proteins. Spontaneous cleavage at Glu and Gln, as well as recently described cross-linking at these residues, can therefore be added to the similar processes affecting long-lived proteins that have already been documented for Asn and Asp residues.
recently described crosshuman lenses suggestsamino acid sequencehuman lens proteinspeptide bonds adjacentcleavage may actlived proteins longgln cleaved peptidespeptide bondslived proteinsdestabilize proteinscontaining peptidesvitro terminal sidereproduced experimentallyphysiological phsmechanism involvesinsoluble fractionincreased amountcyclic intermediate