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.jpg): Failed to open stream: No such file or directory in C:\Inetpub\vhosts\kidney.de\httpdocs\pget.php on line 117 Free+Radic+Biol+Med
2017 ; 104
(ä): 20-31
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Myeloperoxidase-mediated protein lysine oxidation generates 2-aminoadipic acid
and lysine nitrile in vivo
#MMPMID28069522
Lin H
; Levison BS
; Buffa JA
; Huang Y
; Fu X
; Wang Z
; Gogonea V
; DiDonato JA
; Hazen SL
Free Radic Biol Med
2017[Mar]; 104
(ä): 20-31
PMID28069522
show ga
Recent studies reveal 2-aminoadipic acid (2-AAA) is both elevated in subjects at
risk for diabetes and mechanistically linked to glucose homeostasis. Prior
studies also suggest enrichment of protein-bound 2-AAA as an oxidative
post-translational modification of lysyl residues in tissues associated with
degenerative diseases of aging. While in vitro studies suggest redox active
transition metals or myeloperoxidase (MPO) generated hypochlorous acid (HOCl) may
produce protein-bound 2-AAA, the mechanism(s) responsible for generation of 2-AAA
during inflammatory diseases are unknown. In initial studies we observed that
traditional acid- or base-catalyzed protein hydrolysis methods previously
employed to measure tissue 2-AAA can artificially generate protein-bound 2-AAA
from an alternative potential lysine oxidative product, lysine nitrile (LysCN).
Using a validated protease-based digestion method coupled with stable isotope
dilution LC/MS/MS, we now report protein bound 2-AAA and LysCN are both formed by
hypochlorous acid (HOCl) and the MPO/H(2)O(2)/Cl(-) system of leukocytes. At low
molar ratio of oxidant to target protein N(?)-lysine moiety, 2-AAA is formed via
an initial N(?)-monochloramine intermediate, which ultimately produces the more
stable 2-AAA end-product via sequential generation of transient imine and
semialdehyde intermediates. At higher oxidant to target protein N(?)-lysine amine
ratios, protein-bound LysCN is formed via initial generation of a lysine
N(?)-dichloramine intermediate. In studies employing MPO knockout mice and an
acute inflammation model, we show that both free and protein-bound 2-AAA, and in
lower yield, protein-bound LysCN, are formed by MPO in vivo during inflammation.
Finally, both 2-AAA and to lesser extent LysCN are shown to be enriched in human
aortic atherosclerotic plaque, a tissue known to harbor multiple MPO-catalyzed
protein oxidation products. Collectively, these results show that MPO-mediated
oxidation of protein lysyl residues serves as a mechanism for producing 2-AAA and
LysCN in vivo. These studies further support involvement of MPO-catalyzed
oxidative processes in both the development of atherosclerosis and diabetes risk.
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