| Literature DB >> 29585927 |
Irina V Gorudko1, Daria V Grigorieva1, Alexey V Sokolov2,3,4,5, Ekaterina V Shamova1, Valeria A Kostevich2,4, Igor V Kudryavtsev2,6, Elena D Syromiatnikova7, Vadim B Vasilyev2,3, Sergey N Cherenkevich1, Oleg M Panasenko4.
Abstract
Myeloperoxidase (MPO) is an oxidant-producing enzyme that can also regulate cellular functions via its nonenzymatic effects. Mature active MPO isolated from normal human neutrophils is a 145 kDa homodimer, which consists of 2 identical protomers, connected by a single disulfide bond. By binding to CD11b/CD18 integrin, dimeric MPO induces neutrophil activation and adhesion augmenting leukocyte accumulation at sites of inflammation. This study was performed to compare the potency of dimeric and monomeric MPO to elicit selected neutrophil responses. Monomeric MPO (hemi-MPO) was obtained by treating the dimeric MPO by reductive alkylation. Analysis of the crucial signal transducer, intracellular Ca2+, showed that dimeric MPO induces Ca2+ mobilization from the intracellular calcium stores of neutrophils and influx of extracellular Ca2+ whereas the effect of monomeric MPO on Ca2+ increase in neutrophils was less. It was also shown that monomeric MPO was less efficient than dimeric MPO at inducing actin cytoskeleton reorganization, cell survival, and neutrophil degranulation. Furthermore, we have detected monomeric MPO in the blood plasma of patients with acute inflammation. Our data suggest that the decomposition of dimeric MPO into monomers can serve as a regulatory mechanism that controls MPO-dependent activation of neutrophils and reduces the proinflammatory effects of MPO.Entities:
Keywords: dimeric myeloperoxidase; inflammation; monomeric myeloperoxidase; myéloperoxydase dimère; myéloperoxydase monomère; neutrophiles; neutrophils; oxidative/halogenative stress; stress oxydant/halogénant
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Year: 2018 PMID: 29585927 DOI: 10.1139/bcb-2017-0290
Source DB: PubMed Journal: Biochem Cell Biol ISSN: 0829-8211 Impact factor: 3.626