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dc.contributor.author Jelcic M
dc.contributor.author Enyedi Balázs
dc.contributor.author Xavier JB
dc.contributor.author Niethammer P
dc.date.accessioned 2018-07-04T13:27:09Z
dc.date.available 2018-07-04T13:27:09Z
dc.date.issued 2017
dc.identifier 85019091671
dc.identifier.citation pagination=2011-2018; journalVolume=112; journalIssueNumber=9; journalTitle=BIOPHYSICAL JOURNAL;
dc.identifier.uri http://repo.lib.semmelweis.hu//handle/123456789/4830
dc.identifier.uri doi:10.1016/j.bpj.2017.03.021
dc.description.abstract Epithelial injury induces rapid recruitment of antimicrobial leukocytes to the wound site. In zebrafish larvae, activation of the epithelial NADPH oxidase Duox at the wound margin is required early during this response. Before injury, leukocytes are near the vascular region, that is, ∼100–300 μm away from the injury site. How Duox establishes long-range signaling to leukocytes is unclear. We conceived that extracellular hydrogen peroxide (H2O2) generated by Duox diffuses through the tissue to directly regulate chemotactic signaling in these cells. But before it can oxidize cellular proteins, H2O2 must get past the antioxidant barriers that protect the cellular proteome. To test whether, or on which length scales this occurs during physiological wound signaling, we developed a computational method based on reaction-diffusion principles that infers H2O2 degradation rates from intravital H2O2-biosensor imaging data. Our results indicate that at high tissue H2O2 levels the peroxiredoxin-thioredoxin antioxidant chain becomes overwhelmed, and H2O2 degradation stalls or ceases. Although the wound H2O2 gradient reaches deep into the tissue, it likely overcomes antioxidant barriers only within ∼30 μm of the wound margin. Thus, Duox-mediated long-range signaling may require other spatial relay mechanisms besides extracellular H2O2 diffusion. © 2017 Biophysical Society
dc.relation.ispartof urn:issn:0006-3495
dc.title Image-Based Measurement of H2O2 Reaction-Diffusion in Wounded Zebrafish Larvae
dc.type Journal Article
dc.date.updated 2018-02-16T14:31:06Z
dc.language.rfc3066 en
dc.identifier.mtmt 3234389
dc.identifier.wos 000401301600028
dc.identifier.pubmed 28494970


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