Human leukocytes selectively convert 4 S ,5 S -epoxy-resolvin to resolvin D3, resolvin D4, and a cys-resolvin isomer

Human phagocytes have key functions in the resolution of inflammation. Here, we assessed the role of the proposed 4 ,5 -epoxy-resolvin intermediate in the biosynthesis of both resolvin D3 and resolvin D4. We found that human neutrophils converted this synthetic intermediate to resolvin D3 and resolv...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2021-12, Vol.118 (51)
Main Authors: Shay, Ashley E, Nshimiyimana, Robert, Samuelsson, Bengt, Petasis, Nicos A, Haeggström, Jesper Z, Serhan, Charles N
Format: Article
Language:English
Subjects:
Cells, Cultured
Fatty Acids, Unsaturated - metabolism
Granuloma
Humans
Leukocytes - metabolism
Macrophages - metabolism
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Summary:Human phagocytes have key functions in the resolution of inflammation. Here, we assessed the role of the proposed 4 ,5 -epoxy-resolvin intermediate in the biosynthesis of both resolvin D3 and resolvin D4. We found that human neutrophils converted this synthetic intermediate to resolvin D3 and resolvin D4. M2 macrophages transformed this labile epoxide intermediate to resolvin D4 and a previously unknown cysteinyl-resolvin isomer without appreciable amounts of resolvin D3. M2 macrophages play critical roles in the resolution of inflammation and in wound healing. Human M2 macrophages also converted leukotriene A to lipoxins. The cysteinyl-resolvin isomer significantly accelerated tissue regeneration of surgically injured planaria. In a model of human granuloma formation, the cysteinyl-resolvin isomer significantly inhibited granuloma development by human peripheral blood leukocytes. Together, these results provide evidence for a human cell type-specific role of 4 ,5 -epoxy-resolvin in the biosynthesis of resolvin D3 by neutrophils, resolvin D4 by both M2 macrophages and neutrophils, and a unique cysteinyl-resolvin isomer produced by M2 macrophages that carries potent biological activities in granuloma formation and tissue regeneration.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.2116559118