Pro-resolving mediators promote resolution in a human skin model of UV-killed Escherichia coli–driven acute inflammation
Madhur P. Motwani, Romain A. Colas, Marc J. George, Julia D. Flint, Jesmond Dalli, Angela Richard-Loendt, Roel P.H. De Maeyer, Charles N. Serhan, Derek W. Gilroy
Madhur P. Motwani, Romain A. Colas, Marc J. George, Julia D. Flint, Jesmond Dalli, Angela Richard-Loendt, Roel P.H. De Maeyer, Charles N. Serhan, Derek W. Gilroy
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Research Article Inflammation

Pro-resolving mediators promote resolution in a human skin model of UV-killed Escherichia coli–driven acute inflammation

Abstract

While the treatment of inflammatory disorders is generally based on inhibiting factors that drive onset of inflammation, these therapies can compromise healing (NSAIDs) or dampen immunity against infections (biologics). In search of new antiinflammatories, efforts have focused on harnessing endogenous pathways that drive resolution of inflammation for therapeutic gain. Identification of specialized pro-resolving mediators (SPMs) (lipoxins, resolvins, protectins, maresins) as effector molecules of resolution has shown promise in this regard. However, their action on inflammatory resolution in humans is unknown. Here, we demonstrate using a model of UV-killed Escherichia coli–triggered skin inflammation that SPMs are biosynthesized at the local site at the start of resolution, coinciding with the expression of receptors that transduce their actions. These include receptors for lipoxin A4 (ALX/FPR2), resolvin E1 (ChemR23), resolvin D2 (GPR18), and resolvin D1 (GPR32) that were differentially expressed on the endothelium and infiltrating leukocytes. Administering SPMs into the inflamed site 4 hours after bacterial injection caused a reduction in PMN numbers over the ensuing 6 hours, the phase of active resolution in this model. These results indicate that in humans, the appearance of SPMs and their receptors is associated with the beginning of inflammatory resolution and that their therapeutic supplementation enhanced the resolution response.

Authors

Madhur P. Motwani, Romain A. Colas, Marc J. George, Julia D. Flint, Jesmond Dalli, Angela Richard-Loendt, Roel P.H. De Maeyer, Charles N. Serhan, Derek W. Gilroy

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Figure 2

Human skin blister bioactive LM-SPM signature profiles.

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Human skin blister bioactive LM-SPM signature profiles. Acute inflammati...
Acute inflammation was triggered in the forearm of healthy volunteers by intradermal injection of 1.5 × 107 UV-killed E. coli (UVkEc). Inflammatory exudate at the injection site was acquired into a suction blister raised at 0, 4, 8, 14, and 24 hours. Infiltrated cells were centrifuged and cell-free supernatants were analyzed by lipid mediator (LM) metabololipidomics. (A) Representative multiple reaction monitoring (MRM) chromatograms for identified mediators in skin blister exudates. (B) Characteristic MS/MS fragmentation spectra employed in the identification of RvD1, LXA4, and MaR1. Results are representative of n = 34 exudates. Table 1 displays LM-SPM concentrations for the identified mediators. n = 6–7 donors per time point. Supplemental Figure 1 displays MS/MS spectra employed for the identification of mediators from the arachidonic acid, docosahexaenoic acid, and eicosapentaenoic acid bioactive metabolomes. SPM, specialized pro-resolving mediator.