UV radiation recruits CD4+GATA3+ and CD8+GATA3+ T cells while altering the lipid microenvironment following inflammatory resolution in human skin in vivo

Nathan J Hawkshaw; Suzanne M Pilkington; Sharon A Murphy; Norah Al‐Gazaq; Mark D Farrar; Rachel EB Watson; Anna Nicolaou; Lesley E Rhodes

doi:10.1002/cti2.1104

Clinical & Translational Immunology (Jan 2020)

UV radiation recruits CD4+GATA3+ and CD8+GATA3+ T cells while altering the lipid microenvironment following inflammatory resolution in human skin in vivo

Nathan J Hawkshaw,
Suzanne M Pilkington,
Sharon A Murphy,
Norah Al‐Gazaq,
Mark D Farrar,
Rachel EB Watson,
Anna Nicolaou,
Lesley E Rhodes

Affiliations

Nathan J Hawkshaw: Centre for Dermatology Research Division of Musculoskeletal and Dermatological Sciences Faculty of Biology, Medicine and Health School of Biological Sciences Manchester Academic Health Science Centre The University of Manchester and Salford Royal NHS Foundation Trust Manchester UK
Suzanne M Pilkington: Centre for Dermatology Research Division of Musculoskeletal and Dermatological Sciences Faculty of Biology, Medicine and Health School of Biological Sciences Manchester Academic Health Science Centre The University of Manchester and Salford Royal NHS Foundation Trust Manchester UK
Sharon A Murphy: Laboratory for Lipidomics and Lipid Biology Division of Pharmacy and Optometry Faculty of Biology Medicine and Health School of Health Sciences The University of Manchester Manchester UK
Norah Al‐Gazaq: Laboratory for Lipidomics and Lipid Biology Division of Pharmacy and Optometry Faculty of Biology Medicine and Health School of Health Sciences The University of Manchester Manchester UK
Mark D Farrar: Centre for Dermatology Research Division of Musculoskeletal and Dermatological Sciences Faculty of Biology, Medicine and Health School of Biological Sciences Manchester Academic Health Science Centre The University of Manchester and Salford Royal NHS Foundation Trust Manchester UK
Rachel EB Watson: Centre for Dermatology Research Division of Musculoskeletal and Dermatological Sciences Faculty of Biology, Medicine and Health School of Biological Sciences Manchester Academic Health Science Centre The University of Manchester and Salford Royal NHS Foundation Trust Manchester UK
Anna Nicolaou: Laboratory for Lipidomics and Lipid Biology Division of Pharmacy and Optometry Faculty of Biology Medicine and Health School of Health Sciences The University of Manchester Manchester UK
Lesley E Rhodes: Centre for Dermatology Research Division of Musculoskeletal and Dermatological Sciences Faculty of Biology, Medicine and Health School of Biological Sciences Manchester Academic Health Science Centre The University of Manchester and Salford Royal NHS Foundation Trust Manchester UK

DOI: https://doi.org/10.1002/cti2.1104
Journal volume & issue: Vol. 9, no. 4
pp. n/a – n/a

Abstract

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Abstract Objectives Solar ultraviolet radiation (UVR) has major adverse effects on human health. While the mechanisms responsible for induction of UVR‐induced inflammation are well‐documented, the mediation of its resolution and longer‐term adaptive homeostasis is unknown. Therefore, we examined the skin immune and lipid profile over time following UVR inflammation. Methods To investigate the self‐resolving events of UVR inflammation in vivo, human skin was exposed to a single pro‐inflammatory dose of UVR. Skin biopsies and suction blister fluid were taken at intervals up to 2 weeks post‐UVR. The immune infiltrate was quantified by immunohistochemistry, and lipid mediators were profiled by liquid chromatography/mass spectrometry. Results We identified that cellular resolution events including switching of macrophage phenotype apply to human sunburn. However, UVR‐induced inflammation in humans involves a post‐resolution phase that differs from other experimental models. We demonstrate that 2 weeks after the initiating UVR stimulus, there is considerable immune activity with CD8+GATA3+ T cells maintained in human skin. Our results challenge the dogma of CD4+FOXP3+ T cells being the main effector CD4+ T‐cell population following UVR, with CD4+GATA3+ T cells the dominant phenotype. Furthermore, lipid mediators are elevated 14 days post‐UVR, demonstrating the skin lipid microenvironment does not revert to the tissue setting occurring prior to UVR exposure. Conclusion We have identified for the first time that CD4+GATA3+ and CD8+GATA3+ T‐cell subpopulations are recruited to UVR‐inflamed human skin, demonstrating discrepancies between the adaptive UVR response in mice and humans. Future strategies to abrogate UVR effects may target these T‐cell subpopulations and also the persistent alteration of the lipid microenvironment post‐UVR.

Published in Clinical & Translational Immunology

ISSN: 2050-0068 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Medicine: Internal medicine: Specialties of internal medicine: Immunologic diseases. Allergy
Website: https://onlinelibrary.wiley.com/journal/20500068

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