HIF-1 regulates pathogenic cytotoxic T cells in lupus skin disease
Alicia J. Little, Ping-Min Chen, Matthew D. Vesely, Rahanna N. Khan, Jacob Fiedler, James Garritano, Fahrisa I. Maisha, Jennifer M. McNiff, Joe Craft
Alicia J. Little, Ping-Min Chen, Matthew D. Vesely, Rahanna N. Khan, Jacob Fiedler, James Garritano, Fahrisa I. Maisha, Jennifer M. McNiff, Joe Craft
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Research Article Dermatology

HIF-1 regulates pathogenic cytotoxic T cells in lupus skin disease

Abstract

Cutaneous lupus erythematosus (CLE) is a disfiguring autoimmune skin disease characterized by an inflammatory infiltrate rich in T cells, which are strongly implicated in tissue damage. How these cells adapt to the skin environment and promote tissue inflammation and damage is not known. In lupus nephritis, we previously identified an inflammatory gene program in kidney-infiltrating T cells that is dependent on HIF-1, a transcription factor critical for the cellular and developmental response to hypoxia as well as inflammation-associated signals. In our present studies using a mouse model of lupus skin disease, we find that skin-infiltrating CD4+ and CD8+ T cells also express high levels of HIF-1. Skin-infiltrating T cells demonstrated a strong cytotoxic signature at the transcript and protein levels, and HIF-1 inhibition abrogated skin and systemic diseases in association with decreased T cell cytotoxic activity. We also demonstrate in human CLE tissue that the T cell–rich inflammatory infiltrate exhibited increased amounts of HIF-1 and a cytotoxic signature. Granzyme B–expressing T cells were concentrated at sites of skin tissue damage in CLE, suggesting relevance of this pathway to human disease.

Authors

Alicia J. Little, Ping-Min Chen, Matthew D. Vesely, Rahanna N. Khan, Jacob Fiedler, James Garritano, Fahrisa I. Maisha, Jennifer M. McNiff, Joe Craft

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Figure 3

HIF1α inhibition abrogates cutaneous disease and reduces cytotoxic activity in diseased MRL/lpr skin.

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HIF1α inhibition abrogates cutaneous disease and reduces cytotoxic activ...
(A) Representative images of clinical disease in 20-week-old MRL/lpr mice after 4 weeks of treatment with either PX-478 or PBS. (B) Dermatitis scores at 20 weeks for mice treated as in A (n = 10 for each group). (C) Histopathology damage score (see Methods) of diseased interscapular skin at age 20 weeks for mice treated as in A (n = 10 for each group). (D) Association between clinical disease (dermatitis score) and percentage Gzmb+ cells per high-power field (HPF) by RNA ISH in 20-week-old MRL/lpr mice treated as in A. (E) Representative images of RNA ISH for Gzmb in 20-week-old MRL/lpr mice after 4 weeks of treatment with either PBS (vehicle) or selective HIF1a inhibitor PX-478 (treated). (F) Quantification of percentage Gzmb+ cells per HPF by RNA ISH in 20-week-old MRL/lpr mice treated as in A (3 HPFs per mouse; n = 10 mice for each group). Data shown are mean ± SEM. Statistical analysis by 2-tailed Mann-Whitney test (B and C), Spearman’s correlation (D), or nested, 2-tailed unpaired Student’s t test (F). *P < 0.05, **P < 0.01, ***P < 0.001.