Histone demethylase JARID1C/KDM5C regulates Th17 cells by increasing IL-6 expression in diabetic plasmacytoid dendritic cells
Christopher O. Audu, Sonya J. Wolf, Amrita D. Joshi, Jadie Y. Moon, William J. Melvin, Sriganesh B. Sharma, Frank M. Davis, Andrea T. Obi, Rachel Wasikowski, Lam C. Tsoi, Emily C. Barrett, Kevin D. Mangum, Tyler M. Bauer, Steven L. Kunkel, Beth B. Moore, Katherine A. Gallagher
Christopher O. Audu, Sonya J. Wolf, Amrita D. Joshi, Jadie Y. Moon, William J. Melvin, Sriganesh B. Sharma, Frank M. Davis, Andrea T. Obi, Rachel Wasikowski, Lam C. Tsoi, Emily C. Barrett, Kevin D. Mangum, Tyler M. Bauer, Steven L. Kunkel, Beth B. Moore, Katherine A. Gallagher
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Research Article Immunology Inflammation

Histone demethylase JARID1C/KDM5C regulates Th17 cells by increasing IL-6 expression in diabetic plasmacytoid dendritic cells

Abstract

Plasmacytoid dendritic cells (pDCs) are first responders to tissue injury, where they prime naive T cells. The role of pDCs in physiologic wound repair has been examined, but little is known about pDCs in diabetic wound tissue and their interactions with naive CD4+ T cells. Diabetic wounds are characterized by increased levels of inflammatory IL-17A cytokine, partly due to increased Th17 CD4+ cells. This increased IL-17A cytokine, in excess, impairs tissue repair. Here, using human tissue and murine wound healing models, we found that diabetic wound pDCs produced excess IL-6 and TGF-β and that these cytokines skewed naive CD4+ T cells toward a Th17 inflammatory phenotype following cutaneous injury. Further, we identified that increased IL-6 cytokine production by diabetic wound pDCs is regulated by a histone demethylase, Jumonji AT-rich interactive domain 1C histone demethylase (JARID1C). Decreased JARID1C increased IL-6 transcription in diabetic pDCs, and this process was regulated upstream by an IFN-I/TYK2/JAK1,3 signaling pathway. When inhibited in nondiabetic wound pDCs, JARID1C skewed naive CD4+ T cells toward a Th17 phenotype and increased IL-17A production. Together, this suggests that diabetic wound pDCs are epigenetically altered to increase IL-6 expression that then affects T cell phenotype. These findings identify a therapeutically manipulable pathway in diabetic wounds.

Authors

Christopher O. Audu, Sonya J. Wolf, Amrita D. Joshi, Jadie Y. Moon, William J. Melvin, Sriganesh B. Sharma, Frank M. Davis, Andrea T. Obi, Rachel Wasikowski, Lam C. Tsoi, Emily C. Barrett, Kevin D. Mangum, Tyler M. Bauer, Steven L. Kunkel, Beth B. Moore, Katherine A. Gallagher

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Figure 3

IFN-β regulates JARID1C via TYK2/JAK1,3 signaling.

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IFN-β regulates JARID1C via TYK2/JAK1,3 signaling. (A) Il6 expression in...
(A) Il6 expression in DIO wound pDCs with and without recombinant IFN-β. (B) ChIP analysis of Jarid1c on the Il6 promoter in diabetic wound pDCs with and without IFN-β stimulation. (C) ChIP of the H3K4me3 mark on the Il6 promoter in DIO wound pDCs with and without IFN-β stimulation. (D) Il6 expression in DIO wound pDCs with IFN-β stimulation only with and without JARID1 inhibition. (E) ChIP of the H3K4me3 mark on the Il6 promoter in DIO wound pDCs with IFN-β stimulation, with and without JARID1 inhibition. The graphs are color-coded according to the key, which denotes the cell treatment. (F) ChIP of Jarid1c at the Il6 promoter in IFNAR–/– mouse wound pDCs compared with their age-matched littermate controls. (G) ChIP of the H3K4me3 mark on the Il6 promoter in IFNAR–/– mouse wound pDCs, compared with their age-matched littermate controls. (H) Il6 expression in wound pDCs from IFNAR–/– mice and their age-matched littermate controls. (I) ChIP of Jarid1c at the Il6 promoter in DIO mouse wound pDCs with a TYK2 inhibitor. (J) ChIP of the H3K4me3 mark at the Il6 promoter in DIO mouse wound pDCs with TYK2 inhibition. (K) Il6 expression in DIO wound pDCs following TYK2 inhibition. (L) ChIP of Jarid1c on the Il6 promoter in DIO wound PDCs following JAK1,3 inhibition. (M) ChIP of the H3K4me3 mark on the Il6 promoter in DIO mouse wound pDCs following JAK1,3 inhibition. (N) Il6 expression in DIO wound pDCs after JAK1,3 inhibition. *P < 0.05, **P < 0.01, ***P < 0.001. All experiments were conducted with N = 3–6 mice/group, pooled and repeated in triplicate. Murine wound pDCs were harvested on day 1 after injury and isolated using EasySep pDC negative-selection kit. Data are presented as the mean ± SEM. Data were first analyzed for normal distribution, and if data passed the normality test, 2-tailed Student’s t test was used.