Suppression of TCF4 promotes a ZC3H12A-mediated self-sustaining inflammatory feedback cycle involving IL-17RA/IL-17RE epidermal signaling
Yanyun Jiang, Dennis Gruszka, Chang Zeng, William R. Swindell, Christa Gaskill, Christian Sorensen, Whitney Brown, Roopesh Singh Gangwar, Lam C. Tsoi, Joshua Webster, Sigrún Laufey Sigurðardóttir, Mrinal K. Sarkar, Ranjitha Uppala, Austin Kidder, Xianying Xing, Olesya Plazyo, Enze Xing, Allison C. Billi, Emanual Maverakis, J. Michelle Kahlenberg, Johann E. Gudjonsson, Nicole L. Ward
Yanyun Jiang, Dennis Gruszka, Chang Zeng, William R. Swindell, Christa Gaskill, Christian Sorensen, Whitney Brown, Roopesh Singh Gangwar, Lam C. Tsoi, Joshua Webster, Sigrún Laufey Sigurðardóttir, Mrinal K. Sarkar, Ranjitha Uppala, Austin Kidder, Xianying Xing, Olesya Plazyo, Enze Xing, Allison C. Billi, Emanual Maverakis, J. Michelle Kahlenberg, Johann E. Gudjonsson, Nicole L. Ward
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Research Article Dermatology Immunology

Suppression of TCF4 promotes a ZC3H12A-mediated self-sustaining inflammatory feedback cycle involving IL-17RA/IL-17RE epidermal signaling

Abstract

IL-17C is an epithelial cell–derived proinflammatory cytokine whose transcriptional regulation remains unclear. Analysis of the IL17C promoter region identified TCF4 as putative regulator, and siRNA knockdown of TCF4 in human keratinocytes (KCs) increased IL17C. IL-17C stimulation of KCs (along with IL-17A and TNF-α stimulation) decreased TCF4 and increased NFKBIZ and ZC3H12A expression in an IL-17RA/RE–dependent manner, thus creating a feedback loop. ZC3H12A (MCPIP1/Regnase-1), a transcriptional immune-response regulator, also increased following TCF4 siRNA knockdown, and siRNA knockdown of ZC3H12A decreased NFKBIZ, IL1B, IL36G, CCL20, and CXCL1, revealing a proinflammatory role for ZC3H12A. Examination of lesional skin from the KC-Tie2 inflammatory dermatitis mouse model identified decreases in TCF4 protein concomitant with increases in IL-17C and Zc3h12a that reversed following the genetic elimination of Il17c, Il17ra, and Il17re and improvement in the skin phenotype. Conversely, interference with Tcf4 in KC-Tie2 mouse skin increased Il17c and exacerbated the inflammatory skin phenotype. Together, these findings identify a role for TCF4 in the negative regulation of IL-17C, which, alone and with TNF-α and IL-17A, feed back to decrease TCF4 in an IL-17RA/RE–dependent manner. This loop is further amplified by IL-17C–TCF4 autocrine regulation of ZC3H12A and IL-17C regulation of NFKBIZ to promote self-sustaining skin inflammation.

Authors

Yanyun Jiang, Dennis Gruszka, Chang Zeng, William R. Swindell, Christa Gaskill, Christian Sorensen, Whitney Brown, Roopesh Singh Gangwar, Lam C. Tsoi, Joshua Webster, Sigrún Laufey Sigurðardóttir, Mrinal K. Sarkar, Ranjitha Uppala, Austin Kidder, Xianying Xing, Olesya Plazyo, Enze Xing, Allison C. Billi, Emanual Maverakis, J. Michelle Kahlenberg, Johann E. Gudjonsson, Nicole L. Ward

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Figure 2

TCF4 negatively regulates IL-17C in keratinocytes.

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TCF4 negatively regulates IL-17C in keratinocytes. (A) Silencing TCF4 (s...
(A) Silencing TCF4 (siRNA-mediated) in N/TERT keratinocytes, but not NFKB1, JUN, or CEBPG, increases IL17C mRNA expression, which is further increased in the presence of TNF-α stimulation (10 ng/mL; n = 3, mean ± SEM, 2-way ANOVA with post hoc Tukey test. *P < 0.01; **P < 0.005, ***P < 0.001, ****P < 0.0001; dashed line and the diamond demarcate P < 0.05 between 2 indicated groups via Student’s t test (Supplemental Figure 3). (B) ATAC-Seq of human KCs isolated from fresh tissue biopsies identifies TCF4 binding sites in open chromatin regions of IL17C and ZC3H12A promoters. (C) Representative images of healthy normal and of lesional and nonlesional Ps skin demonstrates decreases in TCF4 (nuclear localization) and increases in IL-17C and ZC3H12A staining (using IHC; stained protein appears brown in color). Insets represent higher-magnification image. Scale bar: 100 μm; 20 μm (insets). (D) IL17C expression negatively correlates with TCF4 and positively correlates with ZC3H12A in lesional Ps and AD skin.