Activator protein transcription factors coordinate human IL-33 expression from noncanonical promoters in chronic airway disease
Heather E. Raphael, … , Bo Zhang, Jen Alexander-Brett
Heather E. Raphael, … , Bo Zhang, Jen Alexander-Brett
Published March 8, 2024
Citation Information: JCI Insight. 2024;9(5):e174786. https://doi.org/10.1172/jci.insight.174786.
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Research Article Immunology Pulmonology

Activator protein transcription factors coordinate human IL-33 expression from noncanonical promoters in chronic airway disease

Abstract

IL-33 is a cytokine central to type 2 immune pathology in chronic airway disease. This cytokine is abundantly expressed in the respiratory epithelium and increased in disease, but how expression is regulated is undefined. Here we show that increased IL33 expression occurs from multiple noncanonical promoters in human chronic obstructive pulmonary disease (COPD), and it facilitates production of alternatively spliced isoforms in airway cells. We found that phorbol 12-myristate 13-acetate (PMA) can activate IL33 promoters through protein kinase C in primary airway cells and lines. Transcription factor (TF) binding arrays combined with RNA interference identified activator protein (AP) TFs as regulators of baseline and induced IL33 promoter activity. ATAC-Seq and ChIP-PCR identified chromatin accessibility and differential TF binding as additional control points for transcription from noncanonical promoters. In support of a role for these TFs in COPD pathogenesis, we found that AP-2 (TFAP2A, TFAP2C) and AP-1 (FOS and JUN) family members are upregulated in human COPD specimens. This study implicates integrative and pioneer TFs in regulating IL33 promoters and alternative splicing in human airway basal cells. Our work reveals a potentially novel approach for targeting IL-33 in development of therapeutics for COPD.

Authors

Heather E. Raphael, Ghandi F. Hassan, Omar A. Osorio, Lucy S. Cohen, Morgan D. Payne, Ella Katz-Kiriakos, Ishana Tata, Jamie Hicks, Derek E. Byers, Bo Zhang, Jen Alexander-Brett

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Figure 5

Epigenetic modulation of expression from IL33 locus.

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Epigenetic modulation of expression from IL33 locus. (A) Expression leve...
(A) Expression levels of AP-2 (TFAP2A, TFAP2C) and AP-1 (FOS, JUN) transcription factors measured in HBE, B2B, and 16HBE cell lines. (B) Expression analysis for AP-1 and AP-2 TFs and IL33 promoter–driven isoforms in undifferentiated primary airway basal cells and after 3 weeks in air-liquid interface (ALI) conditions, performed on the same non-COPD specimen. (C) ATAC-Seq performed on airway cell lines with chromatin-accessible peaks superimposed on the IL33 promoters region, also mapped for comparison: whole-lung ATAC-Seq, RAMPAGE (promoter mapping), cis-regulatory elements (CRE), and H3K27 acetylation marks on human hg38. Promoter-derived transcripts are labeled. Predicted JASPAR transcription factor binding sites for AP-1 and AP-2 are labeled green and blue, respectively; dashed boxes represent putative enhancers and are color coded based on activator protein transcription factor sites. Summary of ClinVar SNPs is displayed as PubMed SNPs. (D) ChIP-PCR analysis performed for each of the IL33 promoters and the labeled Intron 1 Enhancer (Int1 Enh). Immunoprecipitation was performed with AP-2α, AP-2γ, FOS, and JUN antibodies, as shown in the schematic. qPCR was performed with promoter-specific primer sets and reported as fold-enrichment (ΔΔCt) relative to bead-only control. Statistical analysis included 1-way ANOVA (A), t test (B), and multiple t test (D). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001. Experiments in A and B are representative of duplicate experiments, C is a single experiment, and D is representative of triplicate repeats.