Abstract
AbstractAtopic dermatitis (AD) is an allergic skin disease mediated by skin barrier impairment and IL-13-driven immune response. Activation of the aryl hydrocarbon receptor (AHR) has shown promise in early clinical trials for AD, however, the mechanism by which AHR mediates this function is unknown. Herein, AHR signaling is shown to be dysregulated in AD patients using publicly available gene expression data from biopsies of patients with AD compared with controls. AHR target genes,CYP1A1,CYP1A2andNFE2L2were decreased in lesional skin compared with healthy control skin (p=0.001, p<1.0*10-10and p=6.1*10-6respectively). Single cell RNA sequencing studies demonstrated increased expression ofAHR(p<1.0*10-4and p=0.049) and decreased expression ofCYP1A1in lesional AD keratinocytes compared with healthy control keratinocytes (p=5.0*10-4and p=0.21). AHR activation reversed IL-13-dependent gene expression of several key genes in AD pathogenesis, most notably the eosinophil chemoattractant,CCL26(Eotaxin-3). There was substantial overlap between differentially expressed genes in keratinocytes of patients with atopic dermatitis and AHR-regulated genes. Mechanistically, there was evidence for direct transcriptional effects of AHR as its binding motifs were identified in the differentially expressed genes from lesional AD keratinocytes compared to control keratinocytes and AHR activation did not modify IL-13-dependent signal transducer and activator of transcription 6 (STAT6) translocation to the nucleus. Together these data imply that AHR modulates IL-13 downstream signaling in keratinocytes through genome-wide direct transcriptional regulatory effects.
Publisher
Cold Spring Harbor Laboratory