Project description:FTO was found to inhibit keratinocyte inflammation and proliferation in both in vitro and in vivo settings, independent of m6A demethylase function. RNA-seq was used to identify fibronectin (FN1,FN) as a potential target for FTO. FTO does not rely on demethylase activity to decrease FN1 expression. The anti-inflammatory and anti-proliferative effects of FTO on psoriasis partly depend on FN1. FTO may regulate the skipping of EDA exon in FN1.

Project description:Clinical overlaps between psoriasis and atopic dermatitis are sometimes undiscernible, and there is no consensus whether to treat the overlap phenotype as psoriasis or atopic dermatitis. We enrolled patients diagnosed with either psoriasis or atopic dermatitis, and clinically re-stratified them into classic psoriasis, classic atopic dermatitis, and the overlap phenotype between psoriasis and atopic dermatitis. We compared gene expression profiles of lesional and nonlesional skin biopsy tissues between the three comparison groups. Global mRNA expression and T-cell subset cytokine expression in the skin of the overlap phenotype were consistent with the profiles of psoriasis and different from the profiles of atopic dermatitis. Unsupervised k-means clustering indicated that the best number of distinct clusters for the total population of the three comparison groups was two, and the two clusters of psoriasis and atopic dermatitis were differentiated by gene expression. Our study suggests that clinical overlap phenotype between psoriasis and atopic dermatitis has dominant molecular features of psoriasis, and genomic biomarkers can differentiate psoriasis and atopic dermatitis at molecular levels in patients with a spectrum of psoriasis and atopic dermatitis.

Project description:Characteization host-microbiome interactions in patients with allergic (model: atopic dermatitis) and autoimmune (model: psoriasis) diseases by integration of microarray transcriptome data with 16S microbial profiling. 6mm punch biopsies were collected from the skin of atopic dermatitis and psoriasis patients alongside healthy volunteers, and subjected to analysis using Affymetrix Human Gene ST 2.1 arrays.

Project description:Genome-Wide Profiling of Lesional and Non-Lesional Skin from Atopic Dermatitis, Psoriasis, and Contact Dermatitis Skin

Project description:Atopic dermatitis and psoriasis are driven by alternate type 2 and type 17 immune responses, but some proteins might be critical to both diseases. We show that a deficiency of the TNF superfamily molecule TWEAK (TNFSF12) in mice results in defective maintenance of atopic dermatitis-specific Th2 and psoriasis-specific Th17 cells in the skin, and impaired expression of disease-characteristic chemokines and cytokines, such as CCL17 and TSLP in atopic dermatitis, and CCL20 and IL-19 in psoriasis. The TWEAK receptor, Fn14, is upregulated in keratinocytes and dermal fibroblasts, and TWEAK induces these cytokines and chemokines alone and in synergy with the signature T helper cytokines of either disease, IL-13 and IL-17. Furthermore, subcutaneous injection of recombinant TWEAK into naïve mice induces cutaneous inflammation with histological and molecular signs of both diseases. TWEAK is therefore a critical contributor to skin inflammation and a possible therapeutic target in atopic dermatitis and psoriasis.

Project description:We analyzed m6A modifications in skin lesions of patients with psoriasis or atopic dermatitis (AD). The results of this study will help to gain insight into the molecular basis of m6A modification in inflammatory skin diseases such as psoriasis or atopic dermatitis.

Project description:Optimizing single-cell transcriptomic discrimination of atopic dermatitis versus psoriasis vulgaris

Project description:Recently, it was shown that lesional skin of atopic dermatitis patients expresses low levels of some antimicrobial peptides, compared with psoriasis patients. Here we performed microarray analysis on mRNA from purified lesional epidermal cells of patients with chronic plaque psoriasis and chronic atopic dermatitis, to investigate whether this is a general phenomenon for host defense proteins, and how specific it is for this class of molecules. We found overexpression of many antimicrobial genes in keratinocytes from psoriatic skin compared with atopic dermatitis skin. Interestingly, we observed that markers of normal differentiation and the activated/hyperproliferative epidermal phenotype were expressed at equal levels. Chronic lesions of psoriasis and atopic dermatitis patients are remarkably similar with respect to cellular proliferation. We conclude that psoriatic epidermis expresses high levels of host defense proteins compared with atopic dermatitis epidermis, and this phenomenon appears to be specific for these proteins. It remains to be investigated whether this is caused by genetic polymorphisms in pathways leading to an epidermal antimicrobial response, or by differences in the cellular infiltrate in psoriasis compared with atopic dermatitis. In general the microarray technique is used to probe a (very large) number of genes for say the deseased and the healthy state.Then gene ontology is used to detect the involved pathways.We did not set out to find a comprehensive list of genes involved in these skin deseases.We do suspect that the "path way" approach might be a bit anthropomorphic.Here we offered a different approach.We set out to investigate the evolutionary fitness changes from one local maximum , Psoriasis , to another , Atopie. Our hypothesis is that Psoriasis is at one extreme in the reaction of the evolution to invading micro organisms and Atopie at an other.So the vast chemical web called human being with numorous feedback and feed forward signals would then be tilted a bit in multidimensional Gene Space and the microarray technique would show us a glimpse of the involved genes. Keywords: Disease state analysis

Project description:Psoriasis and atopic dermatitis (AD) are characterized by polarized CD4+ T cell responses. During the polarization of naM-CM-/ve CD4+ T cells, DNA methylation plays an important role in the regulation of gene transcription. In this study, we profiled the genome-wide DNA methylation status of naM-CM-/ve CD4+ T cells in patients with psoriasis or AD and healthy controls using a ChIP-seq method. As a result, twenty-six regions in the genome ranging in size from 10 to 70 kb were markedly hypomethylated in patients with psoriasis. These regions were mostly pericentromeric on 10 different chromosomes and overlapped with various strong epigenomic signals, such as histone modifications and transcription factor binding sites, that were observed in the ENCODE project. Gene-centric analysis indicated that the promoter regions of 124 genes on the X chromosome had dramatically elevated methylation levels in patients with psoriasis as compared to those from healthy controls (> 4-fold). Moreover, immune-related genes on the X chromosome had higher hypermethylation than other genes (P < 0.05). These findings imply that methylation changes in naM-CM-/ve CD4+ T cells may affect CD4+ T cell polarization, especially in the pathogenesis of psoriasis. Keywords: Psoriasis, Atopic dermatitis, DNA methylation, naM-CM-/ve CD4+ T cells Sample submission examines DNA methylation from human naive CD4+ T cells in patients with psoriasis and atopic dermatitis. Note: Raw data available only for Sample GSM871288.

Project description:Dupilumab is an antibody targeting the IL-4/IL-13 receptors indicated for atopic dermatitis patients, but paradoxical psoriasis-like reactions have been reported under treatment. To understand the pathogenesis of DI-Pso, we performed a gene expression profiling study using microarray on skin biopsies of dupilumab-induced psoriasis, plaque psoriasis and AD compared with healthy control skin.