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Dupilumab, a monoclonal antibody that inhibits signal transduction by interleukin-4 and interleukin-13, showed unexpected clinical efficacy in this group of small, randomized, controlled trials involving patients with atopic dermatitis, which were designed predominantly for safety. Atopic dermatitis, which is characterized by a disturbed skin barrier, robust type 2 helper T-cell (Th2)–mediated immune responses to numerous environmental antigens, susceptibility to cutaneous infections, and intractable pruritus, is a common chronic skin condition with a worldwide prevalence of 1 to 20%. 1 Approximately 20% of patients with atopic dermatitis have moderate-to-severe disease, 1 and treatments approved by the Food and Drug Administration for atopic dermatitis, which include emollients, topical glucocorticoids, and calcineurin inhibitors, 2 , 3 have limited efficacy in moderate-to-severe disease. 4 , 5 The Th2 cytokines interleukin-4 and interleukin-13 are believed to play roles in the pathogenesis of atopic dermatitis, 6 , 7 but . . .

The etiology of dermatitis involves complex interactions between immune cells, genetics, and environmental factors. While immunocyte phenotypes have been linked to various forms of dermatitis, their causal role remains unclear. We conducted a two-sample Mendelian randomization (MR) analysis to investigate the causal effects between 731 immunocyte phenotypes and four types of dermatitis: atopic dermatitis, contact dermatitis, infective dermatitis, and seborrhoeic dermatitis. Genetic variants were used as instrumental variables, and the inverse variance-weighted (IVW) method was employed to assess causality. Sensitivity analyses were performed to ensure robustness. The forward MR analysis identified significant associations between 22 immunocyte phenotypes and atopic dermatitis, 8 phenotypes with contact dermatitis, 5 with infective dermatitis, and 6 with seborrhoeic dermatitis. The reverse MR analysis suggested potential bidirectional interactions of atopic dermatitis and CD3 on CD28 + CD45RA- CD8br (OR = 0.924, P  = 0.012). This study revealed causal relationships between specific immunocyte phenotypes and dermatitis subtypes, providing novel insights into the immunopathogenesis of dermatitis and potential therapeutic targets.

The genetic background of Atopic Dermatitis (AD) with chronic pruritus is complex. Filaggrin ( FLG ) is an essential gene in the epidermal barrier formation s. Loss-of-function (LOF) variants in FLG associated with skin barrier dysfunction constitute the most well-known genetic risk factor for AD. In this study, we focused on the frequency and effect of FLG loss-of-function variants in association with self-reported age-of-onset of AD. The dataset consisted of 386 whole-genome sequencing (WGS) samples. We observe a significant association between FLG LOF status and age-of-onset, with earlier age of onset of AD observed in the FLG LOF carrier group (p-value 0.0003, Wilcoxon two-sample test). We first tested this on the two most prevalent FLG variants. Interestingly, the effect is even stronger when considering all detected FLG LOF variants. Having two or more FLG LOF variants associates with the onset of AD at 2 years of age. In this study, we have shown enrichment of rare variants in the EDC region in cases compared with controls. Age-of-onset analysis shows not only the effect of the FLG and likely EDC variants in terms of the heightened risk of AD, but foremost enables to predict early-onset, lending further credence to the penetrance and causative effect of the identified variants. Understanding the genetic background and risk of early-onset is suggestive of skin barrier dysfunction etiology of AD with chronic pruritus

Contact dermatitis tremendously impacts the quality of life of suffering patients. Currently, diagnostic regimes rely on allergy testing, exposure specification, and follow-up visits; however, distinguishing the clinical phenotype of irritant and allergic contact dermatitis remains challenging. Employing integrative transcriptomic analysis and machine-learning approaches, we aimed to decipher disease-related signature genes to find suitable sets of biomarkers. A total of 89 positive patch-test reaction biopsies against four contact allergens and two irritants were analyzed via microarray. Coexpression network analysis and Random Forest classification were used to discover potential biomarkers and selected biomarker models were validated in an independent patient group. Differential gene-expression analysis identified major gene-expression changes depending on the stimulus. Random Forest classification identified CD47, BATF, FASLG, RGS16, SYNPO, SELE, PTPN7, WARS, PRC1, EXO1, RRM2, PBK, RAD54L, KIFC1, SPC25, PKMYT, HISTH1A, TPX2, DLGAP5, TPX2, CH25H, and IL37 as potential biomarkers to distinguish allergic and irritant contact dermatitis in human skin. Validation experiments and prediction performances on external testing datasets demonstrated potential applicability of the identified biomarker models in the clinic. Capitalizing on this knowledge, novel diagnostic tools can be developed to guide clinical diagnosis of contact allergies.

Angiogenesis, the growth of new blood vessels from preexisting vessels, is associated with inflammation in various pathological conditions. Well-known angiogenetic factors include vascular endothelial growth factor (VEGF), angiopoietins, platelet-derived growth factor, transforming growth factor-β, and basic fibroblast growth factor. Yes-associated protein 1 (YAP) and transcriptional co-activator with PDZ-binding motif (TAZ) have recently been added to an important angiogenic factor. Accumulating evidence indicates associations between angiogenesis and chronic inflammatory skin diseases. Angiogenesis is deeply involved in the pathogenesis of psoriasis. VEGF, angiopoietins, tumor necrosis factor-a, interleukin-8, and interleukin-17 are unregulated in psoriasis and induce angiogenesis. Angiogenesis may be involved in the pathogenesis of atopic dermatitis, and in particular, mast cells are a major source of VEGF expression. Angiogenesis is an essential process in rosacea, which is induced by LL-37 from a signal cascade by microorganisms, VEGF, and MMP-3 from mast cells. In addition, angiogenesis by increased VEGF has been reported in chronic urticaria and hidradenitis suppurativa. The finding that VEGF is expressed in inflammatory skin lesions indicates that inhibition of angiogenesis is a useful strategy for treatment of chronic, inflammatory skin disorders.

Defects in cholesterol synthesis result in a wide variety of symptoms, from neonatal lethality to the relatively mild dysmorphic features and developmental delay found in individuals with Smith-Lemli-Opitz syndrome. We report here the identification of mutations in sterol-C4-methyl oxidase–like gene (SC4MOL) as the cause of an autosomal recessive syndrome in a human patient with psoriasiform dermatitis, arthralgias, congenital cataracts, microcephaly, and developmental delay. This gene encodes a sterol-C4-methyl oxidase (SMO), which catalyzes demethylation of C4-methylsterols in the cholesterol synthesis pathway. C4-Methylsterols are meiosis-activating sterols (MASs). They exist at high concentrations in the testis and ovary and play roles in meiosis activation. In this study, we found that an accumulation of MASs in the patient led to cell overproliferation in both skin and blood. SMO deficiency also substantially altered immunocyte phenotype and in vitro function. MASs serve as ligands for liver X receptors α and β(LXRα and LXRβ), which are important in regulating not only lipid transport in the epidermis, but also innate and adaptive immunity. Deficiency of SMO represents a biochemical defect in the cholesterol synthesis pathway, the clinical spectrum of which remains to be defined.

Atopic dermatitis (AD) is a chronic inflammatory skin disease, and skin barrier defects are often observed in patients with AD. So far, few association studies between FLG loss-of-function mutations and onset of AD in longitudinal studies of early childhood have been reported. In the present study, we aimed to investigate the effect of FLG loss-of-function mutations on the development of AD in a longitudinal birth cohort study. The status of AD diagnosis at each age until 6 years was collected from the Tokyo Children's Health, Illness, and Development (T-CHILD) study. We analyzed eight loss-of-function mutations in FLG in 712 participants. FLG loss-of-function mutations were significantly associated with AD onset in infancy (≤2 years) (P < 0.001, OR 3.54, 95% CI 1.88-6.65), but not with AD onset in childhood (≥3 years) (P = 0.981, OR 0.99, 95% CI 0.29-3.36), and none of the children in the present cohort who developed AD at 5 years of age or later carried FLG loss-of-function mutations. Our data support the notion that the effect of FLG loss-of-function mutations is prominent during a very early stage of life.

Population studies suggest that atopic dermatitis (AD) is associated with an increased risk of obesity, however a causal relationship between these two conditions remains to be established. We therefore use Mendelian randomization (MR) to evaluate whether obesity and AD are causally interlinked. We used summary statistics extracted from genome wide association studies of Body Mass Index (BMI) and AD. MR analysis was performed in both directions to establish the direction of causality between BMI and AD. We find that genetically determined increase in adiposity is associated with increased risk of AD (odds ratio of AD 1.08 [95% CI 1.01 to 1.14; p = 0.015] per unit increase in BMI). Conversely, genetically determined increased risk of AD is not associated with a higher BMI (change in BMI attributable to AD based on genetic information: 0.00; 95% CI − 0.02 to 0.02; p = 0.862). There was no evidence for confounding of these genetic analyses by horizontal pleiotropy. Our results indicate that the association of AD with obesity is likely to reflect a causal role for adiposity in the development of AD. Our findings enhance understanding of the etiology of AD, and the basis for experimental studies to evaluate the mechanistic pathways by which adiposity promotes AD.

Spleen tyrosine kinase (SYK) is a critical immune signaling molecule and therapeutic target. We identified damaging monoallelic SYK variants in six patients with immune deficiency, multi-organ inflammatory disease such as colitis, arthritis and dermatitis, and diffuse large B cell lymphomas. The SYK variants increased phosphorylation and enhanced downstream signaling, indicating gain of function. A knock-in (SYK-Ser544Tyr) mouse model of a patient variant (p.Ser550Tyr) recapitulated aspects of the human disease that could be partially treated with a SYK inhibitor or transplantation of bone marrow from wild-type mice. Our studies demonstrate that SYK gain-of-function variants result in a potentially treatable form of inflammatory disease. Individuals with SYK gain-of-function variants develop immunodeficiency and systemic inflammation, which are recapitulated in a knock-in mouse model. Treatment of these mice with bone marrow transplantation or with a SYK inhibitor ameliorates disease symptoms, highlighting potential therapeutic strategies for patients with SYK mutations.

Psoriasis is a chronic inflammatory disorder of the skin affecting approximately 2% of the world's population. Accumulating evidence has revealed that the IL-23/IL-17/IL-22 pathway is key for development of skin immunopathology. However, the role of keratinocytes and their crosstalk with immune cells at the onset of disease remains poorly understood. Here, we show that IL-36R-deficient (Il36r-/-) mice were protected from imiquimod-induced expansion of dermal IL-17-producing γδ T cells and psoriasiform dermatitis. Furthermore, IL-36R antagonist-deficient (Il36rn-/-) mice showed exacerbated pathology. TLR7 ligation on DCs induced IL-36-mediated crosstalk with keratinocytes and dermal mesenchymal cells that was crucial for control of the pathological IL-23/IL-17/IL-22 axis and disease development. Notably, mice lacking IL-23, IL-17, or IL-22 were less well protected from disease compared with Il36r-/- mice, indicating an additional distinct activity of IL-36 beyond induction of the pathological IL-23 axis. Moreover, while the absence of IL-1R1 prevented neutrophil infiltration, it did not protect from acanthosis and hyperkeratosis, demonstrating that neutrophils are dispensable for disease manifestation. These results highlight a central and unique IL-1-independent role for IL-36 in control of the IL-23/IL-17/IL-22 pathway and development of psoriasiform dermatitis.