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BACKGROUND: Atopic dermatitis (AD) is a common inflammatory skin disorder, characterized by skin barrier defects and enhanced allergen priming. Null mutations in the filaggrin gene (FLG) are strongly associated with moderate to severe AD, but the pathways linking barrier dysfunction and cutaneous inflammation are still largely unknown. AIM: To assess alteration of endogenous cysteine protease activity in FLG-deficient keratinocytes, and to determine whether the alteration in cysteine protease activity affects epidermal barrier function and associated gene and protein expression. METHODS: We established a stable FLG knockdown cell line, and reconstructed epidermal equivalents in vitro. Barrier function of the reconstructed epidermis, the barrier-associated genes and proteins, and the activity of endogenous cysteine proteases were tested. Inhibitors of cysteine proteases were used to further evaluate the role of endogenous cysteine proteases in epidermal barrier function. RESULTS: FLG knockdown induced impaired epidermal barrier function. Microarray, western blotting and fluorescence staining showed reduced expression of K10, ZO-1, E-cadherin, claudin-1 and occludin in FLG knockdown keratinocytes. Compared with cysteine protease activity in control cells, protease activity was dramatically enhanced in FLG knockdown keratinocytes. Furthermore, administration of cysteine protease inhibitors significantly recovered expression of K10 and tight junction proteins, and the barrier defect induced by FLG deficiency. CONCLUSIONS: This is the first observation of elevated endogenous cysteine protease activity in FLG-deficient keratinocytes, which may play an important role in impaired barrier function in AD skin. Modulation of cysteine protease activity might be a novel therapeutic approach for AD treatment.

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BACKGROUND: The role of epidermal barrier genes in the pathogenesis of atopic skin inflammation has recently been highlighted. Cytokines that are abundant in the skin during inflammation have been shown to exert various effects on the expression of barrier genes, although the role of histamine in this area of skin biology is not yet fully understood. OBJECTIVE: To assess the effect of stimulation with histamine on keratinocytes by analysis of the pathways involved in epidermal barrier integrity. MATERIAL AND METHODS: We performed a gene expression analysis of histamine-stimulated keratinocytes. Functional changes were tested using the dye penetration assay. Differential changes in filaggrin and the filaggrin-processing enzyme bleomycin hydrolase (BLMH) were validated at the protein level, and expression was also assessed in filaggrin knock-down keratinocytes. RESULTS: Histamine altered expression of multiple barrier genes. Expression of filaggrin was downregulated, as was that of other markers, thus suggesting the presence of delayed/aberrant keratinocyte differentiation. Expression of genes involved in cellular adhesiveness and genes of protease expression was dysregulated, but expression of protease inhibitors was increased. BLMH was upregulated in keratinocytes subjected to histamine and filaggrin knockdown. CONCLUSIONS: Histamine exerts a dual effect on epidermal barrier genes; it suppresses keratinocyte differentiation and dysregulates genes of cellular adhesiveness, although it induces genes contributing to stratum corneum function. Upregulation of BLMH and protease inhibitors could support maintenance of the permeability barrier by enhanced generation of moisturizing compounds and suppressed desquamation. In contrast, in the case of stratum corneum damage, histamine could enhance transcutaneous sensitization.

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Background: The role of epidermal barrier genes in the pathogenesis of atopic skin inflammation has recently been highlighted. Cytokines that are abundant in the skin during inflammation have been shown to exert various effects on the expression of barrier genes, although the role of histamine in this area of skin biology is not yet fully understood. Objective: To assess the effect of stimulation with histamine on keratinocytes by analysis of the pathways involved in epidermal barrier integrity. Material and Methods: We performed a gene expression analysis of histamine-stimulated keratinocytes. Functional changes were tested using the dye penetration assay. Differential changes in filaggrin and the filaggrin-processing enzyme bleomycin hydrolase (BLMH) were validated at the protein level, and expression was also assessed in filaggrin knock-down keratinocytes. Results: Histamine altered expression of multiple barrier genes. Expression of filaggrin was downregulated, as was that of other markers, thus suggesting the presence of delayed/aberrant keratinocyte differentiation. Expression of genes involved in cellular adhesiveness and genes of protease expression was dysregulated, but expression of protease inhibitors was increased. BLMH was upregulated in keratinocytes subjected to histamine and filaggrin knockdown. Conclusions: Histamine exerts a dual effect on epidermal barrier genes; it suppresses keratinocyte differentiation and dysregulates genes of cellular adhesiveness, although it induces genes contributing to stratum corneum function. Upregulation of BLMH and protease inhibitors could support maintenance of the permeability barrier by enhanced generation of moisturizing compounds and suppressed desquamation. In contrast, in the case of stratum corneum damage, histamine could enhance transcutaneous sensitization (AU)

Antecedentes: Recientemente se ha comprobado el papel de los genes de la barrera epidérmica en la patogénesis de la inflamación de la piel atópica. Se ha demostrado la presencia de abundantes citocinas en la piel durante la inflamación, que ejercen diferentes efectos sobre la expresión de los genes de la barrera, si bien el papel de la histamina en la biología de la piel no se conoce bien. Objetivo: El objetivo de este estudio fue analizar el efecto de la estimulación de los queratinocitos por la histamina centrándonos en las múltiples vías involucradas en mantener la integridad de la barrera epidérmica. Material y Métodos: Para ello se realizó un análisis de la expresion de los genes de queratinocitos estimulados con histamina y en queratinocitos sin filagrina. Los cambios funcionales fueron estudiados mediante un ensayo de penetración de colorante. Se analizaron los cambios diferenciales en la filagrina y en la enzima procesadora de la filagrina bleomicina hidrolasa (BLMH) Resultados: En cuanto a los resultados obtenidos se observó que la histamina fue capaz de alterar la expresión de numerosos genes de la barrera cutánea. La regulación a la baja de la filagrina observada, así como el patrón de expresión de otros marcadores sugiere una retarda y/o aberrante diferenciación de los queratinocitos provocada por la histamina. La expresión de genes involucrados en la adherencia celular y en la expresión de proteasas se altera, con un aumento de la expresión de inhibidores de las proteasas. La hidrolasa de la bleomicina se incrementa en los queratinocitos tratados con histamina y en queratinocitos sin filagrina. Conclusiones: La histamina ejerce un efecto dual sobre los genes de la barrera epidérmica, suprime la diferenciación de los queratinocitos y disregula la adhesividad celular, por otra parte induce la expresion de genes que contribuyen a la función del estrato córneo. La regulación al alta de la hidrolasa de la bleomicina y los inhibidores de las proteasas podrían mantener la permeablidad de l a barrera cutánea facilitando la generación de componentes humectantes y suprimir la descamación. En contraste, sobre el estrato córneo la histamina provoca un daño que podría facilitar la sensibilización trascutánea (AU)

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BACKGROUND: Histamine is an abundant mediator accumulating in the skin of atopic patients, where it is thought to be derived from immune cells. While keratinocytes express histidine decarboxylase (HDC), levels of the enzyme in normal or diseased epidermis and factors that influence its expression in human keratinocytes are not known. OBJECTIVES: To assess levels of HDC in inflammatory skin diseases and factors influencing its expression. METHODS: Normal and filaggrin-insufficient human keratinocytes, organotypic epidermal models and skin samples were investigated for the expression of HDC. The effect of cytokines, bacterial and allergen stimuli exposure and functional changes in differentiation were evaluated in vitro. RESULTS: We detected abundant expression of the HDC protein in all models studied; expression was increased in atopic skin samples. Filaggrin-insufficient keratinocytes maintained HDC levels, but exposure of keratinocytes to thymic stromal lymphopoietin, tumour necrosis factor-α, lipopolysaccharide (LPS) and house dust mite (HDM) extract increased HDC expression in vitro. Furthermore, filaggrin expression in cultured keratinocytes increased following histamine depletion. CONCLUSIONS: Keratinocytes express abundant HDC protein, and the levels increase in atopic skin. LPS, HDM and cytokines, which are implicated in allergic inflammation, promote the expression of the enzyme and upregulate histamine levels in keratinocytes. Actively produced histamine influences keratinocyte differentiation, suggesting functional relevance of the axis to atopic dermatitis. The findings therefore identify a new point of therapeutic intervention.

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BACKGROUND: The role of the epidermis in the immune response is well known. While multiple cytokines are implicated in keratinocyte-mediated infection clearance and wound healing, little is known about the involvement of keratinocytes in promoting resolution of inflammation. AIM: To assess effects of histamine stimulation on keratinocyte function. METHODS: We performed a combined microarray/Gene Ontology analysis of histamine-stimulated keratinocytes. Functional changes were tested by apoptosis assessment and scratch assays. Histamine receptor involvement was also assessed by blocking wound closure with specific antagonists. RESULTS: Histamine treatment had extensive effects on keratinocytes, including effects on proinflammatory responses and cellular functions promoting wound healing. At the functional level, there was reduced apoptosis and enhancement of wound healing in vitro. At the receptor level, we identified involvement of all keratinocyte-expressed histamine receptors (HRHs), with HRH1 blockage resulting in the most prominent effect. CONCLUSIONS: Histamine activates wound healing and infection clearance-related functions of keratinocytes. While enhancement of histamine-mediated wound healing is mediated predominantly via the HRH1 receptor, other keratinocyte-expressed receptors are also involved. These effects could promote resolution of skin inflammation caused by infection or superficial injury.

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Studies published in recent years have highlighted the role of epidermal barrier defects in both atopic skin disease and the development of broader allergic manifestations. While genetic determinants of barrier function are important, it is clear that local acquired effects are also involved in disease pathogenesis. In this review, we aimed to summarize the known influences of cytokines abundantly expressed during atopic skin disease on components of epidermal barrier integrity and function.

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BACKGROUND: The identification of filaggrin mutations has contributed towards our understanding of hereditary factors associated with epidermal dysfunction observed in individuals with atopic eczema (AE). However, factors that predispose to acquired filaggrin modulation are not well understood. Interleukin (IL)-22 is upregulated in lesional AE tissue, but its effects on filaggrin expression and genes associated with epidermal function have not yet been comprehensively addressed. OBJECTIVES: To investigate the effects of IL-22 on expression of filaggrin and genes encoding proteins relevant to epidermal function. METHODS: Microarray analysis was performed on IL-22-stimulated HaCaT keratinocytes. Filaggrin protein level was assessed by an intracellular enzyme-linked immunosorbent assay (ELISA) and Western blot in HaCaT cells and the findings were validated in primary keratinocytes. RESULTS: Exposure to IL-22 cytokine resulted in a downregulation of profilaggrin mRNA expression in HaCaT keratinocytes. The expression of genes involved in enzymatic processing of profilaggrin as well as the generation of natural moisturizing factor was also altered. Furthermore, there was an upregulation of many transcripts encoding proteins of the S100 family. Profilaggrin/filaggrin downregulation was detected by intracellular ELISA and Western blot in HaCaT cells. The relevance to the primary setting was confirmed in primary keratinocytes by Western blot. CONCLUSIONS: IL-22 downregulates profilaggrin/filaggrin expression in keratinocytes at both mRNA and protein levels and affects genes relevant to epidermal function. This novel pathway may have relevance to the pathogenesis and treatment of atopic and other skin disease.

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