Iron sensitizes keratinocytes and fibroblasts to UVA‐mediated matrix metalloproteinase‐1 through TNF‐α and ERK activation

Abstract: Oestrogen deficiency is regarded as the main causative factor in postmenopausal skin ageing and photoageing. While women after menopause experience low levels of oestrogen because of cease of ovarian function, they are also exposed to high levels of iron as a result of cessation of menstruation. In this study, we investigated whether this increase in iron presents a risk to the postmenopausal skin. Because of the lack of appropriate animal models to closely mimic the low oestrogen and high iron conditions, we tested the hypothesis in a high iron and low oestrogen culture model. Here, we showed that primary human dermal fibroblasts exposed to iron did not affect the baseline levels of matrix metalloproteinase‐1 (MMP‐1) activity. However, the iron‐exposed fibroblasts were sensitized to UVA exposure, which resulted in a synergistic increase in MMP‐1. UVA activated the three members of MAPK family: ERKs, p38, and JNKs. Additional activation of ERKs by iron contributed to the synergistic increases. Primary normal human epidermal keratinocytes (NHEK) did not respond to iron or UVA exposure as measured by MMP‐1, but produced tumor necrosis factor‐alpha (TNF‐α) in the media, which then stimulated MMP‐1 in fibroblasts. Our results indicate that iron and UVA increase MMP‐1 activity in dermal fibroblasts not only directly through ERK activation but also by an indirect paracrine loop through TNF‐α released by NHEK. We conclude that in addition to oestrogen deficiency, increased iron as a result of menopause could be a novel risk factor by sensitizing postmenopausal skin to solar irradiation.     

Nicotinamide downregulates gene expression of interleukin‐6, interleukin‐10, monocyte chemoattractant protein‐1, and tumour necrosis factor‐α gene expression in HaCaT keratinocytes after ultraviolet B irradiation

Ultraviolet (UV) radiation has profound effects on human skin, causing sunburn, inflammation, cellular‐tissue injury, cell death, and skin cancer. Most of these effects are mediated by a number of cytokines produced by keratinocytes. In this study we investigated whether nicotinamide (NCT), the amide form of vitamin B3, might have a protective function in reducing the expression of interleukin (IL)‐1β, IL‐6, IL‐8, IL‐10, monocyte chemoattractant protein (MCP)‐1 and tumour necrosis factor (TNF)‐α in UV‐irradiated keratinocytes. HaCaT cells were treated with UVB in the presence or absence of NCT, and cytokine mRNA levels were examined by quantitative real‐time PCR. NCT significantly downregulated IL‐6, IL‐10, MCP‐1 and TNF‐α mRNA expression, whereas it did not exert any significant effect on IL‐1β or IL‐8 expression. Because of its ability to decrease these cytokine mediators after UV exposure, NCT is a possible therapy to improve or prevent conditions induced or aggravated by UV light.     

In situ antioxidant activity of a dermo‐cosmetic product: A randomized controlled clinical study

Ultraviolet light enhances the generation of reactive oxygen species that are responsible for skin photoageing. The aim of this randomized, vehicle‐ and active‐controlled double‐blind, intra‐individual monocentric study was to evaluate in situ the antioxidant activity of a dermo‐cosmetic product in photoaged skin. Twenty healthy volunteers had defined skin areas randomized to receive a topical product containing 3 antioxidants (pre‐tocopheryl^®, retinaldehyde and glycylglycine ole‐amide), its vehicle and a positive antioxidant control cream. The products were applied daily for 30‐day period. The skin areas were exposed to a controlled dose of UVA rays, and the skin oxidative status was evaluated 4 and 24 hours post‐UVA exposure at D0 (basal value) and after 15 and 30 days of product application. Skin layers were collected by stripping, and antioxidant capacity was measured using the ferric reducing ability of a plasma assay. Lipid peroxidation (LPO) was assessed using the malonyldialdehyde test. The tested product significantly improved the skin antioxidant capacity after 15 and 30 days and significantly decreased the basal level of the skin LPO. The skin LPO level significantly decreased 4 and 24 hours after UVA exposure at 15 and 30 days. These findings were comparable to positive control treated sites and were significantly different from the vehicle and untreated sites. This minimally invasive methodology enabled a quantitative evaluation of potent antioxidant activity in situ in the stratum corneum reflecting real‐life skin conditions and confirming the benefits of the topical application of a product containing 3 antioxidants in the prevention of UVA‐induced oxidative damage.     

The single‐chain anti‐TNF‐α antibody DLX105 induces clinical and biomarker responses upon local administration in patients with chronic plaque‐type psoriasis

It is not clear whether TNF‐α antagonists used in the treatment of psoriasis need to act systemically, or whether local inhibition of skin‐produced TNF‐α would be sufficient to silence skin inflammation. To answer this question, we conducted two multicentre, double‐blinded, randomized, placebo‐controlled clinical trials with the novel single‐chain anti‐TNF‐α‐PENTRA^®‐antibody DLX105. Upon intra‐dermal injection, DLX105 induced a mean local PASI decrease of 33% over baseline after 2 weeks of treatment, while the placebo response was only 12% (P = 0.001). The clinical response was accompanied by changes in biomarkers such as reductions in K16, Ki67 and epidermal thickness as well as decreased mRNA levels of IL‐17, TNF‐α, IL‐23p19, IL‐12p40 and IFN‐γ. Next, we applied the drug topically twice daily in a 0.5% hydrogel formulation. While the local PASI did not change, topical DLX105 mediated significant reductions of mRNA levels of key proinflammatory cytokines when compared to placebo, and this effect was further enhanced after weekly tape stripping of plaques to increase drug penetration. These results suggest that longer treatment periods and/or increased local drug concentrations might result in better therapeutic efficacy of topically applied DLX105. In sum, we can show for the first time that local inhibition of TNF‐α is sufficient to mediate a biological response in psoriasis that translates into clinical efficacy.     

IL‐33 is secreted by psoriatic keratinocytes and induces pro‐inflammatory cytokines via keratinocyte and mast cell activation

IL‐33 is a novel pro‐inflammatory cytokine and ligand for the orphan receptor ST2. Although originally defined as an inducer of Th2‐mediated responses, IL‐33 was recently found to be involved in arthritis, a Th1/Th17‐mediated disease. Here, we assessed the ability of IL‐33 to promote inflammation via mast cells (MCs) and keratinocytes (KCs) activation in psoriasis. IL‐33 resulted elevated in the skin but not in the serum of psoriasis patients. IL‐33 was secreted by psoriasis KCs and HaCaT cells after TNF‐α stimulation. In HMC‐1, TNF‐α, but not IL‐17, could induce a robust increase in IL‐33 expression. In HaCaT cells, TNF‐α was able to induce IL‐6, MCP‐1 and VEGF, and the addition of IL‐33 reinforced these increases. TNF‐α + IL‐33 combination showed similar results in primary KCs and ex vivo skin organ culture. In conclusion, our study suggests that IL‐33 may be involved in psoriasis biology via MCs and KCs.     

High‐fat diet exacerbates imiquimod‐induced psoriasis‐like dermatitis in mice

Psoriasis, a chronic inflammatory skin disease, is closely related to systemic metabolism. An elevated body mass index (BMI) is a risk factor for psoriasis; inflammasomes are activated by adipose tissue macrophages in obese subjects. We hypothesized that hyperlipidaemia is involved in the pathogenesis of psoriasis and examined the role of a high‐fat diet (HFD) in the development of psoriasis in imiquimod (IMQ)‐treated mice. The body weight and serum level of cholesterol were significantly higher in mice fed an HFD than in a regular diet (RD). HFD mice had higher psoriasis skin scores, and the number of neutrophils infiltrating into the lesional skin was elevated. IL‐17A mRNA expression was significantly increased in the skin of IMQ‐treated HFD mice; the expression of IL‐22, IL‐23 and TNF‐α mRNA was not enhanced. Caspase‐1 and IL‐1β were activated in the skin of IMQ‐treated HFD mice, and their serum level of IL‐17A, TNF‐α and IL‐1β was significantly upregulated. Our findings strongly suggest that hyperlipidaemia is involved in the development and progression of psoriasis via systemic inflammation and inflammasome activation.     

IL6Rα function in myeloid cells modulates the inflammatory response during irritant contact dermatitis

Irritant contact dermatitis (ICD) is characterized by epidermal hyperplasia, infiltration of leucocytes into lesional skin and inflammatory cytokine release. The cellular infiltrate during ICD comprises primarily cells of the myeloid lineage. Our group has previously shown that the cytokine IL‐6 confers a protective effect to lesional skin during ICD. How IL‐6Rα function in myeloid cells is involved in the inflammatory response during ICD is, however, unknown. In the present study, utilizing a chemical model of ICD, it is shown that mice with a myeloid‐specific knockout of the IL‐6Rα (IL‐6Rα^Δmyeloid) display an exaggerated inflammatory response to benzalkonium chloride (BKC) and Jet propellant‐8 (JP8) fuel, two well‐characterized irritants relative to littermate control. Results from immunohistochemical and flow cytometric analyses revealed that IL‐6Rα^Δmyeloid mouse skin displayed increased epidermal hyperplasia and inflammatory monocyte influx into lesional skin but lower numbers of resident macrophages relative to littermate controls after irritant exposure. Multiplex immunoassay revealed significantly higher levels of pro‐inflammatory cytokines IL‐1α and TNF‐α, but reduced expression of chemokine proteins including CCL2‐5, CCL7, CCL11, CXCL1 and CXCL10 in IL‐6Rα^Δmyeloid mouse skin relative to littermate control following irritant exposure. These results highlight a previously unknown role of IL‐6Rα function in myeloid cells in modulating the inflammatory response and myeloid population dynamics during ICD.     

Effects of β‐carotene on oxazolone‐induced atopic dermatitis in hairless mice

Skin acts as a barrier, which protects internal tissues and promotes moisture retention. Atopic dermatitis (AD) is an inflammatory skin disease associated with a variety of genetic and environmental factors that involve helper T cells. β‐Carotene (provitamin A) exhibits antioxidant activity and activates the immune system. However, it is not clear whether inflammation in AD skin is improved by posttreatment with β‐carotene. In the current study, we investigated the effects of β‐carotene on the skin of hairless mice with oxazolone‐induced inflammation/oedema (Ox‐AD mice). We found that skin inflammation was significantly reduced by oral administration of β‐carotene. In addition, treatment with β‐carotene suppressed protein levels of TNF‐α, IL‐1β and MCP‐1, as well as mRNA expression associated with IL‐1β, IL‐6, IL‐4 and Par‐2 in skin tissues. Furthermore, the mRNA and protein levels of filaggrin, a structural protein in the epidermal stratum corneum, were elevated by β‐carotene administration as compared with Ox‐AD mice. β‐Carotene significantly reduced the activity of proMMP‐9, but not proMMP‐2. These results suggest that in Ox‐AD mice, β‐carotene improves skin inflammation by suppressing the expression of inflammatory factors, promoting filaggrin expression and reducing MMP‐9 activity. β‐Carotene is a potent anti‐inflammatory agent that improves the barrier functions of AD skin.     

CCL7 contributes to the TNF‐alpha‐dependent inflammation of lesional psoriatic skin

Chemokines are small chemotactic proteins that have a crucial role in leukocyte recruitment into tissue. Targeting these mediators has been suggested as a potential therapeutic option in inflammatory skin diseases such as psoriasis. Using quantitative RT‐PCR, we found CCL7, a chemokine ligand known to interact with multiple C‐C chemokine receptors, to be markedly increased in lesional psoriasis as opposed to atopic dermatitis, lichen planus, non‐lesional psoriatic and normal control skin. Surprisingly, this increase in CCL7 mRNA expression exceeded that of all other chemokines investigated, and keratinocytes and dermal blood endothelial cells were identified as its likely cellular sources. In an imiquimod‐induced psoriasis‐like mouse model, CCL7 had a profound impact on myeloid cell inflammation as well as on the upregulation of key pro‐psoriatic cytokines such as CCL20, IL‐12p40 and IL‐17C, while its blockade led to an increase in the antipsoriatic cytokine IL‐4. In humans receiving the TNF‐α‐blocker infliximab, CCL7 was downregulated in lesional psoriatic skin already within 16 hours after a single intravenous infusion. These data suggest that CCL7 acts as a driver of TNF‐α‐dependent Th1/Th17‐mediated inflammation in lesional psoriatic skin.     

Interleukin (IL)‐22, IL‐17, IL‐23, IL‐8, vascular endothelial growth factor and tumour necrosis factor‐α levels in patients with psoriasis before,during and after psoralen–ultraviolet A and narrowband ultraviolet B therapy

Background Several cross‐sectional studies have shown that different cytokines and growth factors are enhanced in psoriasis. Objectives We aimed to understand the role/relation of interleukin (IL)‐22, IL‐17, IL‐23, IL‐8, vascular endothelial growth factor (VEGF) and tumour necrosis factor (TNF)‐α in psoriasis vulgaris, addressing their levels and changes before, during and after psoralen–ultraviolet A (PUVA) and narrowband ultraviolet B (NB‐UVB) treatment. Methods A cross‐sectional and a longitudinal study (n = 34) – before (T0) and at 3 (T3), 6 (T6) and 12 (T12) weeks of NB‐UVB and PUVA therapy – were performed; 17 patients started NB‐UVB and 17 PUVA, and IL‐22, IL‐17, IL‐23, IL‐8, TNF‐α and VEGF levels were evaluated. Results At T0, compared with controls (n = 20), all the parameters were significantly higher in patients, except for TNF‐α. Both NB‐UVB and PUVA treatment gave, at T3, a significant decrease in TNF‐α and IL‐23; IL‐22 and IL‐17 decreased significantly at T6; all parameters and Psoriasis Area and Severity Index decreased significantly at T12. However, in both groups, at T12, VEGF was still significantly higher than control. Conclusions Psoriasis seems to be a complex disease in which the cytokine network is disturbed, namely in levels of IL‐22, IL‐17, IL‐23, IL‐8, TNF‐α and VEGF. NB‐UVB and PUVA follow‐up studies suggested that the reduction in the IL‐23/Th17 axis might be important in the pathogenic mechanisms of psoriasis. Further follow‐up studies of patients with psoriasis treated with these and other therapies could be very helpful for the understanding of the disturbance in the cytokine network in psoriasis and indirectly in its pathogenesis.     

Study of pro‐ and anti‐inflammatory cytokine profile in the patients with parthenium dermatitis

Background: Parthenium dermatitis is a common airborne allergic contact dermatitis induced by exposures to the weed Parthenium hysterophorus. The disease manifests as itchy erythematous papules, papulovesicular and plaque lesions on exposed areas of the body. Objectives: The aim of this study was to show the alterations in pro/anti‐inflammatory cytokines in parthenium dermatitis. Methods: The study included 50 patients with parthenium dermatitis confirmed by patch testing using aqueous extracts of P. hysterophorus and 50 age‐matched healthy controls. The levels of pro‐inflammatory [tumour necrosis factor‐α (TNF‐α), interleukin (IL)‐6, IL‐8, and IL‐17] and anti‐inflammatory (IL‐4 and IL‐10) cytokines were estimated by commercially available high sensitivity enzyme‐linked immunosorbent assay (ELISA) kits. Results: All the dermatitis patients showed significantly (P < 0.001) elevated levels of TNF‐α, IL‐6, IL‐8, and IL‐17 levels as compared to healthy controls. In contrast, the anti‐inflammatory cytokine IL‐4 showed an insignificant decrease (P < 0.217) and a decrease in level of IL‐10 was statistically significant (0.001) compared with controls. Conclusions: The present study suggests the involvement of pro‐inflammatory cytokines in the pathogenesis of parthenium dermatitis. A decrease in levels of anti‐inflammatory cytokines was demonstrated, which could not downregulate pro‐inflammatory cytokines in parthenium dermatitis.     

Increased expression of IL‐33 in rosacea skin and UVB‐irradiated and LL‐37‐treated HaCaT cells

Rosacea is one of the most common dermatoses of adults. Although the detailed pathophysiology remains unknown, it is thought that rosacea is caused by a consistently aberrant, innate immune response, and that LL‐37 plays an important role. However, involvement of the inflammatory cytokine IL‐33 has not yet been studied. We explored the role played by IL‐33 in the pathophysiology of rosacea. First, we immunohistochemically evaluated the expression of IL‐33 and its receptor (ST2) in rosacea skin. Second, we exposed HaCaT cells to ultraviolet B (UVB) irradiation in the presence or absence of LL‐37 and measured the expression of proinflammatory cytokines including IL‐33. We also analysed VEGF (vascular endothelial growth factor) mRNA expression and protein release after costimulation of HaCaT cells by LL‐37 and IL‐33. Immunohistochemically, IL‐33 expression was enhanced in the skin of rosacea patients, especially with erythematotelangiectatic subtype. In vitro, UVB and LL‐37 synergistically increased mRNAs expression of proinflammatory cytokines, especially IL‐33 and IL‐1β. IL‐33 protein release was also synergistically increased by LL‐37 and UVB treatment. LL‐37 and IL‐33 stimulated VEGF mRNA expression and VEGF release from HaCaT cells. Our findings suggest that rosacea skin with abundant LL‐37 may robustly produce and release IL‐33 when exposed to UV radiation. IL‐33 may participate in the angiogenesis and vasodilation of rosacea skin by enhancing VEGF release.     

IL‐1 signalling determines the fate of skin grafts expressing non‐self protein in keratinocytes

Please cite this paper as: IL‐1 signalling determines the fate of skin grafts expressing non‐self protein in keratinocytes. Experimental Dermatology 2010; 19 : 723–729. Abstract: Although IL‐1 is a known inflammatory cytokine during pathogen infection, the role of IL‐1 in skin graft rejection, particularly where foreign antigen is expressed exclusively in keratinocytes, is less understood. Here, we use a syngeneic skin graft system, where antigens are expressed in epithelial cells via either a keratin 14 or keratin 5 promoter, to explore the role of IL‐1 in graft rejection and induction of epithelial antigen‐specific effector CD8⁺ T‐cell function. Keratin 5 ovalbumin (K5mOVA) transgenic skin grafts destined for rejection demonstrated increased expression of IL‐1β and its receptors compared to K14 HPV16 E7 transgenic grafts that do not reject spontaneously. Rejection of OVA grafts lacking the IL‐1 receptor (IL‐1R1) was delayed and associated with decreased numbers of antigen‐specific CD8 T cells. In contrast, K14E7 grafts survived on immunocompetent, syngeneic recipients with decreased graft levels of IL‐1β and IL‐1R1 and 2. However, in the absence of the IL‐1 receptor antagonist, IL‐1Ra, skin grafts were spontaneously rejected and an E7‐specific CD8 T‐cell response was primed. Thus, expression of the HPV16E7 oncoprotein in epithelial cells prevents IL‐1β‐associated skin graft rejection and induction of antigen‐specific CD8 T‐cell responses. Enhancing IL‐1β signalling, via blocking of the IL‐1 receptor antagonist, may represent an alternative strategy for treatment of HPV16E7‐associated cancers.     

The crucial role of IL‐22 and its receptor in thymus and activation regulated chemokine production and T‐cell migration by house dust mite extract

House dust mite (HDM) is known as one of the factors that causes atopic dermatitis (AD). Interleukin (IL)‐22 and thymus and activation regulated chemokine (TARC) are related to skin inflammatory disease and highly expressed in AD lesions. However, the effects of HDM on IL‐22 production in T cells and on TARC production and IL‐22Rα receptor expression in keratinocytes are unknown. To identify the role of HDM in keratinocytes and T cells, we investigated IL‐22Rα expression and TARC production in the human keratinocyte cell line HaCaT and IL‐22 production in T cells treated with HDM extract as well as their roles in HDM‐induced skin inflammation. HDM extract not only increased IL‐22Rα expression and TARC production in HaCaT but also enhanced IL‐22, tumor necrosis factor (TNF)‐α and interferon (IFN)‐γ production in T cells. The HDM extract‐induced IL‐22 from T cells significantly increased the production of IL‐1α, IL‐6 and TARC in HaCaT cells. In addition, we found that TARC produced in HDM extract‐treated HaCaT induced T‐cell recruitment. These results suggest that there is a direct involvement of HDM extract‐induced IL‐22 in TARC production and T‐cell migration. Taken together, TARC production in HaCaT through the interaction between IL‐22 and IL‐22Rα facilitates T‐cell migration. These data show one of the reasons for inflammation in the skin lesions of AD patients.     

TNF‐α and IL‐10 gene polymorphisms show a weak association with pemphigus vulgaris in the Slovak population

Backround Pemphigus vulgaris is a rare chronic autoimmune disease of skin and mucous membranes, with several cytokines participating in its development. The role of their gene polymorphisms in susceptibility to the disease is, however, not fully understood. Objective The aim of our case‐control study was to investigate whether some of 22 single nucleotide polymorphisms (SNPs) in 13 cytokine genes (IL‐1α, IL‐1β, IL‐1RI, IL‐1Ra, IL‐4Rα, IL‐12, IFN‐γ, TGF‐β1, TNF‐α, IL‐2, IL‐4, IL‐6 and IL‐10) are associated with pemphigus vulgaris in the Slovak population. Methods DNA samples were obtained from 34 pemphigus vulgaris patients and 140 healthy controls of Slovak origin. Cytokine gene SNPs were determined using the polymerase chain reaction with sequence‐specific primers (PCR‐SSP) method. Results We found a weak association between pemphigus vulgaris and polymorphic variants in TNF‐α and IL‐10 genes only, with haplotypes TNF‐α–308G/–238G and IL‐10 –1082A/–819C/–592C being significantly overrepresented in pemphigus vulgaris patients (TNF‐α GG: 94.12% vs. 82.86%, P = 0.0216; IL‐10 ACC: 44.12% vs. 30.00%, P = 0.0309). Conclusions Our preliminary results suggest that certain TNF‐α and IL‐10 gene polymorphisms might contribute to genetic susceptibility to pemphigus vulgaris; however, their overall impact on disease development will be rather limited.