Johanna Mihály

Decreased retinoid concentration and retinoid signalling pathways in human atopic dermatitis.

Abstract:  Atopic dermatitis (AD) is one of the most common skin diseases. Various features present in AD like inflammation, reduced apoptosis, altered epidermal differentiation and hyperproliferation as well as permeability dysfunction are also regulated by retinoids. The aim of our study is to identify the retinoid signalling pathways and retinoid concentration profiles in AD skin. Human skin biopsies were obtained from healthy volunteers (HS) (n = 6) and patients with AD (n = 6), with both affected (AS) and non‐affected (NAS) skin. The gene expression of retinoid receptors, retinoid‐binding proteins and retinoid‐metabolizing enzymes was investigated by QRT‐PCR. Retinoid concentrations in serum and skin were measured via high performance liquid chromatography mass spectrometry–mass spectrometry. Our results show that the target gene expression of retinoid receptor regulated pathways is significantly decreased in AS and NAS of patients with AD. CYP26A1, transglutaminase 2 and retinoic acid receptor responder 1 decreased in NAS and AS in comparison with HS. The main retinoic acid synthesizing enzyme, retinal dehydrogenase 1, was significantly lower expressed in NAS (0.1%) and AS (1%) in patients with AD. Analysis of retinoid concentration in serum and skin showed comparable all‐trans retinoic acid (ATRA) and retinol (ROL) concentrations from AD and healthy serum, but strongly reduced ATRA and ROL concentrations in affected and non‐affected skin in comparison with healthy skin. Our data indicate that retinoid transport, synthesis, concentrations and signalling are strongly decreased in the affected but also in non‐affected skin of patients with AD suggesting a general intrinsic influence on skin retinoid signalling pathway in patients with AD.

Regulation of Retinoid-Mediated Signaling Involved in Skin Homeostasis by RAR and RXR Agonists/Antagonists in Mouse Skin

Endogenous retinoids like all-trans retinoic acid (ATRA) play important roles in skin homeostasis and skin-based immune responses. Moreover, retinoid signaling was found to be dysregulated in various skin diseases. The present study used topical application of selective agonists and antagonists for retinoic acid receptors (RARs) α and γ and retinoid-X receptors (RXRs) for two weeks on mouse skin in order to determine the role of retinoid receptor subtypes in the gene regulation in skin. We observed pronounced epidermal hyperproliferation upon application of ATRA and synthetic agonists for RARγ and RXR. ATRA and the RARγ agonist further increased retinoid target gene expression (Rbp1, Crabp2, Krt4, Cyp26a1, Cyp26b1) and the chemokines Ccl17 and Ccl22. In contrast, a RARα agonist strongly decreased the expression of ATRA-synthesis enzymes, of retinoid target genes, markers of skin homeostasis, and various cytokines in the skin, thereby markedly resembling the expression profile induced by RXR and RAR antagonists. Our results indicate that RARα and RARγ subtypes possess different roles in the skin and may be of relevance for the auto-regulation of endogenous retinoid signaling in skin. We suggest that dysregulated retinoid signaling in the skin mediated by RXR, RARα and/or RARγ may promote skin-based inflammation and dysregulation of skin barrier properties.

Fatty acid composition of serum lipid classes in mice following allergic sensitisation with or without dietary docosahexaenoic acid-enriched fish oil substitution

Dietary fatty acids have been shown to influence allergic sensitisation. Both n-3 and n-6 PUFA are involved in targeted mediation of inflammatory responses during allergic sensitisation and manifestation of atopic diseases. In the present experiments we investigated whether supplementation of DHA-enriched fish oil partly substituting dietary sunflower-seed oil, in comparison with sunflower-seed oil, supplemented to mice influences fatty acid composition of serum lipid classes. The effects of the two different diets were also investigated depending on allergic sensitisation. Supplementation of DHA and EPA in doses of 2 and 0.12 % (w/w) to non-sensitised and sensitised mice resulted in significantly increased percentile contributions of DHA to all lipid classes. In contrast, serum values of the n-6 PUFA arachidonic acid (AA) were significantly lower, both in non-sensitised and sensitised mice fed the DHA-enriched diet. The fatty acid composition of serum lipids also reflected allergic sensitisation: the EPA:AA ratio in TAG, cholesteryl esters and phospholipids in non-supplemented animals fell to 23, 29 and 29 % respectively of the original value after allergic sensitisation, whereas it decreased to 70, 80 and 76 % respectively only in the animals supplemented with DHA. In summary, allergic sensitisation alone decreased significantly the EPA:AA ratios in serum TAG, while concomitant supplementation of DHA-enriched fish oil ameliorated this decrease. We postulate from the present results that the amelioration of the severity of allergic sensitisation after DHA supplementation may be linked to altered ratios of the eicosanoid precursors EPA and AA as well as DHA needed for further metabolic activation to pro- or anti-inflammatory bioactive lipids.

Reduced lipoxygenase and cyclooxygenase mediated signaling in PBMC of atopic dermatitis patients

Lipoxygenases (LOX) and cyclooxygenases (COX) are the main enzymes for poly-unsaturated fatty acid (PUFA) metabolism to highly bioactive prostaglandins, leukotrienes, thromboxanes and protectins. LOX and COX pathways are highly important for the regulation of pro- and anti-inflammatory active metabolite synthesis and metabolism in various inflammatory diseases like atopic diseases (AD). In this study using QRT-PCR, we found that in PBMCs the expression of 5-LOX, 12-LOX, 15-LOX and COX pathways and further enzymatic pathways like various leukotriene-hydoxylases, leukotriene-, prostaglandin-, and thromboxane-synthases as well as various of their membrane based receptors are mainly significantly down-regulated in AD-patients vs. healthy volunteers. In addition, using HPLC MS-MS we determined up to 19 different metabolites originating from eicosapentaenoic acid (EPA), docosapentaenoic acid (DHA) and arachidonic acid (AA) ranging from hydroxylated-PUFA derivatives and further bioactive derivatives like thromboxanes, leukotrienes, prostaglandins and protectins originating from LOX and COX metabolism. In PBMCs from AD-patients LOX and COX pathways were down-regulated. We conclude from this study, that in PBMCs from AD-patients in comparison to healthy volunteers, a systemic down-regulation of LOX- and COX-responses occurs to generally reduce eicosanoid/docosanoid synthesis during the current allergic inflammatory status.

Lycopene supplementation restores vitamin A deficiency in mice and possesses thereby partial pro-vitamin A activity transmitted via RAR signaling.

SCOPE The aim of this study was to compare if lycopene also possesses pro-vitamin A (VA) activity comparable to known VA derivatives. MATERIALS AND METHODS We used a transgenic retinoic acid response element reporter mouse model (n = 8, per group) for this study, and after the initial wash out of VA using a vitamin A deficient diet (VAD) for 18 weeks, the animals were supplemented further with (a) VAD-fed mice, (b) VAD-fed mice plus retinol (20 mg/kg bw), (c) VAD-fed mice plus β-carotene (40 mg/kg bw), and (d) VAD-fed mice plus lycopene (40 mg/kg bw). Using ex vivo scanning and gene expression analysis of retinoid target and VA marker gene analysis in various organs of these supplemented mice (b, c, d), we found increased luciferase activity and normalized marker and target gene analysis compared to group a. CONCLUSIONS Lycopene can restore VA deficiency and compensate VA for retinoic acid receptor (RAR)-mediated signaling as the major function of VA in the mammalian organism. Lycopene administration can initiate upregulation of RAR-mediated signaling in various organs in VAD-fed animals via potential novel bioactive lycopene metabolites. This indicates that lycopene possesses partial pro-VA activity in mice transmitted via RAR-mediated signaling.

TSLP expression in the skin is mediated via RARγ-RXR pathways

TSLP is an important trigger and initiator for various atopic diseases mainly atopic dermatitis (AD). Activators of nuclear hormone receptors like bioactive vitamin A and D derivatives are known to induce TSLP up-regulation in the skin. In this study, various combinations of synthetic specific agonists and antagonists of the retinoic acid receptors (RARs), retinoid X receptors (RXRs) and vitamin D receptor (VDR) were topically administered to mice. The aim of the study was to elucidate via which nuclear hormone receptor pathways TSLP is regulated and how this regulation is connected to the development and phenotype of atopic dermatitis. TSLP expression was monitored using QRT-PCR and serum TSLP levels using ELISA. Synthetic agonists of the VDR and RARγ as well as the natural agonist all-trans retinoic acid (ATRA) increased TSLP expression in the skin, while an RXR agonist was not active. Treatments with antagonists of RXRs and RARs in addition to RARα-agonists reduced skin TSLP expression. Strong activation was found after a combination of a VDR and an RXR agonist (ca. 5 times induction) and even stronger by an RARγ and an RXR agonist treatment (ca. 48 times induction). We conclude that besides VDR-mediated signaling mainly RARγ-RXR mediated pathways in the skin are important patho-physiological triggers for increased skin TSLP expression. We conclude that topical synthesized retinoids stimulated by internal or external triggers or topically applied induce TSLP production and are thereby important triggers for atopic dermatitis prevalence.

Reduced Retinoid Signaling in the Skin after Systemic Retinoid-X Receptor Ligand Treatment in Mice with Potential Relevance for Skin Disorders

Retinoid-X receptor (RXR)- and retinoic acid receptor (RAR)-mediated signaling is induced by retinoic acids (RA), which are involved in the regulation of skin permeability, differentiation and immune response. Dysregulation of retinoid signaling is present in various skin disorders. Topically and systemically administered synthetic RAR or RXR agonists might influence retinoid-mediated signaling in the skin of RARE reporter animals and gene expression analysis for retinoid, skin homeostasis and skin inflammation marker genes and local retinoid concentrations. Mice were treated orally and topically with synthetic ligands and bioimaging, QRT-PCR and retinoid analysis were performed. Topical application of the synthetic RAR ligand AM580 significantly enhanced retinoid signaling in skin while topical application of the RXR ligand LG268 did not influence retinoic acid receptor re-sponse elements (RARE)-mediated signaling. Systemic treatments with LG268 decreased the expression of genes involved in skin homeostasis, RA synthesis and skin RA concentrations, while it increased various markers for skin inflammation and RA degradation, which corresponds to decreased skin RARE signaling. We conclude from these observations that increased systemic concentrations of an RXR -ligand may be one reason for reduced retinoid signaling, -reduced all-trans RA levels in the skin, reduced epidermal homeostasis and increased skin inflammation marker expression with potential relevance for various skin disorders, like atopic dermatitis.

Serum retinoic acid and atopy among children of different ethnic origin living in Germany.

ABSTRACT We hypothesized that higher provitamin A carotenoid serum levels may be associated with higher concentrations of all-trans retinoic acid (ATRA) and atopy. Concentration of ATRA was measured by high-performance liquid chromatography in sera from German domestic and Turkish migrants’ children. ATRA serum levels were significantly higher in German children if compared with Turkish children and correlated with those of &bgr;-carotene (rs = 0.692) and other provitamin A carotenoids. They did not differ significantly between atopic and nonatopic individuals. Serum levels of ATRA are related to those of provitamin A carotenoids but are not directly related to atopy in the present study.

Activation of TRPV3 Regulates Inflammatory Actions of Human Epidermal Keratinocytes

Transient receptor potential (TRP) ion channels were first characterized on neurons, where they are classically implicated in sensory functions; however, research in recent decades has shown that many of these channels are also expressed on nonneuronal cell types. Emerging findings have highlighted the role of TRP channels in the skin, where they have been shown to be important in numerous cutaneous functions. Of particular interest is TRPV3, which was first described on keratinocytes. Its functional importance was supported when its gain-of-function mutation was linked to Olmsted syndrome, which is characterized by palmoplantar keratoderma, periorifacial hyperkeratosis, diffuse hypotrichosis and alopecia, and itch. Despite these exciting results, we have no information about the role and functionality of TRPV3 on keratinocytes at the cellular level. In this study, we identified TRPV3 expression both on human skin and cultured epidermal keratinocytes. TRPV3 stimulation was found to function as a Ca2+-permeable ion channel that suppresses proliferation of epidermal keratinocytes and induces cell death. Stimulation of the channel also triggers a strong proinflammatory response via the NF-κB pathway. Collectively, our data show that TRPV3 is functionally expressed on human epidermal keratinocytes and that it plays a role in cutaneous inflammatory processes.

Allergen-Induced Dermatitis Causes Alterations in Cutaneous Retinoid-Mediated Signaling in Mice

Nuclear receptor-mediated signaling via RARs and PPARδ is involved in the regulation of skin homeostasis. Moreover, activation of both RAR and PPARδ was shown to alter skin inflammation. Endogenous all-trans retinoic acid (ATRA) can activate both receptors depending on specific transport proteins: Fabp5 initiates PPARδ signaling whereas Crabp2 promotes RAR signaling. Repetitive topical applications of ovalbumin (OVA) in combination with intraperitoneal injections of OVA or only intraperitoneal OVA applications were used to induce allergic dermatitis. In our mouse model, expression of IL-4, and Hbegf increased whereas expression of involucrin, Abca12 and Spink5 decreased in inflamed skin, demonstrating altered immune response and epidermal barrier homeostasis. Comprehensive gene expression analysis showed alterations of the cutaneous retinoid metabolism and retinoid-mediated signaling in allergic skin immune response. Notably, ATRA synthesis was increased as indicated by the elevated expression of retinaldehyde dehydrogenases and increased levels of ATRA. Consequently, the expression pattern of genes downstream to RAR was altered. Furthermore, the increased ratio of Fabp5 vs. Crabp2 may indicate an up-regulation of the PPARδ pathway in allergen-induced dermatitis in addition to the altered RAR signaling. Thus, our findings suggest that ATRA levels, RAR-mediated signaling and signaling involved in PPARδ pathways are mainly increased in allergen-induced dermatitis and may contribute to the development and/or maintenance of allergic skin diseases.