E6 and E7 of human papillomavirus type 18 and UVB irradiation corporately regulate interleukin‐6 and interleukin‐8 expressions in basal cell carcinoma

The lack of a human papillomavirus (HPV)‐infected skin cancer cell line has hampered the investigation of the interaction of UV and HPV in skin carcinogenesis. We identified a human basal cell carcinoma (BCC‐1/KMC) cell line integrated with E6 and E7 genes of high‐risk HPV type 18 and demonstrated that repression of E6 and E7 results in proliferation inhibition. Sublethal ultraviolet‐B (UVB) irradiation induced the expressions of interleukin‐6 (IL‐6) and interleukin‐8 (IL‐8), as well as viral E6 and E7 genes, in BCC‐1/KMC cells. When E6 and E7 expressions were inhibited, IL‐6/IL‐8 expressions were repressed. Furthermore, IL‐6/IL‐8 remained inducible by UVB irradiation when E6 and E7 were inhibited. These results indicated that IL‐6 and IL‐8 can be upregulated by viral E6 and E7 proteins without UVB irradiation. Moreover, chronic exposure to UVB upregulates IL‐6 and IL‐8 when E6/E7 is induced by UVB.     

Baicalein inhibits matrix metalloproteinase 1 expression via activation of TRPV1‐Ca‐ERK pathway in ultraviolet B–irradiated human dermal fibroblasts

Increased matrix metalloproteinase 1 (MMP‐1) expression is a feature of photo‐aged skin. We investigated the effects of baicalein and sulphoraphane on ultraviolet B (UVB) irradiation–induced MMP‐1 expression and apoptosis using human dermal fibroblasts. UVB irradiation not only increased MMP‐1 expression, but also caused apoptosis. Both baicalein and sulphoraphane protected cells from UVB irradiation–induced apoptosis, but only baicalein inhibited MMP‐1 expression. UVB irradiation activated 12‐lipoxygenase, and its product, 12‐hydroxyeicosatetraenoic acid, activated TRPV1 channels. The resulting UVB irradiation–induced Ca²⁺ increase was blocked by the 12‐lipoxygenase inhibitor baicalein and the TRPV1 blocker capsazepine, but not by the Nrf2 inducer sulphoraphane. UVB irradiation also increased ROS generation and decreased Nrf2 protein levels. UVB irradiation–induced MMP‐1 expression was blocked by the Ca²⁺ chelator BAPTA, by capsazepine and by TRPV1 silencing. However, induction was unaffected by the antioxidant N‐acetylcysteine. ERK phosphorylation and JNK phosphorylation were induced by UVB irradiation, but only ERK phosphorylation was Ca²⁺ sensitive. Increased MMP‐1 expression was blocked by PD98059, but not by SP600125. Thus, increased MMP‐1 expression is mediated by increased cytosolic Ca²⁺ and ERK phosphorylation. UVB irradiation–induced ROS generation is also Ca²⁺ sensitive, and UVB irradiation–induced apoptosis is caused by increased ROS. Thus, baicalein, by blocking the UVB irradiation–induced cytosolic Ca²⁺ increase, protects cells from UVB irradiation–induced MMP‐1 expression and apoptosis. In contrast, sulphoraphane, by decreasing cellular ROS, protects cells from only UVB‐induced apoptosis. Thus, targeting 12‐lipoxygenase may provide a therapeutic approach to improving the health of photo‐aged human skin.     

Z‐ligustilide ameliorated ultraviolet B‐induced oxidative stress and inflammatory cytokine production in human keratinocytes through upregulation of Nrf2/HO‐1 and suppression of NF‐κB pathway

Ultraviolet B (UVB), a harmful environmental factor, is responsible for a variety of skin disorders including skin inflammation through reactive oxygen species (ROS) and inflammatory mediator production. Here, we investigated the effect of Z‐ligustilide (Z‐lig), an active ingredient isolated from the medicinal plants Cnidium officinale and Angelica acutiloba, on UVB‐induced ROS generation and inflammatory mediator production in normal human epidermal keratinocytes (NHEKs) as well as its underlying mechanisms. Z‐lig significantly rescued UVB‐induced NHEKs damage in a dosage‐dependent manner. Pretreatment of NHEKs with Z‐lig inhibited UVB‐induced ROS production in NHEKs. Both silencing the nuclear factor E2‐related factor 2 (Nrf2) and the supplement of tin protoporphyrin IX (SnPP), a haeme oxygenase‐1 (HO‐1) inhibitor, cancelled the inhibitory effect of Z‐lig on UVB‐induced ROS upregulation in NHEKs. Moreover, pretreatment of NHEKs with Z‐lig reduced UVB‐induced nuclear factor kappa B (NF‐κB)‐dependent inflammatory mediators (IL‐6, IL‐8 and MCP‐1) production at both mRNA and protein level. In the presence of Z‐lig, UVB‐induced NF‐κB subunit p65 nuclear translocation was abolished, and the IκBα degradation was suppressed. Taken together, these findings suggest that Z‐lig can suppress UVB‐induced ROS generation through Nrf2/HO‐1 upregulation and inflammation by suppressing the NF‐κB pathway, suggesting that Z‐lig may be beneficial in protecting skin from UVB exposure.     

Intercellular pathway through hyaluronic acid in UVB‐induced inflammation

Ultraviolet B (UVB) radiation induces inflammation in the skin specifically at the site of exposure. We unexpectedly found that UVB‐induced inflammation was not induced in gp91phox‐depleted mice. To test whether gp91phox is directly involved in UVB‐induced inflammation, neutrophil‐ and hyaluronic acid–depleted mice were also irradiated and examined for their response. Hyaluronic acid–depleted mice showed strongly inhibited UVB‐induced inflammation, but the neutrophil‐depleted mice did not exhibit any suppressed UVB‐induced inflammation. To elucidate the pathway by which UVB irradiation induced inflammation, we examined the expression of nucleotide‐binding domain, leucine‐rich‐containing family, pyrin domain‐containing‐3 (NLRP3) and caspase‐1 in the mouse skin. An increase in the expression of NLRP3 and caspase‐1 was seen following the UVB irradiation of C57BL mice; however, the UVB‐irradiated gp91phox‐knockout (gp91phox^?/?) mice did not have this increase in expression. Furthermore, the plasma IL‐1β level increased after the UVB irradiation in C57BL mice, but there was no change in the gp91phox^?/? mice. These results clearly indicate that nicotinamide adenine dinucleotide phosphate oxidase is activated by gp91phox, which is expressed on the surface in response to the increased expression of hyaluronic acid induced by UVB irradiation, and as result, the generation of reactive oxygen species (ROS) increases. This ROS activate NLRP3, and NLRP3 leads to the production of caspase‐1, which subsequently increases IL‐1β, thereby finally inducing inflammation. It is thought that this system may play an important role in the damage and ageing of skin, and further studies are necessary to confirm these finding.     

Toll‐like receptor 2 mediates a cutaneous reaction induced by repetitive ultraviolet B irradiation in C57/BL6 mice in vivo

Toll‐like receptors (TLRs) mediate not only innate immunity against infection and but also sterile inflammation triggered by endogenous molecules. We conducted a comparative study of the different inflammatory responses induced by repetitive ultraviolet (UV) B irradiation in wild‐type (WT) and TLR2 knockout (KO) mice, to provide in vivo evidence of the role of TLRs in mediating UVB‐induced responses. UVB‐induced inflammatory responses were less severe in TLR2 KO mice than in WT mice after 6 weeks of repeated UVB irradiation. UVB‐treated TLR2 KO mice displayed less prominent erythema and scaling, and histopathology showed significantly thinner skin and less inflammatory cell infiltration than that in WT mice. UVB‐induced expression of heat‐shock protein 70 (an endogenous ligand of TLR2) was lower in TLR2 KO mice. Quantitative RT‐PCR revealed significantly lower gene expression levels of UVB‐induced interleukin (IL)‐1β, IL‐6 and matrix metalloproteinase (MMP)‐13 in TLR2 KO mice. TLR2 KO mice also showed significantly lower protein level expression of UVB‐induced IL‐1β in ELISA and MMP‐13 in Western blots. Our study demonstrated that TLR2 was associated with inflammatory responses to repetitive UVB irradiation in C57/BL6 mice. Moreover, it suggests that the role of TLR2 in the cutaneous response of UV irradiation and in developing new agents for modulating the effects of UV irradiation should be considered.     

Glycyrrhizic acid prevents ultraviolet‐B‐induced photodamage: a role for mitogen‐activated protein kinases,nuclear factor kappa B and mitochondrial apoptotic pathway

Glycyrrhizic acid (GA), a natural triterpene, has received attention as an agent that has protective effects against chronic diseases including ultraviolet UV‐B‐induced skin photodamage. However, the mechanism of its protective effect remains elusive. Here, we used an immortalized human keratinocyte cell line (HaCaT) and a small animal model (BALB/c mice), to investigate the protective effects of GA against UV‐B‐induced oxidative damage, and additionally, delineated the molecular mechanisms involved in the UV‐B‐mediated inflammatory and apoptotic response. In the HaCaT cells, GA inhibited the UV‐B‐mediated increase in intracellular reactive oxygen species (ROS) and down‐regulated the release of pro‐inflammatory cytokines interleukin (IL)‐1α, ‐1β and ‐6, tumor necrosis factor (TNF)‐α and prostaglandin E2 (PGE2). GA inhibited UV‐B‐mediated activation of p38 and JNK MAP kinases, COX‐2 expression and nuclear translocation of NF‐κB. Furthermore, GA inhibited UV‐B‐mediated apoptosis by attenuating translocation of Bax from the cytosol to mitochondria, thus preserving mitochondrial integrity. GA‐treated HaCaT cells also exhibited elevated antiapoptotic Bcl‐2 protein, concomitant with reduced caspase‐3 cleavage and decreased PARP‐1 protein. In BALB/c mice, topical application of GA on dorsal skin exposed to UV‐B irradiation protected against epidermal hyperplasia, lymphocyte infiltration and expression of several inflammatory proteins, p38, JNK, COX‐2, NF‐κB and ICAM‐1. Based on the above findings, we conclude that GA protects against UV‐B‐mediated photodamage by inhibiting the signalling cascades triggered by oxidative stress, including MAPK/NF‐κB activation, as well as apoptosis. Thus, GA has strong potential to be used as a therapeutic/cosmeceutical agent against photodamage.     

Additive effect of heat on the UVB-induced tyrosinase activation and melanogenesis via ERK/p38/MITF pathway in human epidermal melanocytes

Heat is known as an environmental factor that causes significant skin pigmentation, but its effects on melanogenesis have been poorly studied. It has been shown that mitogen-activated protein kinase (MAPK) is involved in ultraviolet B (UVB) and stress-induced melanogenesis in melanocytes. In this study, we investigated the effects of heat and UVB, on melanocyte melanogenesis, differentiation, and MAPK phosphorylation. The results showed that heat (1 h at 40 °C for 5 days) increased cell dendrites, enlarged cell bodies, and induced extracellular signal-regulated kinases (ERK)/p38/MITF activation but did not influence melanogenesis of human epidermal melanocytes from skin phototype III. UVB irradiation (20 mJ/cm² for 5 days) induced melanogenesis and c-jun N-terminal kinases (JNK)/p38/MITF/tyrosinase activation in melanocytes from skin phototype III. UVB combined with heat resulted in much more significant tyrosinase activation and melanogenesis as compared with UVB alone in melanocytes from skin phototype III. Furthermore, heat treatment and UVB irradiation induced JNK, ERK, and p38 activation but not melanogenic and morphological changes in melanocytes from skin phototype I. These findings suggested that heat promoted melanocyte differentiation, probably via heat-induced ERK/p38/MITF/activation. Furthermore, heat had an additive effect on the UVB-induced tyrosinase activation and melanogenesis. These results provide a new clue for dermatologists for the treatment of hypopigmented skin disease with heat combined with UVB irradiation.     

NADPH oxidase is a novel target of delphinidin for the inhibition of UVB‐induced MMP‐1 expression in human dermal fibroblasts

We investigated the reported antiphotoaging effects of the major anthocyanidin delphidin and sought to identify its specific molecular target during UVB‐induced MMP‐1 expression. Delphinidin treatment significantly inhibited UVB‐induced MMP‐1 expression in primary cultured human dermal fibroblasts (HDF), an effect associated with the suppression of MKK4‐JNK1/2, MKK3/6‐p38 and MEK‐ERK1/2 phosphorylation. Further investigation revealed that delphinidin significantly inhibited UVB‐induced ROS production and NOX activity. Interestingly, the inhibitory effect of delphinidin on UVB‐induced NOX activity was stronger than that of apocynin, a pharmaceutical NOX inhibitor. Fractioned cell analysis results using a Western blot assay showed that this effect occurred through the inhibition of UVB‐induced P47^phox (a NOX subunit) translocation from the cytosol to the membrane. Pull down assays demonstrated that delphinidin binds directly to P47^phox in vitro. Collectively, our results suggest that delphinidin targets NOX, resulting in the suppression of UVB‐induced MMP‐1 expression in human dermal fibroblasts.     

Dihydroavenanthramide D prevents UV‐irradiated generation of reactive oxygen species and expression of matrix metalloproteinase‐1 and ‐3 in human dermal fibroblasts

Ultraviolet B (UVB) radiation induces photoageing by upregulating the expression of matrix metalloproteinases (MMPs) in human skin cells. Dihydroavenanthramide D (DHAvD) is a synthetic analog to naturally occurring avenanthramide, which is the active component in oats. Although anti‐inflammatory, anti‐atherosclerotic and antioxidant effects have been reported, the antiphotoageing effects of DHAvD are yet to be understood. In this study, we investigated the inhibitory effects of DHAvD on UVB‐induced production of reactive oxygen species (ROS) and expression of MMPs, and its molecular mechanism in UVB‐irradiated human dermal fibroblasts. Western blot and real‐time PCR analyses revealed that DHAvD inhibited UVB‐induced MMP‐1 and MMP‐3 expression. It also significantly blocked UVB‐induced ROS generation in fibroblasts. Additionally, DHAvD attenuated UVB‐induced phosphorylation of MAPKs, activation of NF‐κB and AP‐1. DHAvD regulates UVB‐irradiated MMP expression by inhibiting ROS‐mediated MAPK/NF‐κB and AP‐1 activation. DHAvD may be a useful candidate for preventing UV light‐induced skin photoageing.     

Role of p38 MAPK in UVB-induced inflammatory responses in the skin of SKH-1 hairless mice

The p38 mitogen-activated protein kinase (MAPK) signaling pathway is activated by numerous inflammatory mediators and environmental stresses. We assessed the effects of ultraviolet B (UVB) on the p38 MAPK pathway and determined whether cyclooxygenase (COX)-2 expression is downstream of this kinase in the skin of UVB-irradiated SKH-1 mice. SKH-1 mice were irradiated with a single dose of UVB (360 mJ per cm2), and activation of the epidermal p38 MAPK pathway was assessed. UVB-induced phosphorylation of p38 MAPK occurred in a time-dependent manner. Phosphorylation of MAPK-activated protein kinase-2 (MAPKAPK-2) also was detected and correlated with an increase in its kinase activity. Phosphorylation of heat shock protein 27 (HSP27), a substrate for MAPKAPK-2, also was detected post-irradiation. Oral administration of the p38 inhibitor, SB242235, prior to UVB irradiation, blocked activation of the p38 MAPK cascade, and abolished MAPKAPK-2 kinase activity and phosphorylation of HSP27. Moreover, SB242235 inhibited expression of the pro-inflammatory cytokines interleukin (IL)-6 and KC (murine IL-8) and COX-2. Our data demonstrate that UVB irradiation of murine skin activates epidermal p38 MAPK signaling and induces a local pro-inflammatory response. Blockade of the p38 MAPK pathway may offer an effective approach to reducing or preventing skin damage resulting from acute solar radiation.     

Galectin‐7, induced by cis‐urocanic acid and ultraviolet B irradiation,down‐modulates cytokine production by T lymphocytes

Urocanic acid (UCA) is an epidermal chromophore that undergoes trans to cis isomerization after UVB irradiation. cis‐UCA is a potent inhibitor of cutaneous acquired immunity. The aim of this study was to explore the genes, which are upregulated by cis‐UCA in normal human epidermal keratinocytes (NHEK) and investigated its role in vitro using human T‐lymphocyte cell line, Jurkat cells. DNA microarray analysis and real‐time PCR investigation revealed that cis‐UCA, not trans‐UCA, increased the expression of a gene encoding a β‐galactoside‐binding lectin, galectin‐7, LGALS7B. Immunohistochemical study demonstrated that galectin‐7 was highly expressed in the epidermis in the patients with actinic keratosis. Galectin‐7 administration upregulated apoptosis and inhibited the expression of interleukin‐2 (IL2) and interferon‐γ (IFNG) mRNA in Jurkat cells. Taken together, galectin‐7 may play important roles in downregulating the functions of T lymphocytes after UVB irradiation and can be developed into novel immunosuppressive therapies for inflammatory skin diseases.     

Astaxanthin,a xanthophyll carotenoid,inhibits ultraviolet‐induced apoptosis in keratinocytes

Intra‐cellular reactive nitrogen/oxygen species and apoptosis play important roles in ultraviolet (UV)‐induced inflammatory responses in the skin. Astaxanthin (AST), a xanthophyll carotenoid, exhibits diverse clinical benefits. The protective effects of AST against UV‐induced apoptosis were investigated in the present study. Astaxanthin (5 μm ) caused a significant decrease in the protein content and the mRNA levels of inducible nitric oxide (iNOS) and cyclooxygenase (COX)‐2, and decreased the release of prostaglandin E2 from HaCaT keratinocytes after UVB (20 mJ/cm²) or UVC (5 mJ/cm²) irradiation. No significant protective effects against UV‐induced reactive oxygen species (ROS) were observed in AST‐pretreated cells. Astaxanthin caused a significant inhibition of UV‐irradiation‐induced apoptosis, as evidence by a DNA fragmentation assay. Furthermore, we found that the treatment with AST caused a reduction in the UVB‐ or UVC‐induced protein and mRNA expression of macrophage migration inhibitory factor (MIF), IL‐1β and TNF‐α in HaCaT keratinocytes. These results suggest that AST effectively protects against UV‐induced inflammation by decreasing iNOS and COX‐2, and thereby inhibiting the apoptosis of keratinocytes.     

Skin organ culture as a model to study oxidative stress, inflammation and structural alterations associated with UVB-induced photodamage

Background: Ultraviolet (UV) irradiation is a major cause of skin damage, of long‐term alteration of skin metabolism, homoeostasis and physical structure. The analysis of UV‐induced pathogenic processes requires in vitro models allowing biochemical studies, and appropriate for the development of novel, accurate diagnosis methods based on non‐invasive procedures. Objectives: This work was aimed to reproduce the effects of UVB on whole‐skin explants ex vivo and to study underlying biochemical mechanisms, especially in correlation with skin autofluorescence. Methods: Human skin organ cultures were irradiated with UVB and subjected to enzyme assays, Western blots, solid‐phase ELISA, HPLC and fluorescence measurements. Results: UVB irradiation was found to enhance ROS production, to deplete the pool of low‐molecular‐weight antioxidants and to decrease the overall antioxidant capacity in the epidermis, in a manner dependent on xanthine‐oxidase activity. Epidermal cell proliferation and mitochondrial activity were transiently stimulated. IκB‐α was degraded, and the secretion of inflammatory cytokines was drastically increased. Inducible nitric oxide synthase activity was increased in non‐irradiated controls, probably due to the mechanical stress of skin excision, and this phenomenon was suppressed by UVB. Autofluorescence measurements revealed alterations of dermal protein crosslinks following UVB irradiation. Conclusions: Skin organ culture proved to be an integrated model appropriate for in vitro analysis of UVB biologic effects and their correlations, and for the study of non‐invasive diagnostic methods in cellular and molecular terms.     

Protective effects of platinum nanoparticles against UV‐light‐induced epidermal inflammation

Please cite this paper as: Protective effects of platinum nanoparticles against UV‐light‐induced epidermal inflammation. Experimental Dermatology 2010; 19 : 1000–1006. Abstract: Intracellular reactive oxygen species (ROS) and apoptosis play important roles in the ultraviolet (UV)‐induced inflammatory responses in the skin. Metal nanoparticles have been developed to increase the catalytic activity of metals, which is because of the large surface area of smaller particles. Platinum nanoparticles (nano‐Pt) protected by poly acrylic acid were manufactured by reduction with ethanol. A marked increase in ROS production was observed in UV‐treated HaCaT keratinocytes cell lines, while a decrease in ROS production was observed in nano‐Pt‐treated cells. Pretreatment of the cells with nano‐Pt also caused a significant inhibition of UVB‐ and UVC‐induced apoptosis. Furthermore, we found that mice treated with nano‐Pt gel prior to UV irradiation showed significant inhibition of UVB‐induced inflammation and UVA‐induced photoallergy compared to UV‐irradiated control mice. These results suggest that nano‐Pt effectively protects against UV‐induced inflammation by decreasing ROS production and inhibiting apoptosis in keratinocytes.     

Galanin contributes to ultraviolet irradiation‐induced inflammation in human skin

Exposure of the skin to ultraviolet (UV) irradiation causes various consequences such as inflammation and photoageing. Galanin is an active neuropeptide expressed widely in the central nervous system and peripheral tissues including the skin. Galanin promotes or inhibits inflammation in a context‐dependent manner, but its role in UV irradiation‐induced responses in human skin was still unknown. UV irradiation induced a substantial expression of galanin in primary epidermal keratinocytes in vitro and in human epidermis in vivo. Galanin knock‐down by siRNA transfection markedly inhibited UV irradiation‐induced expression of matrix metalloproteinase (MMP)‐1, interleukin (IL)‐1β, IL‐6 and cyclooxygenase (COX)‐2. Moreover, siRNA‐mediated knock‐down of GAL₂, a principal galanin receptor in the skin, led to a considerable decrease in these mediators in keratinocytes. Collectively, our findings suggest that galanin is an important messenger between the neuroendocrine system and UV irradiation‐damaged skin.