A decrease of mitochondrial ubiquitin ligase increases the secretion of matrix metalloproteinase-1 by dermal fibroblasts through the induction of ER stress.

BACKGROUND: We previously reported that the level of mitochondrial ubiquitin ligase (MITOL) protein in fibroblasts was decreased by UVA and that the knock-down (KD) of MITOL increased the secretion of matrix metalloprotease-1 (MMP-1) by fibroblasts. A recent study reported that MITOL suppresses endoplasmic reticulum (ER) stress by stabilizing the interaction between ER and mitochondria (MT) through the ubiquitination of mitofusin 2. These facts suggest that a decrease of MITOL would increase the secretion of MMP-1 through ER stress, but the detailed mechanism of that process in dermal fibroblasts remains unclear. Thus, this study was conducted to clarify the involvement of ER stress in the oversecretion of MMP-1 induced by the decreased MT quality caused by MITOL-KD. METHODS: MITOL-KD normal human dermal fibroblast (NHDFs) were prepared by treating them with MITOL-small interfering RNA, after which their MMP-1 protein levels were measured. ER stress in NHDFs was evaluated by measuring the mRNA levels of spliced X-box binding protein 1 (sXBP1) and the protein levels of inositol-requiring enzyme 1α (IRE1α). RESULTS: MITOL-KD NHDFs enhanced the secretion of MMP-1 via interleukin-6 (IL-6) elicited by the activation of nuclear factor-kappa B (NF-κB). The secretion of MMP-1 could be abrogated by a neutralizing IL-6 antibody and by JSH23, which is an inhibitor of NF-κB activation. Furthermore, MITOL-KD NHDFs as well as UVA-irradiated NHDFs showed increased ER stress levels. In addition, tunicamycin, which is an inducer of ER stress, also increased MMP-1 secretion. CONCLUSION: These results suggested that the decrease of MITOL caused the oversecretion of MMP-1 via NF-κB-IL-6 signaling through the activation of ER stress in fibroblasts.

Comparative analysis of original face and skin-warped average face images for the scoring of skin attributes.

OBJECTIVES: Representative of a panel, an average face image could be used to analyse/display skin changes while alleviating image rights constraints. Therefore, we used landmark-based deformation (warping) of individual skin images onto their panel's average face, evaluating this approach's relevance and possible limits. METHODS: An average front face image was constructed from images of 71 Japanese women (50-60 years old). After warping individual skin images onto this average face, the resulting skin-warped average faces were presented to three experts who graded: forehead wrinkles, nasolabial fold, wrinkle of the corner of the lips, pore visibility and skin pigmentation homogeneity. Two experts estimated subjects' age. Results were compared to gradings performed on original images. RESULTS: Inter-expert grading shows excellent to good correlation whatever image type: from 0.918 (forehead wrinkles) to 0.693 (visibility of pores). Correlations between scoring of both image types are almost always higher than inter-expert correlations (maximum: 0.939 for forehead wrinkles-minimum: 0.677 for pore visibility). Frequencies of grades/ages are similar when scoring original and skin-warped average face images. Experts scores are similar in 90.6%-99.3% of the cases. Average deviations upon scoring both image types are smaller than average inter-expert deviations on original images. CONCLUSIONS: Scoring facial characteristics in original images and skin-warped average face images show an excellent agreement, even for perceived age, a complex feature. This opens the possibility of using this approach to grade facial skin features, monitor changes over time, and to valorise results on a face deprived of image rights.

Possible Involvement of Dermal Fibroblasts in Modulating Nrf2 Signaling in Epidermal Keratinocytes.

Epidermal keratinocytes protect themselves by cooperating with neighboring cells against internal and external stresses, which leads not only to the maintenance of cell homeostasis but also to the prevention of skin aging. Although it is known that nuclear factor (NF)-E2-related factor 2 (Nrf2) signaling plays a pivotal role in ameliorating oxidative stress and inflammatory responses under stress situations, it is unclear whether Nrf2 signaling in keratinocytes cooperates with neighboring cells such as dermal fibroblasts. Thus, this study was conducted to examine the influence of dermal fibroblasts on Nrf2 signaling in epidermal keratinocytes using a co-culture system. The results show that expression levels of Nrf2-regulated antioxidant factors, such as glutathione and heme oxygenase-1, in HaCaT keratinocytes (HaCaT KCs) are up-regulated in the presence of normal human dermal fibroblasts (NHDFs). In addition, the secretion of pro-inflammatory molecules, including interleukin-1α (IL-1α) and prostaglandin E2 (PGE2), is suppressed in co-cultures of NHDFs and UVB-irradiated HaCaT KCs. Interestingly, the localization of Nrf2 protein in HaCaT KCs was immediately translocated from the cytoplasm to the nucleus after the co-culture with NHDFs. These results suggest the possibility that Nrf2 signaling in keratinocytes is regulated in cooperation with dermal fibroblasts.

Decreased mitochondrial function in UVA-irradiated dermal fibroblasts causes the insufficient formation of type I collagen and fibrillin-1 fibers.

BACKGROUND: Decreases of collagen fibers and the disappearance of oxytalan fibers are typical symptoms of photoaged skin. Although a low quality of mitochondria (MT) in photoaged skin cells has been observed, it is unknown whether the decreased quality of MT is responsible for the insufficient formation of dermal fibers. OBJECTIVE: To identify the role of mitochondrial quality in skin photoaging focusing on the formation of dermal fibers. METHODS: Type I collagen and fibrillin-1 fibers in normal human dermal fibroblasts (NHDFs) were observed by immunostaining. Type I collagen and fibrillin-1 proteins in NHDFs were quantified by ELISA. Mitochondrial quality was evaluated by measuring levels of intracellular ATP and MITOL, which regulate mitochondrial quality. RESULTS: UVA-irradiated NHDFs formed insufficient type I collagen and fibrillin-1 fibers and had a decreased ratio of extracellular versus intracellular levels of those proteins. Although expression levels of motor proteins that transport those proteins intracellularly were not affected by UVA, intracellular ATP levels, which is the driving force of motor proteins, were decreased by UVA along with decreased MITOL protein. Knockdown of MITOL in NHDFs decreased the level of intracellular ATP and caused the insufficient formation of type I collagen and fibrillin-1 fibers due to interfering with the secretion of those proteins. CONCLUSION: These results indicate that a low quality of MT with ATP depletion in dermal fibroblasts caused by irradiation with UVA induces the insufficient formation of type I collagen and fibrillin-1 fibers due to the decreased extracellular secretion of those proteins.

Pyridoxine Has a Potential to Prevent the Appearance of Pigmented Spots: Effects on the Phagocytosis and Differentiation of Keratinocytes.

Pyridoxine (VB6) is a vitamin that is essential to maintain the homeostasis of the human body by contributing to various metabolic reactions. In the skin, although some studies have shown that VB6 is involved in regulating homeostasis through the attenuation of intracellular oxidative stress, there are few reports regarding the effects of VB6 on the prevention or improvement of skin aging. Thus, we conducted this study to determine the potential anti-skin pigmentation effect of VB6 focusing on the phagocytosis of melanosomes (MSs) by keratinocytes. The phagocytosis of MSs by keratinocytes is activated by oxidative stress and is an important factor of skin pigmentation and the eventual appearance of pigmented spots. First, we confirmed the antioxidant property of VB6 that enhanced the expression of several intracellular antioxidants via nuclear erythroid factor 2-related factor 2 (Nrf2). Although the incorporation of fluorescent beads (FBs), which are used as pseudo-MSs, into keratinocytes was increased under higher oxidation conditions caused by UVB and by the depletion of intracellular glutathione, treatment with VB6 suppressed the increased incorporation of FBs into those keratinocytes via Nrf2 activation. Furthermore, VB6 restored the decreased expression of differentiation marker proteins in keratinocytes caused by FB incorporation. Taken together, the results show that VB6 has the potential to prevent the appearance of pigmented spots by suppressing the activation of phagocytosis in keratinocytes caused by oxidative stress, and by restoring the differentiation of keratinocytes disrupted by FB incorporation.

Analysis of correlation and construction of a predictive model of skin transparency using parameters from digital images of the face.

BACKGROUND: Skin transparency is a cosmetic asset highly considered by Asian women. Resulting from complex light interactions within the skin, but still not fully understood, there is no simple method to measure it objectively. In this study, skin parameters from digital images were analysed to build a model predicting transparency. MATERIALS AND METHODS: Initially, 71 Japanese women (between ages 50 and 60 years) were recruited. This group was then extended to 262 women (between ages 21 and 60 years). Pictures of their faces were taken with the Colorface® under diffuse light and different polarisation angles. Experts graded their transparency using pictures. Pictures were also used to compute 958 skin colour and surface parameters from different regions of the face. RESULTS: In the initial group of 71 subjects, 109 parameters correlated with transparency. Half of them are from the cheek and relate to colour or colour homogeneity. If the cheek presented the largest proportion of correlated parameters, best correlations were usually found in other facial regions. Multiple regressions from some cheek parameters can predict up to 80% of transparency. Stepwise regression on parameters from 262 subjects led to a six-parameter model, which is highly correlated (R = 84.1%) with transparency. It combines skin texture, colour, colour homogeneity and gloss parameters. If half of them are from the cheek, the others are from the tear trough, the full face and the cheekbone. CONCLUSION: Using parameters from digital pictures exclusively, we propose a model that accurately reflects transparency. Including parameters previously shown to relate to transparency, this model should be useful for future dermatology and cosmetic research.

Impact of protein carbonylation on the chemical characteristics of the hair surface.

OBJECTIVE: The purpose of this study was to clarify the impact of protein carbonylation on the chemical characteristics of the hair surface focusing on hydrophobicity. METHODS: First, we examined the validity of methods to evaluate hydrophobicity, one that utilizes the fluorescence of 1-anilinonaphtalene-8-sulfonic acid (1,8-ANS) compared with the contact angles against H2 O, of the hair surface chemically modified by alkaline hydrolysis or treated with stearyl ammonium chloride. We measured hairs bleached with H2 O2 or treated with acrolein for fluorescence originating from 1,8-ANS, for the contact angle and for changes of functional groups, aldehydes (the degree of carbonylation), NH2 , COOH and SH, using fluorescence labelling methods. RESULTS: The fluorescence intensity of 1,8-ANS of the hair surface modified chemically correlated well with the contact angles against H2 O. The results indicated that 1,8-ANS is suitable for evaluating the hydrophobicity of the hair surface. The hydrophobicity of hairs bleached with H2 O2 or carbonylated with acrolein was decreased. In addition, changes of functional groups in hairs carbonylated with acrolein increased as did those of hairs bleached with H2 O2 . CONCLUSION: The results suggest that the carbonylation of proteins at the hair surface with aldehydes decreases hydrophobicity and promotes further damage as does bleaching.

OBJECTIF: l'objectif de cette étude était de clarifier l'impact de la carbonylation des protéines sur les caractéristiques chimiques de la surface des cheveux en se concentrant sur l'hydrophobicité. MÉTHODES: nous avons d'abord examiné la validité de la méthode d'évaluation de l'hydrophobicité, une méthode qui utilise la fluorescence de l'acide 1-anilinonaphtalène-8-sulfonique (1,8-ANS) par rapport aux angles de contact avec l'H2O, de la surface des cheveux chimiquement modifiés par hydrolyse alcaline ou traités par chlorure d'ammonium stéarylique. Nous avons mesuré la fluorescence provenant du 1,8-ANS, l'angle de contact et les modifications des groupes fonctionnels, aldéhydes (le degré de carbonylation), NH2, COOH et SH des cheveux décolorés à l'H2O2 ou traités par acroléine, à l'aide de méthodes de marquage par fluorescence. RÉSULTATS: l'intensité de la fluorescence du 1,8-ANS de la surface des cheveux modifiés chimiquement était bien corrélée aux angles de contact avec l'H2O. Les résultats ont indiqué que le 1,8-ANS était adapté à l'évaluation de l'hydrophobicité de la surface des cheveux. L'hydrophobicité des cheveux décolorés à l'H2O2 ou carbonylés à l'acroléine a diminué. De plus, les modifications des groupes fonctionnels des cheveux carbonylés par l'acroléine ont augmenté, tout comme celles des cheveux décolorés à l'H2O2. CONCLUSION: les résultats suggèrent que la carbonylation des protéines à la surface des cheveux par des aldéhydes diminue l'hydrophobicité et favorise d'autres dommages, tout comme la décoloration.

Intracellular oxidative stress induced by calcium influx initiates the activation of phagocytosis in keratinocytes accumulating at S-phase of the cell cycle after UVB irradiation.

BACKGROUND: Phagocytosis is an essential process that maintains cellular homeostasis. In the epidermis, the phagocytosis of melanosomes into keratinocytes is important to protect their DNA against damage from ultraviolet B (UVB) radiation. Furthermore, it is considered that UVB activates the phagocytosis by keratinocytes but the detailed mechanism involved is not fully understood. OBJECTIVE: To clarify the mechanism of UVB-enhanced phagocytosis in keratinocytes, we investigated the relationship between the phagocytic ability of keratinocytes and the cell cycle stage of keratinocytes. METHODS: The phagocytic ability of keratinocytes was evaluated using the incorporation of fluorescent beads after exposure to UVB or oxidative stress. S-phase was evaluated by BrdU incorporation and immunostaining of cyclin D1. Intracellular calcium levels of keratinocytes were measured using the probe Fluo-4AM. RESULTS: The phagocytosis of fluorescent beads into keratinocytes was enhanced by UVB and also by oxidative stress. We found that keratinocytes exposed to UVB or oxidative stress were at S-phase of the cell cycle. Furthermore, keratinocytes synchronized to S-phase showed a higher phagocytic ability according to the increased intracellular ROS level. The UVB-enhanced phagocytosis and entrance into S-phase of keratinocytes was abolished by ascorbic acid, a typical antioxidant. Keratinocytes synchronized to S-phase and exposed to UVB or oxidative stress had increased levels of intracellular calcium and their enhanced phagocytic abilities were diminished by the calcium ion chelator BAPTA-AM. CONCLUSION: Taken together, intracellular oxidative stress induced by intracellular calcium influx mediates the UVB-enhanced phagocytic ability of keratinocytes accumulating at S-phase of the cell cycle.

Xanthophyll Carotenoids Reduce the Dysfunction of Dermal Fibroblasts to Reconstruct the Dermal Matrix Damaged by Carbonylated Proteins.

Although extracellular carbonylated proteins (CPs) are found at higher levels in sun-exposed skin, their impact on the cellular functions of fibroblasts and their involvement in the progression of photoaging skin are not fully clarified. In our previous study, we reported that extracellular CPs increase levels of intracellular oxidative stress and result in the accumulation of newly synthesized CPs in normal human dermal fibroblasts (NHDF). Furthermore, fibroblasts exposed to CP-BSA, which is a model of extracellular CPs, had upregulated expression levels of mRNAs encoding matrix metalloproteinase-1 (MMP-1) and interleukin-8/CXCL8 (IL-8/CXCL8). These facts suggested the possibility that extracellular CPs induce a fragile structure in the dermis through the degradation of collagen and elastin. The purpose of this study was to characterize the efficacy of natural carotenoids, such as astaxanthin analogs, produced by Hematococus pluvialis (CHPs) to improve the impaired functions of fibroblasts exposed to CPs. CHPs suppressed the intracellular CP levels elevated by CP-BSA, restored mRNA expression levels of factors involved in the formation and assembly of collagen and elastin fibers and improved the formation of those fibers impaired by CP-BSA. We conclude that CHPs function as antiaging substances due to their restoration of the impaired formation of collagen and elastin fibers caused by extracellular soluble CPs.

An Ocimum basilicum Extract Containing Rosmarinic Acid Restores the Disruption of Collagen Fibers Caused by Repetitive UVA Irradiation of Dermal Fibroblasts.

Photoaged skin is characterized by the appearance of pigmented spots such as solar lentigos, deep wrinkles and sags, and progresses due to chronic sun exposure. Among the wavelengths of sunlight, UVA is responsible for the appearance of wrinkles and sags that originate from structural alterations in the dermis of photoaged skin such as the depletion of collagen fibers. Thus, improving and restoring collagen fibers is an effective approach to reduce skin photoaging and maintain a youthful appearance. This study was conducted to evaluate the potential of an extract of Ocimum basilicum (OC), which contains rosmarinic acid (RA), as an anti-photoaging material focusing on the capacity to restore collagen fibers that are disrupted due to intracellular oxidative stress. In spite of their relatively low capacities for chemical scavenging of reactive oxygen species (ROS), both OC and RA showed efficient removal of biological oxidative stress by reducing levels of intracellular ROS and carbonylated proteins (CPs) in fibroblasts following exposure to single or repetitive UVA irradiations. Fibroblasts irradiated with repetitive UVA as a model for chronic sun-exposed cells showed significant increases in matrix metalloproteinase-1 and decreases in type I collagen synthesis and formed reduced numbers of collagen fibers. Since both OC and RA restored the adverse phenomena caused by repetitive UVA irradiation, we conclude that OC containing RA is an effective anti-photoaging material.

An Extract of Young Olive Fruit Residues Attenuates Oxidative Stress in HaCaT Keratinocytes through the Ativation of Nrf2 Signaling.

Residues of olive fruit (ROF) after the extraction of oils are an increasing source of industrial waste, because olive oil is becoming more popular as a healthy food. It has been reported that olives have some polyphenols that have an antioxidation capability. On the other hand, excess oxidative stress disrupts epidermal barrier function. This study was conducted to determine whether ROF could be utilized as an antioxidant source to reduce industrial wastes and to identify possible active materials to maintain healthy skin. Olive fruits are categorized into two groups depending on the time of harvest, young fruit (YF) and mature fruit (MF). Thus, we examined the antioxidant potentials of extracts from YF and from MF to remove reactive oxygen species (ROS) from biological and chemical aspects. HaCaT keratinocytes cultured with extracts of YF or MF had reduced levels of intracellular ROS in spite of the relatively low chemical capability against ROS scavenging. The biological effects of the YF extract were superior to those of the MF extract. The YF extract showed effective reductions of intracellular ROS and carbonylated proteins that were elevated by the stress-related hormone cortisol. In addition, the YF extract reinforced the intracellular antioxidation capability through the activation of Nrf2 signaling. Taken together, the YF extract was an effective source to reinforce the intracellular antioxidation capability. We conclude from these results that utilizing ROF would lead to the reduction of industrial wastes and would supply active materials to maintain healthy skin.

Impairment of the autophagy system in repetitively UVA-irradiated fibroblasts.

BACKGROUND: Autophagy is known as an intracellular cleanup system necessary to maintain homeostasis of the skin. Many studies have pointed out the relationship between aging and the inactivation of autophagy function, which suggests that the inactivation of autophagy occurs in aged skin. However, the aging process of the skin is complicated compared with other organs, because the skin is localized at the border between the inside of the body and the environment. Thus, skin aging is strongly affected by environmental factors, and it is well recognized that ultraviolet (UV) radiation is an important environmental factor that promotes skin aging. Therefore, characterizing the autophagic phenotypes induced by environmental factors is important to understand the process of skin aging. METHODS: In order to demonstrate the status of autophagy during environment-induced aging of the skin, we investigated the autophagy profiles of normal human dermal fibroblasts (NHDFs) treated with repetitive UVA irradiation as model fibroblasts in photoaged skin. RESULTS: Repetitively UVA-irradiated NHDFs showed increased numbers of autophagosomes, which coincided with the accumulation of p62 and increased levels of LAMP-1 and lysosomes. The behavior of repetitively UVA-irradiated NHDFs on autophagy was similar to that of NHDFs treated with hydroxychloroquine (HCQ), which is an inhibitor of lysosomal proteinase. CONCLUSION: In summary, these results demonstrate that repetitively UVA-irradiated fibroblasts have reduced autophagy function due to the dysfunction of lysosomes.

Protective Effects of Sacran, a Natural Polysaccharide, Against Adverse Effects on the Skin Induced by Tobacco Smoke.

Recent increases in air pollution have raised concerns about its adverse effects on human health. Sacran is a natural polysaccharide isolated from a cyanobacterium. We previously reported that sacran improves skin conditions because of its effects as an artificial barrier against external stimuli, which suggested that sacran might protect the skin against air pollutants. The goal of this study was to characterize the potential of sacran to protect human skin against damage from air pollutants and to compare sacran with hyaluronic acid (HA). Sacran that was topically applied on the skin stayed on the surface or in the stratum corneum. Sacran-treated filters had a shielding effect against benzo[a]pyrene (BaP) and aldehyde compounds contained in tobacco smoke. Sacran suppressed the upregulation of cytochrome P4501A1 messenger ribonucleic acid (mRNA), which is a xenobiotic-metabolizing enzyme induced by BaP, and other responses against tobacco smoke in HaCaT keratinocytes. Furthermore, topical application of a serum containing 0.04% sacran on the skin reduced levels of carbonylated proteins in corneocytes of tobacco smokers. Sacran showed superior effects in every characteristic measured, compared with HA. We conclude that sacran ameliorates the oxidative stress initiated by tobacco smoke by shielding the skin surface and protects human skin.

Pyridoxine (VB6 ) restores the down-regulation of serine palmitoyltransferase mRNA expression in keratinocytes cultured in highly oxidative conditions through enhancement of the intracellular antioxidant system.

BACKGROUND: Pyridoxine (VB6 ), which acts as a coenzyme in the biosynthesis of niacin, is formulated in pharmaceuticals to treat skin roughness. However, the mechanism of action of VB6 is not known precisely. OBJECTIVE: This study was conducted to clarify the influence of highly oxidative conditions on the expression of skin moisture-related mRNAs and to evaluate the preventive effects of VB6 focusing on antioxidant behaviour. METHODS: Intracellular levels of reactive oxygen species (ROS) in normal human epidermal keratinocytes (NHEKs) were determined using the 2',7'-dichlorofluorescein diacetate assay. Real-time PCR was employed to investigate the influence of higher oxidative conditions on the expression of mRNAs encoding serine palmitoyl transferase (SPT) and filaggrin, and to characterize the mechanism of the antioxidant effect of VB6 . Intracellular glutathione was quantified using an assay based on the glutathione recycling system with 5,5'-dithiobis (2-nitrobenzoic acid) reagent and glutathione reductase. Carbonylated proteins (CPs) were semi-quantified by detecting aldehyde residues. RESULTS: Treatment of NHEKs with BSO increased the level of intracellular CPs by interfering with intracellular glutathione synthesis. Further, treatment with BSO down-regulated the expression level of SPT mRNA, but VB6 restored SPT mRNA expression in BSO-treated NHEKs. VB6 decreased the level of intracellular CPs with or without BSO treatment in a dose-dependent manner. In addition, VB6 increased levels of intracellular NADH/NADPH and glutathione through the activation of nuclear factor E2-related factor 2 (Nrf2) signalling. CONCLUSION: These results suggest that highly oxidative conditions cause an impaired skin barrier function due to the down-regulation of SPT that results in skin roughness. VB6 improved the down-regulation of SPT mRNA expression initiated by highly oxidative conditions by enhancing the intracellular antioxidant system.

The impact of carbonylated proteins on the skin and potential agents to block their effects.

Carbonylated proteins (CPs) are synthesized by reactions between amino groups in proteins and reactive aldehyde compounds (RAC) yielded from lipid peroxidation initiated by reactive oxygen species (ROS). In the skin, CPs are detected in a higher frequency at sun-exposed sites of the skin in elderly subjects. Since CPs in the stratum corneum (SC) have been reported to correlate with skin water content and transepidermal water loss, it is considered that the accumulation of CPs in the SC involves the loss of skin moisture functions. However, the roles of CPs in the dermis on skin physiology are still unclear. The purpose of this study was to investigate the roles of CPs in the dermis during the progression of photoaged skin and to propose a method to prevent or reduce the synthesis of CPs. The exposure of human normal dermal fibroblasts to CPs increased intracellular ROS levels and the synthesis of intracellular CPs. In addition, CPs caused morphological changes of fibroblasts. Furthermore, CPs caused alterations of mRNA expression levels of dermal matrix-related proteins, such as upregulating MMP-1 and IL-8. These results indicated that CPs disrupt construction of the dermal matrix. On the other hand, α-tocopherol and ß-carotene suppressed the synthesis of RAC during lipid peroxidation which resulted in the reduction of UVA-induced CPs in the SC. From these results, we propose that extracellular CPs increase intracellular ROS levels and contribute to alterations of the dermal matrix. To prevent the synthesis of CPs, the application of α-tocopherol or ß-carotene could be effective.

3-O-Laurylglyceryl ascorbate improves the development of sensitive skin through the reduction of oxidative stress.

Skin sensitivity is a serious problem for many people, and it can be induced by various factors such as UV irradiation, physical and mental stresses, air pollution, dry air and so on. Skin dryness triggered by UV and dry air is one of the most important causes inducing the development of sensitive skin, and it has been reported that oxidative stress contributes to skin dryness. In this study, we investigated whether treatment with 3-O-laurylglyceryl ascorbate (VC-3LG), which is an amphipathic ascorbic acid derivative, can suppress the development of sensitive skin. The results demonstrate that VC-3LG restores the expression levels of interleukin-1α, nerve growth factor and matrix metalloprotease-9 in the dry skin models of reconstructed human epidermal equivalents (RHEEs) and in H2 O2 -treated keratinocytes. In addition, VC-3LG suppresses the dendrite elongation of nerve cells induced in RHEEs by dry skin conditions and by H2 O2 treatment of keratinocytes. Therefore, we consider that treatment of the skin with VC-3LG is an effective approach to improve the development of sensitive skin.

Correlations between skin hydration parameters and corneocyte-derived parameters to characterize skin conditions.

BACKGROUND: Skin hydration is generally assessed using the parameters of skin surface water content (SWC) and trans-epidermal water loss (TEWL). To date, few studies have characterized skin conditions using correlations between skin hydration parameters and corneocyte parameters. AIMS: The parameters SWC and TEWL allow the classification of skin conditions into four distinct Groups. The purpose of this study was to assess the characteristics of skin conditions classified by SWC and TEWL for correlations with parameters from corneocytes. METHODS: A human volunteer test was conducted that measured SWC and TEWL. As corneocyte-derived parameters, the size and thick abrasion ratios, the ratio of sulfhydryl groups and disulfide bonds (SH/SS) and CP levels were analyzed. RESULTS: Volunteers were classified by their median SWC and TEWL values into 4 Groups: Group I (high SWC/low TEWL), Group II (high SWC/high TEWL), Group III (low SWC/low TEWL), and Group IV (low SWC/high TEWL). Group IV showed a significantly smaller size of corneocytes. Groups III and IV had significantly higher thick abrasion ratios and CP levels. Group I had a significantly lower SH/SS value. The SWC/TEWL value showed a decline in order from Group I to Group IV. CONCLUSION: Groups classified by their SWC and TEWL values showed characteristic skin conditions. We propose that the SWC and TEWL ratio is a comprehensive parameter to assess skin conditions.

A red pumpkin seed extract reduces melanosome transfer to keratinocytes by activation of Nrf2 signaling.

BACKGROUND: The induction of skin pigmentation by ultraviolet (UV) radiation has been shown to result from factors secreted from UV-exposed keratinocytes that enhance melanogenesis in melanosomes (MSs) and stimulates their transfer to keratinocytes. Among those factors, it has been reported that α-melanocyte stimulating hormone, which is converted from the precursor proopiomelanocortin (POMC) following UV exposure, stimulates the transfer of MSs from melanocytes to surrounding keratinocytes. OBJECTIVE: The purpose of this study was to evaluate the effects of a red pumpkin seed (RPS) extract on the transfer of MSs to keratinocytes and to clarify the involvement of reactive oxygen species (ROS) on the UVB-induced transfer of MSs. METHODS: The transfer of MSs into keratinocytes was examined by measuring the incorporation of fluorescent beads, which were used as pseudo-MSs. mRNA expression levels of POMC, Nrf2, and Nrf2-related genes were determined using real-time PCR. Intracellular ROS levels were estimated with H2 DCFDA. RESULTS: The incorporation of fluorescent beads into keratinocytes was enhanced by treatment with the conditioned medium (CM) from keratinocytes exposed to UVB or H2 O2 . UVB or H2 O2 exposed keratinocytes had an up-regulated mRNA expression level of POMC. Treatment of keratinocytes with the RPS extract enhanced their intracellular antioxidant system via the activation of Nrf2 signaling and suppressed their incorporation of fluorescent beads that had been stimulated by the CM from UVB or H2 O2 exposed keratinocytes. CONCLUSION: These results indicate that the RPS extract suppresses MS transfer stimulated by ROS generated following UVB exposure through the activation of Nrf2 signaling.

Defensive Effects of a Unique Polysaccharide, Sacran, to Protect Keratinocytes against Extracellular Stimuli and Its Possible Mechanism of Action.

Sacran, a polysaccharide isolated from the alga Aphanothece sacrum (Suizenji-nori), has unique physical and physiological characteristics. In a previous study, we reported that sacran improves skin conditions in individuals who suffer from atopic dermatitis (AD), focusing on its trapping function against extrinsic stimuli compared with hyaluronic acid (HA). First, we examined the penetration of sacran through stratum corneum (SC) with an impaired barrier function using immature reconstructed human epidermal equivalents. Sacran penetrates the SC to living cell layers of the epidermis, which suggested that sacran would attenuate adverse influences in keratinocytes caused by extracellular factors such as irritants or proinflammatory cytokines such as interleukin 1α (IL-1α). Sacran markedly reduced the cell damage induced by a nonionic detergent, sodium lauryl sulfate (SLS). Moreover, sacran restored the elevation of intracellular reactive oxygen species (ROS) levels stimulated by SLS and by IL-1α. These effects of sacran were superior to those of HA. In order to investigate the restoration effects of sacran, the influence of sacran on the physical properties of lipid bilayers was evaluated by measuring the order parameter using the ESR spin-labeling method. Because sacran failed to cause changes in the order parameters of liposomes and HaCaT keratinocytes, these results indicate that sacran does not interact with lipid bilayers although it restored changes in the order parameter caused by SLS. The sum of these results demonstrates that sacran reduces the influence of extracellular stimuli by its trapping effects. We conclude that the improving action of sacran is based on its trapping effect.

3-O-Glyceryl-2-O-hexyl Ascorbate Suppresses Melanogenesis through Activation of the Autophagy System.

The formation of skin pigmentation requires multiple steps, namely the activation of melanocytes, the synthesis of melanin, the transport of melanosomes to the tips of melanocyte dendrites and the transfer of melanosomes from melanocytes to surrounding keratinocytes. Recently, we reported that melanosomes accumulate in melanocytes when melanosome transport is disrupted and that they are then degraded by the autophagy system. In this study, we examined whether 3-O-glyceryl-2-O-hexyl ascorbate (VC-HG) suppresses melanogenesis through the activation of autophagy since VC-HG interferes with melanosome transport through the down-regulated expression of MyosinVa and Kinesin. The results demonstrate that VC-HG-treated B16 cells show an activation of autophagy through an increased expression level of Microtubule-associated protein 1 light chain 3 (LC3)-II and a decreased expression level of p62. Furthermore, the decrease of melanin content elicited by VC-HG was partially abolished by hydroxychloroquine or pepstatin A which are inhibitors of autophagy. Taken together, we conclude that VC-HG suppresses melanogenesis by activating the autophagy system.