The effect of hyperbaric oxygen therapy on the pathophysiology of skin aging: a prospective clinical trial.

INTRODUCTION: Skin biopsies can be used to evaluate physiological effects of aging targeted intervention at the tissue/cellular levels. Recent clinical trials have shown that hyperbaric oxygen therapy (HBOT) can target aging hallmarks, including telomere shortening, senescent cells clearance and angiogenesis. The aim of this study was to evaluate the effects of HBOT on the skin of a normal, non-pathological, aging population. METHODS: The study was performed as a prospective clinical trial. After signing informed consent and undergoing baseline evaluations, the subjects were assigned to a three-month control period followed by three months of HBOT daily sessions. Skin biopsies were taken at baseline, after three months of no intervention (control) and 1-2 weeks following the last HBOT session. Trichrome, Orecin, lipofuscin and CD31 staining were used to evaluate collagen fibers, elastic fibers, senescent cells and blood vessels, respectively. RESULTS: Out of the cohort of 70 participants in the normal aging population study, thirteen male patients (age 68.07±2.5y) gave consent for repeated skin biopsies. Following HBOT, there was a significant increase in collagen density (p<0.001, effect size(es)=1.10), elastic fiber length (p<0.0001, es=2.71) and the number of blood vessels (p=0.02, es=1.00). There was a significant decrease in fiber fragmentation (p=0.012) and in tissue senescent cells (p=0.03, es=0.84) post-HBOT. No changes were noted in elastic fiber density or thickness. CONCLUSIONS: The study indicates, for the first time in humans, that HBOT can significantly modulate the pathophysiology of the skin aging in a healthy aging population. The demonstrated mechanisms include angiogenesis and senescent cell clearance.

Trends in the Use of Botanicals in Anti-Aging Cosmetics.

Botanical ingredients have been used for thousands of years in skincare for their convenience as well as the diversity and abundance in compounds with biological activity. Among these, polyphenols and especially flavonoids have gained increasing prominence due to their antioxidant and anti-inflammatory properties. In this study, the most used botanical preparations in anti-aging products marketed in 2011 were determined. The analysis was repeated in 2018 for new and reformulated products. The scientific evidence for their application as active ingredients in anti-aging cosmetics and their flavonoid content was also compiled by searching in online scientific databases. Overall, in 2018, there was a noticeable increase in the use of botanical preparations in anti-aging cosmetics. However, the top three botanical species in both years were Vitis vinifera, Butyrospermum parkii, and Glycine soja, which is consistent with the greater amount of scientific evidence supporting their efficacy. Regarding the function of botanical preparations, there is a clear preference for DNA-protecting ingredients. The most prevalent flavonoids were flavan-3-ols, proanthocyanidins, and anthocyanins. This study provided an updated overview of the market trends regarding the use of botanicals in anti-aging products and documented the state of the art of scientific evidence for the most used plants.

Dietary Collagen Hydrolysates Ameliorate Furrowed and Parched Skin Caused by Photoaging in Hairless Mice.

Collagen hydrolysates have been suggested as a favorable antiaging modality in skin photoaged by persistent exposure to ultraviolet radiation (UV). The current study evaluated the beneficial effect of collagen hydrolysates (fsCH) extracted from Pangasius hypophthalmus fish skin on wrinkle formation and moisture preservation in dorsal skin of hairless mice challenged with UV-B. Inter-comparative experiments were conducted for anti-photoaging among fsCH, retinoic acid (RA), N-acetyl-D-glucosamine (NAG), and glycine-proline-hydroxyproline (GPH). Treating human HaCaT keratinocytes with 100-200 µg/mL fsCH reciprocally ameliorated the expression of aquaporin 3 (AQP3) and CD44 deranged by UV-B. The UV-B-induced deep furrows and skin thickening were improved in parched dorsal skin of mice supplemented with 206-412 mg/kg fsCH as well as RA and GPH. The UV-B irradiation enhanced collagen fiber loss in the dorsal dermis, which was attenuated by fsCH through enhancing procollagen conversion to collagen. The matrix metalloproteinase expression by UV-B in dorsal skin was diminished by fsCH, similar to RA and GPH, via blockade of collagen degradation. Supplementing fsCH to UV-B-irradiated mice decreased transepidermal water loss in dorsal skin with reduced AQP3 level and restored keratinocyte expression of filaggrin. The expression of hyaluronic acid synthase 2 and hyaluronidase 1 by UV-B was remarkably ameliorated with increased production of hyaluronic acid by treating fsCH to photoaged mice. Taken together, fsCH attenuated photoaging typical of deep wrinkles, epidermal thickening, and skin water loss, like NAG, RA, or GPH, through inhibiting collagen destruction and epidermal barrier impairment.

Inhibition of EGR-1-dependent MMP1 transcription by ethanol extract of Ageratum houstonianum in HaCaT keratinocytes.

Matrix metalloproteinase 1 (MMP-1) initiates the breakdown of matrix networks by cleaving fibrillar collagen during the pathophysiological progression of skin aging. Ageratum houstonianum ethanol extract (AHE) has been used as a traditional herbal medicine to treat external wounds and skin diseases. However, the mechanism of action underlying A. houstonianum-mediated modulation of skin aging has not been investigated. In this study, we evaluated the effect of AHE on MMP-1 expression in HaCaT keratinocytes. Gene expression was analyzed by Reverse transcription-PCR (RT-PCR), Quantitative real-time PCR (Q-PCR), gene promoter-reporter assay, and immunoblotting. We found that AHE abrogated TNFα-induced MMP1 expression at the transcriptional level via the suppression of ERK1/2 mitogen-activated protein kinase (MAPK)-mediated Early Growth Response 1 (EGR1) expression. We also demonstrated that ß-caryophyllene, a cannabinoid receptor 2 (CB2) agonist, is a functional component of the AHE that inhibits TNFα-induced EGR-1 and MMP1 expression. AHE exerts inhibitory activity on TNFα-induced MMP1 expression at the transcription level through EGR-1 downregulation in keratinocytes. ß-Caryophyllene is a bioactive ingredient of AHE that is responsible for the inhibition of TNFα-induced EGR1 expression. ß-Caryophyllene can be used as a potential agent to prevent inflammation-induced skin aging.

Lycium barbarum polysaccharide fraction associated with photobiomodulation protects from epithelium thickness and collagen fragmentation in a model of cutaneous photodamage.

Ultraviolet radiation (UVR) is the major etiologic agent of cutaneous photoaging, and different strategies are used to prevent and treat this condition. The polysaccharide fraction (LBPF) isolated from Lycium Barbarum fruits (goji berry) contains several active ingredients with antioxidant, immune system modulation, and antitumor effects. In addition, the photobiomodulation (PBM) is widely applied in photoaging treatment. This study investigated the effects of LBPF and PBM against the UVR-induced photodamage in the skin of hairless mice. The mice were photoaged for 6 weeks in a chronic and cumulative exposure regimen using a 300-W incandescent lamp that simulates the UVR effects. From the third to the sixth week of photoaging induction, the animals received topical applications of LBPF and PBM, singly or combined, in different orders (first LBPF and then PBM and inversely), three times per week after each session of photoaging. After completion of experiments, the dorsal region skin was collected for the analysis of thickness, collagen content, and metalloproteinases (MMP) levels. A photoprotective potential against the increase of the epithelium thickness and the fragmentation of the collagen fibers was achieved in the skin of mice treated with LBPF or PBM singly, as well as their combination. All treatments maintained the skin collagen composition, except when PBM was applied after the LBPF. However, no treatment protected against the UVR-induced MMP increase. Taken together, we have shown that the LBPF and PBM promote a photoprotective effect in hairless mice skin against epidermal thickening and low collagen density. Both strategies, singly and combined, can be used to reduce the UVR-induced cutaneous photoaging.

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.

Ingestion of collagen hydrolysates alleviates skin chronological aging in an aged mouse model by increasing collagen synthesis.

Although the use of collagen hydrolysates (CHs) as nutraceutical agents to protect skin against photoaging has been widely investigated, little is known about their effects on skin chronological aging and the underlying mechanism. Nutritional supplementation, such as collagen and related hydrolysates, might have beneficial effects on chronologically aged skin just as on photoaged skin. Hence, 13-month-old female Kunming mice ingested CHs for eight weeks to evaluate the effects of CHs on ameliorating skin chronological aging. CHs were enzymatically prepared using alcalase or collagenase, named ACH and CCH, respectively. The results showed that CHs or proline intake had no obvious effects on skin moisture and hyaluronic acid contents. However, ACHs significantly decreased skin laxity, increased collagen I content, normalized the ratio of collagen I/III and repaired dermal collagen fibers in a dose-dependent manner. At an identical dose, ACH showed an advantage over CCH or proline in significantly increasing collagen I content. Further study indicated that CHs mainly improved skin condition by activating the transforming growth factor ß (TGF-ß)/Smad signaling pathway to promote the synthesis of collagen I rather than inhibiting collagen I degradation by deregulating activator protein-1 (AP-1). The results indicated that CHs could benefit skin in both extrinsic and intrinsic aging as active dietary supplements.

Therapeutic Effects of Cold-Pressed Perilla Oil Mainly Consisting of Linolenic acid, Oleic Acid and Linoleic Acid on UV-Induced Photoaging in NHDF Cells and SKH-1 Hairless Mice.

Positive physiological benefits of several plant oils on the UV-induced photoaging have been reported in some cell lines and model mice, but perilla oil collected from the seeds of Perilla frutescens L. has not been investigated in this context. To study the therapeutic effects of cold-pressed perilla oil (CPO) on UV-induced photoaging in vitro and in vivo, UV-induced cellular damage and cutaneous photoaging were assessed in normal human dermal fibroblasts (NHDFs) and HR-1 hairless mice. CPO contained five major fatty acids including linolenic acid (64.11%), oleic acid (16.34%), linoleic acid (11.87%), palmitic acid (5.06%), and stearic acid (2.48%). UV-induced reductions in NHDF cell viability, ROS production, SOD activity, and G2/M cell cycle arrest were remarkably improved in UV + CPO treated NHDF cells as compared with UV + Vehicle treated controls. Also, UV-induced increases in MMP-1 protein and galactosidase levels were remarkably suppressed by CPO. In UV-radiated hairless mice, topical application of CPO inhibited an increase in wrinkle formation, transepidermal water loss (TEWL), erythema value, hydration and melanin index on dorsal skin of UVB-irradiated hairless mice. CPO was observed to similarly suppress UV-induced increases in epidermal thickness, mast cell numbers, and galactosidase and MMP-3 mRNA levels. These results suggest CPO has therapeutic potential in terms of protecting against skin photoaging by regulating skin morphology, histopathology and oxidative status.

Protective Effect of the Aqueous Extract of Deschampsia antarctica (EDAFENCE®) on Skin Cells against Blue Light Emitted from Digital Devices.

Skin is being increasingly exposed to artificial blue light due to the extensive use of electronic devices. This, together with recent observations reporting that blue light-also known as high-energy visible light-can exert cytotoxic effects associated with oxidative stress and promote hyperpigmentation, has sparked interest in blue light and its potential harmful effects on skin. The photoprotective properties of new extracts of different botanicals with antioxidant activity are therefore being studied. Deschampsia antarctica (Edafence®, EDA), a natural aqueous extract, has shown keratinocyte and fibroblast cell protection effects against ultraviolet radiation and dioxin toxicity. In this regard, we studied the protective capacity of EDA against the deleterious effects of artificial blue light irradiation in human dermal fibroblasts (HDF) and melanocytes. We analyzed the impact of EDA on viability, cell morphology, oxidative stress, melanogenic signaling pathway activation and hyperpigmentation in HDF and melanocytes subjected to artificial blue light irradiation. Our results show that EDA protects against cell damage caused by artificial blue light, decreasing oxidative stress, melanogenic signaling pathway activation and hyperpigmentation caused by blue light irradiation. All these findings suggest that EDA might help prevent skin damage produced by artificial blue light exposure from screen of electronic devices.

Topical administration of pullulan gel accelerates skin tissue regeneration by enhancing collagen synthesis and wound contraction in rats.

Here, we have studied the efficacy of pullulan gel on wound healing by performing biochemical, biophysical and histological investigations. A 2 cm2 open excision wound was made on the dorsum of the rats and topically treated with 500 µL of pullulan gel. The control group was left untreated. The povidone-iodine (PI) ointment treated animals were considered as positive control. The granulation tissues formed were collected at different time point intervals and used for various biochemical, biophysical and histological analyses. Biochemical analyses revealed that pullulan gel significantly (p < 0.001) improved the collagen, hexosamine, protein and DNA content. Biophysical analyses resulted in an increased rate of wound contraction (p < 0.001). The period of epithelialization was shorter (p < 0.001) in pullulan gel treated group (11 days) than control (22 days) and PI group (17 days). Histological evaluation on days 4, 8 and 11 substantiated that pullulan gel treatment improved the wound re-epithelialization, dermal regeneration, blood vessels formation and collagen synthesis than in control and PI groups. Interrupted SDS-PAGE of collagen showed an increase in Type III collagen band evident for the healing potential of pullulan gel. Thus, our results strongly prove that pullulan gel could be a potential wound healing agent.

Prospective, preclinical comparison of the performance between radiofrequency microneedling and microneedling alone in reversing photoaged skin.

BACKGROUND: There is a tremendous demand for dermal rejuvenation with minimal invasiveness and patient downtime. AIMS: In this study, we evaluated the performance of nonfractional monopolar radiofrequency for the improvement of photoaged skin texture and wrinkles. METHODS: In total, 32 6-week-old female hairless mice were randomized into four groups of eight mice each: (a) healthy control, (b) UVB-exposed, (c) UVB + microneedling, and (d) UVB + microneedle RF. After applying each treatment modality, skin surface was globally investigated and histologically evaluated senile skin change. Immunohistochemistry was tested with the primary antibody to collagen type I and III. RESULTS: After UVB exposure, the Ra value was significantly increased, leading to clinical development of wrinkles with xerotic scales. Depth and number of wrinkles showed gradual improvement in RF-treated mice. The mean Ra value of the RF-treated group decreased significantly. The RF-treated group showed decreased epidermal thickness, suppression of dermal inflammatory cell infiltration, and increased density of collagen fibers and amount of elastic fibers. CONCLUSIONS: Microneedle RF treatment alleviates photoaged skin texture and wrinkles in this mouse model. To the best of our knowledge, our results provide the first evidence that a nonfractional monopolar microneedle radiofrequency device may contribute to the treatment of UV-damaged skin.

Split-Sided Chest Study of Skin Rejuvenation Comparing Low-Energy, 1,927-nm Thulium Fractional Laser Treatment Prior to Photodynamic Therapy Versus Photodynamic Therapy Alone.

BACKGROUND AND OBJECTIVES: Treatment of photoaging and intrinsic aging of the chest, with the associated concerns of skin roughness, uneven pigmentation, laxity, atrophy, and telangiectasias, can be problematic because of the potential for worsened esthetic outcomes with existing treatments. This study assessed the efficacy and safety of using nonablative fractional laser therapy (FLT) pretreatment with photodynamic therapy (PDT) versus PDT alone for chest rejuvenation. STUDY DESIGN/MATERIALS AND METHODS: In a randomized, evaluator-blinded, split-sided study, adult female patients with photodamage to the chest received three treatment courses over an 8-week period with follow-up visits at Weeks 12 and 20. FLT was applied to one side of the chest, randomly assigned at baseline, followed by aminolevulinic acid-based PDT, delivered using a thermal, short incubation, broad area technique, to both sides of the chest. In-person and photographic assessments were conducted using five-point scales to evaluate outcomes including rhytides, pigmentation, skin texture, and telangiectasias. RESULTS: Eleven adults completed the study, of whom 11 had improved scores for rhytides and 10 had improved scores for skin texture at Week 20. There was no significant difference in any efficacy outcome between FLT and PDT and standard PDT alone. The severity of adverse events was rated significantly greater with the combined FLT-PDT treatment vs PDT alone. CONCLUSIONS: Significant improvements were observed vs baseline for both sides of the chest treated with FLT-PDT or standard PDT following three treatment sessions. No significant difference in efficacy was observed between treatment approaches, although adverse events were more severe on the FLT-pretreated side. This study was not registered as it qualified as a nonsignificant risk study. Lasers Surg. Med. © 2019 The Authors. Lasers in Surgery and Medicine Published by Wiley Periodicals, Inc.

Role of HYBID (Hyaluronan Binding Protein Involved in Hyaluronan Depolymerization), Alias KIAA1199/CEMIP, in Hyaluronan Degradation in Normal and Photoaged Skin.

Photoaged skin is characterized clinically by apparent manifestations such as wrinkles and sagging, and histologically by an accumulation of abnormal elastin and a severe loss of collagen fibers in the dermis. Quantitative and qualitative alterations in elastin and collagens are considered to be responsible for the formation of wrinkles and sagging. However, since the integrity of elastin and collagen fibers in the dermis is maintained by their interactions with hyaluronan (HA) and a proteoglycan network structure, HA degradation may be the initial process, prior to the breakdown of the fibrillary components, leading to wrinkles and sagging in photoaged skin. We have recently discovered a new HA-degrading mechanism mediated by HYBID (hyaluronan binding protein involved in hyaluronan depolymerization), alias KIAA1199/CEMIP, in human skin fibroblasts, and examined the implication of HYBID for skin photoaging. In this review, we give an overview of the characteristics of HYBID and its prospective roles in HA turnover in normal skin and excessive HA degradation in photoaged skin. In addition, we describe our data on the inhibition of HYBID activity and expression by plant extracts in skin fibroblasts; and propose novel strategies to prevent or improve photoaging symptoms, such as skin wrinkling, by inhibition of HYBID-mediated HA degradation.

The role of vitamins and supplements on skin appearance.

Skin appearance is affected by intrinsic factors (eg, aging) and extrinsic factors (eg, UV light). A myriad of treatments has been created to combat the phenotypic effects of these forces, including vitamins and supplements. This article reviews these therapies with a focus on carotenoids; vitamins C, E, and D; as well as collagen, ceramides, and mixed supplements.

Clinical factors affecting the efficacy of melasma treatment using the Q-switched 1064 Nd: YAG laser mode in a group of Venezuelan female patients.

The influence of melasma risk factors on the effectiveness of laser toning treatment in Venezuelan females was investigated. Clinical evaluation was performed (n = 64) including ultrasound and thyroid hormone profile. All patients underwent face exposure with laser toning, eight sessions weekly. VISIA percentiles corresponding to dark brown spots determined before and after treatment were compared by ANOVA. Differences between percentile values before and after treatment for each patient were calculated and expressed as percentages. An improvement of ≥30% was considered as significant. Spearman rank correlations between improvement and clinical parameters were determined. A significant increase (p > .005) of the median of the percentiles in the overall group was observed. However, only 62.5% of the patients exhibited an improvement of ≥30% at the right malar, 73.4% at the frontal and 71.8% at the left malar areas. Hormonal contraception during treatment (right malar: p < .0001 left malar: p = .0035), thyroid disorders (right malar: p < .0001; frontal: p = .011; left malar: p < .0001) and photoaging (right malar: p = .0235; frontal: p = .0237; left malar: p = .0137) were inversely associated to melasma improvement after treatment. Prolonged use of sunscreen improved significantly (right malar: p < .001; frontal: p = .016 and left malar: p = .025) treatment effectiveness.

Regulation by walnut protein hydrolysate on the components and structural degradation of photoaged skin in SD rats.

Skin photoaging induced by consecutive exposure of skin to ultraviolet radiation is primarily responsible for skin aging and preparation of food-derived ingredients with anti-aging functions has been the hot topic worldwide. Dietary consumption of food supplements has been found to modulate skin functions and can be useful in the prevention of skin aging. To evaluate the effect of walnut protein hydrolysate (WPH) on photoaged skin, Sprague-Dawley rats (SD rats) were orally administered with WPH and then were regularly exposed to ultraviolet radiation (UV-R). After a consecutive UV-R for 18 weeks, the delaying efficiency of WPH against elasticity degradation was examined and the mechanical mechanism was explored subsequently. The contents of hydroxyproline (Hyp) and hyaluronic acid (HA) in the extracellular matrix (ECM) were measured by biochemical reactions and color rendering procedures; the levels of types I and III collagen (Col I and III) and the activity of matrix metalloproteinase-1 (MMP-1) were detected by enzyme-linked immunosorbent assay (ELISA); the protein levels of elastin and fibrillin-1 were examined by western blotting. Moreover, the histological change in the skin structure was illustrated by hematoxylin & eosin (HE) and Masson staining. The results revealed that WPH evidently enhanced the elasticity of photoaged skin and stimulated the biosynthesis of ECM components Col I, Hyp and HA in the dermal layer; meanwhile WPH inhibited the MMP-1 activity, alleviated epidermal hyperplasia, and repaired the damaged skin mechanical structure in a dose-dependent manner. In particular, in comparison with the UV-R group, the WPH group in which WPH was administered at a high-dose level showed significantly improved skin appearance, ECM components and structure (P < 0.05). Taken together, the elasticity improvement caused by WPH against the skin photoaging process can be attributed to the regulation of the metabolism of the components and repair of the damaged mechanical structure of the ECM. This research proved the potential of WPH as a functional ingredient for the development of anti-photoaging foods.

Agastache rugosa Kuntze Attenuates UVB-Induced Photoaging in Hairless Mice through the Regulation of MAPK/AP-1 and TGF-ß/ Smad Pathways.

Chronic exposure to ultraviolet (UV) radiation, regarded as a major cause of extrinsic aging or photoaging characterized by wrinkle formation and skin dehydration, exerts adverse effects on skin by causing the overproduction of reactive oxygen species. Agastache rugosa Kuntze, known as Korean mint, possesses a wide spectrum of biological properties including antioxidation, anti-inflammation, and anti-atherosclerosis. Previous studies have reported that A. rugosa protected human keratinocytes against UVB irradiation by restoring the anti-oxidant defense system. However, the anti-photoaging effect of A. rugosa extract (ARE) in animal models has not yet been evaluated. ARE was orally administered to hairless mice at doses of 100 or 250 mg/kg/day along with UVB exposure for 12 weeks. ARE histologically improved UVB-induced wrinkle formation, epidermal thickening, erythema, and hyperpigmentation. In addition, ARE recovered skin moisture by improving skin hydration and transepidermal water loss (TEWL). Along with this, ARE increased hyaluronic acid levels by upregulating HA synthase genes. ARE markedly increased the density of collagen and the amounts of hydroxypoline via two pathways. First, ARE significantly downregulated the mRNA expression of matrix metalloproteinases responsible for collagen degradation by inactivating the mitogen-activated protein kinase/activator protein 1 pathway. Second, ARE stimulated the transforming growth factor beta/Smad signaling, consequently raising the mRNA levels of collagen-related genes. In addition, ARE not only increased the mRNA expression of antioxidant enzymes but also decreased inflammatory cytokines by blocking the protein expression of nuclear factor kappa B. Collectively, our findings suggest that A. rugosa may be a potential preventive and therapeutic agent for photoaging.

Polypeptides extracted from Eupolyphaga sinensis walker via enzymic digestion alleviate UV radiation-induced skin photoaging.

The traditional medicine-Eupolyphaga sinensis walker is a rich source of functional proteins and peptides. In this study, Eupolyphaga sinensis walker were identified to include fifteen amino acids, of which hydrophobic amino acids accounted for 46.7%. Eupolyphaga sinensis walker polypeptides (EPs) were extracted by sequentially hydrolyzing with pepsin and trypsin. EPs could effectively scavenge 1,1-diphenyl-2-picrylhydrazyl radical (DPPH·), superoxide anion radical (O2-), and hydroxyl radical (OH-), and reduce ferric solution in vitro. EPs also enhanced the activities of Ssuperoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (GPH-Px), increased the contents of hydroxyproline (HYP), and reduced the content of Malondialdehyde (MDA) in photoaged mice skin. Histological study confirmed that EPs improved UV irradiation-induced damage of skin texture and morphology. Therefore, the extracted EPs are effective antioxidants and can serve as powerful treatment for skin photoaging.

Protective effect of Juglans regia L., against ultraviolet-B induced photoaging in human epidermal keratinocytes.

Solar ultraviolet-B radiation (UVB) has severe adverse effects on the structure and functions of the skin. Although, UVB (290-320 nm) represents only 5-10% of UV light reaching earth's surface, its contribution towards photoaging is tremendous. In this present study was investigate the photoprotective effect of methanolic extract of the male flower of J. regia L. (MEJR) against UVB induced photoaging in human epidermal keratinocytes (HaCaT). Cells were exposed to UVB-irradiation at a dose of 20 mJ/cm2, induces the activation of several signaling pathways which are associated with oxidative stress and photoaging. A single dose of UVB irradiation increased the protein and mRNA expression of MAPKs, AP-1, MMPs, Smad7 and decreased expression of TIMP-1/2, TGF-ß1, Smad3, procollagen type-1 in HaCaT cells. In contrast, pretreatment of MEJR (80 µg/ml) prior to UVB-irradiation significantly prevented the overexpression of MAPKs, AP-1, MMPs, Smad7 and decreased expression of TIMP-1/2, TGF-ß1, Smad3 and procollagen type-1 in HaCaT cells. Moreover, pretreatment of MEJR (80 µg/ml) prior to UVB-irradiation significantly prevents apoptosis in sub Go-phase. Thus, MEJR protects UVB-mediated photoaging in human skin cells, by modulating the expression of photoaging markers. The protection might be because of the presence of the good amount of bioactive compounds in MEJR.