Clinical efficacy of intradermal type Ⅰ collagen injections in treating skin photoaging in patients from high-altitude areas

BACKGROUND Photoaging,a result of chronic sun exposure,leads to skin damage and pigmentation changes.Traditional treatments may have limitations in high-altitude areas like Yunnan Province.Intradermal Col Ⅰ injections stimulate collagen production,potentially improving skin quality.This study aims to assess the efficacy and safety of this treatment for photoaging.AIM To evaluate the efficacy and safety of intradermal typeΙcollagen(ColΙ)injection for treating photoaging.METHODS This prospective,self-controlled study investigated the impact of intradermal injections of ColΙon skin photodamage in 20 patients from the Yunnan Province.Total six treatment sessions were conducted every 4 wk±3 d.Before and after each treatment,facial skin characteristics were quantified using a VISIA skin detector.Skin thickness data were assessed using the ultrasound probes of the Dermalab skin detector.The Face-Q scale was used for subjective evaluation of the treatment effect by the patients.RESULTS The skin thickness of the right cheek consistently increased after each treatment session compared with baseline.The skin thickness of the left cheek significantly increased after the third through sixth treatment sessions compared with baseline.The skin thickness of the right zygomatic region increased after the second to sixth treatment sessions,whereas that of the left zygomatic region showed a significant increase after the fourth through sixth treatment sessions.The skin thickness of both temporal regions significantly increased after the fifth and sixth treatment sessions compared with baseline(P<0.05).These findings were also supported by skin ultrasound images.The feature count for the red areas and wrinkle feature count decreased following the treatment(P<0.05).VISIA assessments also revealed a decrease in the red areas after treatment.The Face-QSatisfaction with Facial Appearance Overall and Face-Q-Satisfaction with Skin scores significantly increased after each treatment session.The overall appearance of the patients improved after treatment.CONCLUSION Intradermal ColΙinjection improves photoaging,with higher patient satisfaction and fewer adverse reactions,and could be an effective treatment method for populations residing in high-altitude areas.

Analysis of the expression profile of miRNAs related to skin photoaging in the GEO database

Background:Skin aging has recently gained significant attention in both society and skin care research.Understanding the biological processes of photoaging caused by long-term skin exposure to ultraviolet radiation is critical for preventing and treating skin aging.Therefore,it is important to identify genes related to skin photoaging and shed light on their functions.Methods:We used data from the Gene Expression Omnibus(GEO)database and conducted bioinformatics analyses to screen and extract microRNAs(miRNAs)and their downstream target genes related to skin photoaging,and to determine possible biological mechanisms of skin photoaging.Results:A total of 34 differentially expressed miRNAs and their downstream target genes potentially related to the biological process of skin photoaging were identified.Gene Ontology enrichment analysis and Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis showed that these target genes were enriched in pathways related to human papillomavirus infection,extracellular matrix(ECM)-receptor signaling,estrogen receptor,skin development,epidermal development,epidermal cell differentiation,keratinocyte differentiation,structural components of the ECM,structural components of the skin epidermis,and others.Conclusion:Based on the GEO database-derived findings,we determined that target genes of two miRNAs,namely miR-4667-5P-KRT79 and miR-139-5P-FOS,play an important role in skin photoaging.These observations could provide theoretical support and guidance for further research on skin aging-related biological processes.

An anti-aging skin strategy:promoting repair and regeneration in UV-induced photoaging micro-environment using growth factors-rich platelet lysates composite Self-protection Collagen Hydrogel

Skin photoaging is induced and sustained by UV-induced oxidative damage,and stimulating regeneration of the UV-induced aging has remained a great challenge due to high-level oxidative stress factor(ROS)-induced chronic oxidative damage and inactivation of bio-macromolecule-based regeneration in oxidative photoaging micro-environment.In this study,we designed a“seed and soil”strategy to pursue a safer and more efficient way to prevent and treat photoaging by simultaneously changing UV-induced ROS-rich micro-environment into a proregenerative one(the“soil”)and providing growth factor-rich platelet lysates(PL,the“seed”)using PL-impregnated,collagen-reinforce hydrogel(PL/Col).SD rats were used to establish photoaging model by 8 weeks of UV irradiation.The effectiveness of different treatments was evaluated by making pathological sections and detecting photoaging-related indicators.Rats treated with PL/Col demonstrated a significant acceleration in skin healing and enhancement in the quality of trauma repairing.After treated with PL/Col,the rats showed smooth yellowish appearance,integral structure of skin collagen fiber and epidermis,a decrease in inflammation and a reshaped active micro-environment with reduced levels of SOD enzyme activity,GSH enzyme activity and MDA toxic products.Treatment of PL/Col in skin photoaging has shown potential anti-oxidation and anti-aging effects and is worthy of further study in related field.

Study on the clinical effect and safety of Kangfuxin liquid combined with microneedling in the treatment of facial skin photoaging

Background and Objectives:Microneedling has been introduced as a new technique to address the growing concern of facial skin photoaging.Kangfuxin liquid has been found to promote the process of skin wound repair,including reducing inflammatory response,improving immunity and enhancing antioxidant levels.In this prospective randomized double-blinded study,we wanted to explore the clinical efficacy and safety of Kangfuxin liquid combined with microneedling in treating facial skin photoaging.Methods:57 patients with facial skin photoaging were randomly divided into two groups.The treatment group(28 cases)received microneedle therapy with Kangfuxin liquid,while the control group(29 cases)received microneedle therapy with physiological saline.The treatment interval was 4 weeks,and a total of 3 treatments were performed.Compare the VISIA scores of facial photoaging features such as wrinkles,texture,pores,spots and ultraviolet pigmentation between two groups of patients before and after treatment,Global Score for Photoaging,satisfaction evaluation,and record the occurrence of adverse reactions.Results:After treatment,the treatment group showed more significant improvement in wrinkles,texture,pores,spots and ultraviolet pigmentation,and the Global Score for Photoaging was better than the control group(P<0.05).The satisfaction rate with improving skin in the treatment group was 85.71%,which was higher than 75.86%in the control group(P<0.05).Both groups did not experience adverse reactions such as skin infection,pigmentation or hypopigmentation,scar formation,or worsening of melasma.Conclusion:Kangfuxin liquid combined with microneedling therapy has a good improvement effect on facial skin photoaging,with a low incidence of adverse reactions and high patient satisfaction.It is worthy of clinical promotion.

Differences in the Histopathology and Cytokine Expression Pattern between Chronological Aging and Photoaging of Hairless Mice Skin

Skin photoaging is a complex, multifactorial process resulting in functional and structural changes of the skin, and different phenotypes from chronological skin aging are well-recognized. Ultraviolet (UV)-irradiated hairless mice have been used as a skin photoaging animal model. However, differences in morphology and gene expression patterns between UV-induced and chronological skin changes in this mouse model have not been fully elucidated. Here we investigated differences in histopathology and cytokine expression between UV-irradiated and non-irradiated aged hairless mice to clarify the factor(s) that differentiate photoaging from chronological skin aging phenotypes. Eight-week-old HR-1 hairless mice were divided into UV-irradiated (UV-irradiated mice) and non-irradiated (control mice) groups. Irradiation was performed three times per week for 10 weeks. In addition, 30-week-old HR-1 hairless mice were reared until 70 weeks of age without UV irradiation (aged mice). Histopathologies revealed that the flattening of dermal-epidermal junctions and epidermal thickening were observed only in UV-irradiated mice. Decreases in fine elastic fibers just beneath the epidermis, the thickening of elastic fibers in the reticular dermis, and the accumulation of glycosaminoglycans were more prominent in UV-irradiated mice as compared to non-irradiated aged mice. Quantitative PCR analyses revealed that UV-irradiated mice showed an increase in the expression of IFN-γ. In contrast, aged mice exhibited proportional up-regulation of both pro-inflammatory and anti-inflammatory cytokines. The IFN-γ/IL-4 ratio, an indicator for the balance of pro-inflammatory and anti-inflammatory cytokines, was significantly higher in UV-irradiated mice as compared to control and non-irradiated aged mice. An elevated IFN-γ/IL-4 ratio was also observed in aged senescence-accelerated mouse-prone 1 (SAMP1) mice, a spontaneous skin photoaging model we recently reported. Thus, an imbalance between pro-inflammatory and anti-inflammatory cytokines might be a key factor to differentiate photoaged skin from chronologically-aged skin.

Validation of a Questionnaire to Diagnose the Baumann Skin Type in All Ethnicities and in Various Geographic Locations

The Baumann Skin Typing System diagnoses patients as having one of 16 skin types based on their answers to a validated questionnaire [i] known as the Baumann Skin Type Indicator [ii]. The BSTI questionnaire has been tested over the last decade on over 200,000 people of various ages and ethnicities in different geographic locations around the world. In this study, data were collected from 52,862 patients to compare skin type prevalence between those who presented to doctor’s offices and those who took the quiz without supervision online. The most common skin types varied only slightly between patients that took the quiz online and those that completed the questionnaire in their doctor’s office. This indicates that the prevalence of skin types seen in the doctor’s office is similar to that in the general population and that supervision is not necessary to get an accurate result on the BSTI. [iii] In addition, comparison of data gathered in China, Korea, and the US did not show a significant difference in skin type prevalence between Asian and Caucasian skin types. [iv] This study demonstrates that the English version of the BSTI is valid for English speaking patients online, and in doctors’ offices in the US, China and Korea.

Protective Effect of Gelatin and Gelatin Hydrolysate from Salmon Skin on UV Irradiation-Induced Photoaging of Mice Skin

The objective of this study was to investigate the effect of gelatin(SG) isolated from salmon skin and its hydrolysate(SGH) on photoaging skin, and the mechanism responsible for anti-photoaging. The average molecular weights of SG and SGH were 65 k Da and 873 Da, respectively. The amino acid compositions of SG and SGH were similar. Both of them were abundant in hydrophobic amino acids. Twenty-five peptides were identified from SGH. SG and SGH could improve UV irradiation-induced pathological changes of macroscopical tissue texture and skin morphology. Hydroxyproline content is an indicator of matrix collagen content, SG and SGH could inhibit the decrease of hydroxyproline content in photoaging skin in a dose dependent manner. In addition, SG and SGH could alleviate UV irradiation-induced oxidative damages to skin by increasing the activities of total superoxide dismutase(T-SOD), glutathione peroxidase(GSH-Px) and catalase(CAT), increasing the content of glutathione(GSH) and decreasing the content of malonaldehyde(MDA). Moreover, SG and SGH could enhance immune regulation system by increasing the thymus index. Thus, the anti-photoaging mechanisms of SG and SGH were by inhibiting the depletion of antioxidant defense components, involving in the synthesis of collagen and enhancing the function of immune system. Besides, SGH showed a better result in protecting skin from photoaging than SG.

The bibenzyl derivatives of Dendrobium officinale prevent UV-B irradiation induced photoaging via SIRT3

Dendrobium officinale is a valuable medicinal herb that is widely used in traditional Chinese medicine.The chemical constituents of D.officinale have attracted much attention and a large number of compounds have been reported including many bibenzyl derivatives.13 bibenzyl derivatives from D.officinale were sent for molecular docking,sur-face plasmon resonance(SPR)assay and after detection of Mn-SOD and SIRT3 activities in or not in HaCaT cells,it was concluded that bibenzyl derivatives did not directly activate Mn-SOD but promoted SIRT3 proteins.In addition,HaCaT cells were irradiated with UV-B to induce an oxidative stress model in vitro to further verify the effect of bibenzyl derivatives.The results show that bibenzyl derivatives could directly bind to SIRT3,enhance the deacetylation and then activate Mn-SOD,so as to protect UV-B induced skin photoaging.

The effects of reactive oxygen species in the process of skin photoaging

Skin is the largest organ of human body and it protects the organism from external stimuli.Skin will age as the organism ages in normal circumstances.Skin photoaging refers to the accumulation of ultraviolet radiation due to long-term exposure to sunlight,which results in the premature aging of skin,wrinkles,pigmentation,skin laxity,and other signs of aging.The increase in the level of reactive oxygen species(ROS)induced by ultraviolet radiation,which causes the oxidation of cells,proteins,lipids,and other components,is an important cause of accelerated photoaging of skin.For this reason,the skin's antioxidant system will further play an antioxidant role to reduce oxidative damage by inhibiting ROS production,breaking down ROS,and degrading oxides.Therefore,it is important to understand the mechanism of skin damage caused by Ultraviolet radiation,the effects of reactive oxygen species and how the body's antioxidant system exerts its antioxidant effect.This will not only deepen the understanding of skin photoaging but also provide a scientific basis for the research on how to prevent and treat photoaging.

Vitamin C, Grape Seed Extract and Citrus Bioflavonoids Protect the Skin against Photoaging: A Review

The skin is a major protective organ of the body. It is constantly exposed to the environment and is very resilient. But exposure to ultraviolet (UV) rays from the sun results in the production of reactive oxygen species (ROS) and subsequent inflammatory responses that can overwhelm the innate protective mechanisms of the skin. This results in damage and premature aging. Strategies to mitigate this premature photoaging might include avoidance of sunlight. However, some sunlight exposure is beneficial to health. One notable example of this is the production of vitamin D. A more practical approach to preventing adverse effects of UV light in the skin is antioxidant supplementation. Dietary antioxidants may help control ROS propagation following UV light exposure. To further evaluate the utility of antioxidants in protecting the skin, in vitro, in vivo and human studies of three well known dietary antioxidants are reviewed and discussed. The data clearly demonstrate that vitamin C, grape seed extract and citrus bioflavonoids have the potential to reduce the damaging effects of excess sun exposure via antioxidant, anti-inflammatory and immunomodulating mechanisms. As such, regular ingestion of dietary antioxidants appears to be a useful strategy for protecting the skin against photoaging.

Effects of a New Human Recombinant MnSOD in the Treatment of Photoaging and Actinic Keratosis

Physiological processes, as aerobic metabolism and inflammatory response, generate reactive oxygen species (ROS) that may induce cellular injury when their amount is increased and antioxidant defense mechanisms are overwhelmed. Also, ROS are generated following UV skin irradiation able to deplete the natural antioxidant defenses in the skin. The increase in exposure to UV may lead to photoaging and precancerous skin lesions (actinic keratosis). New antioxidant strategies in the prevention and therapy of skin lesions are urgently needed. In this study, we evaluated the antioxidant efficacy of a recombinant form of human manganese superoxide dismutase able to inhibit reactive oxygen species production in some patients affected by severe photoaging and actinic keratosis.

Impact of near-infrared radiation in dermatology

Sunlight that reaches the human skin contains solar energy composed of 6.8%ultraviolet(UV),38.9%visible light and 54.3%infrared radiation.In addition to natural near-infrared(NIR),human skin is increasingly exposed to artificial NIR from medical devices and electrical appliances.Thus,we are exposed to tremendous amounts of NIR.Many studies have proven the effects of UV exposure on human skin and skin cancers but have not investigated well the effects of NIR exposure.Furthermore,many of the previous NIR studies have used NIR resources without a water filter or a contact cooling.With these resources,a substantial amount of NIR energy is absorbed in the superficial layers and only limited NIR energy can be delivered to deeper tissues.Thus,they could not sufficiently evaluate the effects of incident solar NIR.In order to simulate solar NIR that reaches the skin,a water filter is essential because solar NIR is filtered by atmospheric water.In reality,NIR increases the surface temperature and induces thermal effects so a contact cooling is needed to pursue the properties of NIR.I clarify that NIR can penetrate the skin and non-thermally affect the subcutaneous tissues,including muscle and bone marrow,using a NIR resource with a water filter and a coolingsystem.I would like to emphasize the biological effects of NIR which have both merits and demerits.Appropriate NIR irradiation induces dermal heating thermally and non-thermally induces collagen and elastin stimulation,which results in skin tightening.NIR also induces non-thermal DNA damage of mitotic cells,which may have the potential application for treating cancer.However,as continuous NIR exposure may induce photoaging and potentially photocarcinogenesis,we should consider the effect of,not only UV,but also NIR and the necessity for protection against solar NIR.Here,this paper introduces the new aspects of the biological effects of NIR radiation.

Selected Medicinal Herbs and Functional Peptides for Protection against Photoaging of the Skin

Photoaging is an accelerating aging process of the skin due to prolonged exposure to UV from the Sun or other sources. Herbal extracts, natural compounds, and bioactive polypeptides have widely used in cosmetic agents for protection of the skin against photoaging. This mini review briefly summarizes topical use of selected most common medicinal herbs, naturopathic chemicals, and bioactive peptides examined for skin protection.

Study on the Photoprotection Effect of A Composition of Hyaluronic Acid and Ectoine

Photoprotection effect of the hyaluronic acid and ectoine composition was studied by evaluated its effects on inhibiting oxidative stress and MMP-1 production,ROS scavenging ability and promoting collagen synthesis in skin cells under blue light irradiation.The result show that the composition is non-toxic to keratinocytes within a concentration of 5%.And the sample can significantly inhibit the increase of reactive oxygen species(ROS)caused by blue light irradiation at a concentration of 2%,and can also repaire the damaged skin by scavenge oxygen free radicals.At the same time,the composition can inhibit the increase of MMP-1 caused by blue light irradiation,so as to have the effect of inhibiting the decomposition of collagen and promoting the secretion of Collagen I.

Photoaging mechanism of microplastics:a perspective on the effect of dissolved organic matter in natural water

Plastic products widespread in natural water can be broken into smaller-sized microplastics(MPs,<5 mm)under light irradiation,thermal degradation and biodegradation,posing a serious threat to aquatic ecosystems and human health.This perspective concludes that MPs can generate reactive oxygen species(ROS)through initiation,propagation and termination steps,which can attack the polymer resulting in the photoaging and breakdown of C–C and C–H bonds under ultraviolet(UV)irradiation.Free radical generation and weathering degree of MPs depend on their physicochemical properties and environmental conditions.In general,UV irradiation and co-existed MPs can significantly accelerate MP photoaging.With plentiful chromophores carbonyl,carboxyl and benzene rings,Dissolved organic matter(DOM)mainly absorbs photons(300–500 nm)and generates hydrated electrons,^(3)DOM^(*) and ROS,which may affect MP photoaging.However,whether DOM may transfer the electron and energy to MPs under UV irradiation,affect ROS generation of MPs and their photoaging pathway are inadequately studied.More studies are needed to elucidate MP photoaging pathways and mechanisms,consider the influence of stabilization capacity,photosensitization and photoionization of DOM as well as their competitive light absorption with MPs,which provides valuable insights into the environmental behavior and ecological risk of MPs in natural water.

α-Ionone protects against UVB-induced photoaging in epidermal keratinocytes

Objective: To evaluate whether α-ionone, an aromatic compound mainly found in raspberries, carrots,roasted almonds, fruits, and herbs, inhibits UVB-mediated photoaging and barrier dysfunction in a human epidermal keratinocyte cell line(HaCaT cells).Methods: The anti-photoaging effect of α-ionone was evaluated by detecting the expression of barrierrelated genes and matrix metalloproteinases(MMPs) in HaCaT cells. The levels of reactive oxygen species,oxidation product, antioxidant enzyme, and inflammatory factors were further analysed to underline the protective effect of α-ionone on epidermal photoaging.Results: It was found that α-ionone attenuated UVB-induced barrier dysfunction by reversing keratin 1and filaggrin in HaCaT cells. α-Ionone also reduced the protein amount of MMP-1 and mRNA expression of MMP-1 and MMP-3 in UVB-irradiated HaCaT cells, implying protective effects on extracellular matrix.Furthermore, HaCaT cells exposed to α-ionone showed significant decreases in interleukin(IL)-1β, IL-6,IL-8, and tumor necrosis factor-α as compared to UVB-irradiated HaCaT cells. α-Ionone treatment significantly inhibited the UVB-induced intracellular reactive oxygen species increase and malondialdehyde accumulation. Therefore, the beneficial effects of α-ionone on inhibiting MMPs secretion and barrier damage may be related to attenuated inflammation and oxidative stress.Conclusion: Our results highlight the protective effects of α-ionone on epidermal photoaging and promote its clinic application as a potential natural anti-photodamage agent in future.

Changes of cathepsin B in human photoaging skin both in vivo and in vitro

Background Cathepsin B plays an important role tumorigenesis： whether it plays a role in photoaged skin cathepsin B in skin photoaging in vivo and in vitro. n cell cycle, extracellular matrix changes and cutaneous remains unknown. This study aimed to investigate the role of Methods The expressions of cathepsin B were compared with immunohistochemical methods in solar exposed skin and solar protected skin of six healthy Chinese volunteers. The mRNA and protein expression of cathepsin B in ultraviolet light A （UVA） induced premature senescence fibroblasts in vitro were detected by real-time reverse transcription polymerase chain reaction （RT-PCR） and Western blotting technique. Results Decreased expression of cathepsin B was observed in photoaged skin compared with that of the solar protected skin. In the UVA induced, premature senescence fibroblasts, a lower expression of cathepsin B was detected by Western blotting and a decreased synthesis of cathepsin B mRNA in the same cells was revealed by real-time RT-PCR. Conclusions The results demonstrated a significant negative correlation between skin photoaging and cathepsin B in vitro and in vivo. We propose that cathepsin B, besides matrix metalloproteinases and antioxidant enzymes, is involved in the process of skin photoaging in that it contributes to extracellular matrix remodelling and is a dominant protease in cellular apoptosis and senescence.

Ultraviolet A Enhances Cathepsin L Expression and Activity via JNK Pathway in Human Dermal Fibroblasts

Background： Cathepsin L （CatL） is a cysteine protease with strong matrix degradation activity that contributes to photoaging. Mannose phosphate-independent sorting pathways mediate ultraviolet A （UVA）-induced alternate trafficking of CatL. Little is known about signaling pathways involved in the regulation of UVA-induced CatL expression and activity. This study aims to investigate whether a single UVA irradiation affects CatL expression and activity and whether mitogen-activated protein kinase （MAPK）/activator protein- 1 （AP- 1 ） pathway is involved in the regulation of UVA-induced CatL expression and activity in human dermal fibroblasts （HDFs）. Methods： Primary HDFs were exposed to UVA. Cell proliferation was determined by a cell counting kit. UVA-induced CatL production and activity were studied with quantitative real-time reverse transcription polymerase chain reaction （RT-PCR）, Western blotting, and fluorimetric assay in cell lysates collected on three consecutive days after irradiation. Time courses of UVA-activated JNK and p38MAPK signaling were examined by Western blotting. Effects ofMAPK inhibitors and knockdown of dun and Fos on UVA-induced CatL expression and activity were investigated by RT-PCR, Western blotting, and fluorimetric assay. Data were analyzed by one-way analysis of variance. Results： UVA significantly increased CatL gene expression, protein abundance, and enzymatic activity for three consecutive days after irradiation （F = 83.11, 56.14, and 71. 19, respectively; all P 〈 0.05）. Further investigation demonstrated phosphorylation of JNK and p38MAPK activated by UVA. Importantly, inactivation of JNK pathway significantly decreased UVA-induced CatL expression and activity, which were not affected by p38MAPK inhibition. Moreover, knockdown of dun and Fos significantly attenuated basal and UVA-induced CatL expression and activity. Conclusions： UVA enhances CatL production and activity in HDFs, probably by activating JNK and downstreaming AP- 1. These findings provide a new possible molecular approach for antiphotoaging therapy.

Chyawanprash,a formulation of traditional Ayurvedic medicine,shows a protective effect on skin photoaging in hairless mice

OBJECTIVE： Chronic exposure to ultraviolet （UV） radiation induces skin photoaging （premature skin aging）. UV irradiation generates reactive oxygen species （ROS）, which are shown to play a pivotal role in skin photoaging. Ayurveda is a holistic traditional medical system, and Chyawanprash is one of the most popular formulations in Ayurveda. Since maintenance of the function and appearance of skin is important, we examined whether Chyawanprash has a protective effect on skin photoaging. METHODS： To examine the effect of Chyawanprash on skin photoaging, hairless mice were administered with Chyawanprash in drinking water for 3 weeks, and then repeatedly exposed to ultraviolet light B （UVB） irradiation （225 or 450 mJ/cm2） to induce skin photoaging. To further examine the function of Chyawanprash, its effects were examined in cells cultured in vitro. Chyawanprash was added in culture medium, and examined for the effect on the growth of human keratinocytes, and for the ability to eliminate ROS which generated by paraquat （50 μmol/L） in HeLa cells. RESULTS： UVB irradiation caused symptoms such as rough skin, erythema, and edema on the skin in hairless mice, but administration of Chyawanprash relieved these symptoms. Further, Chyawanprash significantly suppressed epidermal thickening, a typical marker of skin photoaging, in mice. We then analyzed the effect of Chyawanprash in human cells in culture, and found that Chyawanprash enhanced the growth of human keratinocytes, and efficiently eliminated ROS, which are causally involved in skin photoaging, in HeLa cells. CONCLUSION： These findings suggested that Chyawanprash may have beneficial effects on slowing skin photoaging.

Exploration of sea anemone-inspired high-performance biomaterials with enhanced antioxidant activity

Antioxidant biomaterials have attracted much attention in various biomedical fields because of their effective inhibition and elimination of reactive oxygen species(ROS)in pathological tissues.However,the difficulty in ensuring biocompatibility,biodegradability and bioavailability of antioxidant materials has limited their further development.Novel bioavailable antioxidant materials that are derived from natural resources are urgently needed.Here,an integrated multi-omics method was applied to fabricate antioxidant biomaterials.A key cysteine-rich thrombospondin-1 type Ⅰ repeat-like(TSRL)protein was efficiently discovered from among 1262 adhesive components and then used to create a recombinant protein with a yield of 500 mg L^(-1).The biocompatible TSRL protein was able to self-assemble into either a water-resistant coating through Ca^(2+)-mediated coordination or redox-responsive hydrogels with tunable physical properties.The TSRL-based hydrogels showed stronger 1,1-diphenyl-2-picrylhydrazyl(DPPH)radical scavenging rates than glutathione(GSH)and ascorbic acid(Aa)and protected cells against external oxidative stress significantly more effectively.When topically applied to mice skin,TSRL alleviated epidermal hyperplasia and suppressed the degradation of collagen and elastic fibers caused by ultraviolet radiation B(UVB)irradiation,confirming that it enhanced antioxidant activity in vivo.This is the first study to successfully characterize natural antioxidant biomaterials created from marine invertebrate adhesives,and the findings indicate the excellent prospects of these biomaterials for great applications in tissue regeneration and cosmeceuticals.