Search Results (692)

Photoaging is a multifactorial and progressive skin aging process primarily triggered by prolonged exposure to ultraviolet (UV) radiation. This condition leads to both structural and functional impairments in the skin, including the formation of wrinkles, loss of elasticity, pigmentation irregularities, and an elevated risk of skin malignancies. At the core of photoaging is the accumulation of reactive oxygen species (ROS), which generate oxidative stress, initiate chronic inflammation, cause DNA damage, and accelerate the breakdown of the extracellular matrix—largely through the activity of matrix metalloproteinases (MMPs). The review provides a comprehensive analysis of various natural substances, including antioxidants, anti-inflammatory agents, photoprotective compounds, and emerging regenerative treatments, based on in vitro and in vivo research. Special emphasis is placed on natural substances, including polyphenols, cannabinoids, carotenoids, retinoids, and vitamins, highlighting their potential in preventing and treating photoaging. This review aims to present a detailed, evidence-based overview of photoaging mechanisms and innovative approaches to mitigate its effects. Full article

Although epidermal growth factor (EGF) has potential wide applications in the cosmetic industry, it still has limitations, such as a costly purification process and low stability in the surrounding environment. To overcome these limitations, we developed genetically modified Pediococcus pentosaceus CBT SL4, which can secrete EGF protein in growth media, thereby producing probiotic-derived PP-EGF culture medium supernatant (PP-EGF-SUP). Even at low EGF concentrations, PP-EGF-SUP exhibited EGF activities, such as cell scratch wound healing, tyrosinase inhibition, and improvements in anti-wrinkle factors, similar to or stronger than those of recombinant human EGF (rhEGF), which was used as a positive control. PP-EGF-SUP exhibited strong additional biological activities, such as antioxidant, anti-inflammatory, and anti-microbial activities, even though rhEGF did not have such properties. PP-EGF-SUP could be easily transformed to PP-EGF-SUP dried powder (PP-EGF-DP) using the freeze-drying method, and it could also be well resolved in water up to 20 mg/mL; furthermore, it still maintained its bioactivity after the manufacturing process. To determine melasma improvement efficacy, a human application test was performed using melasma ampoules containing 1% or 5% PP-EGF-DP formulations for four weeks. When comparing the melasma values before and after treatment, it was found that the light melasma value statistically decreased by 3.38% and 3.79% and that the dark melasma value statistically decreased by 1.74% and 2.93% in the test groups applying the 1% and 5% PP-EGF-DP melasma ampoules, respectively. In addition, the melasma area also decreased by 21.21% and 29.1%, while the control group showed no statistical difference. During the study period, no significant adverse skin reactions were observed due to the application of the PP-EGF-DP melasma ampoule. In conclusion, PP-EGF-DP may offer unique advantages in the cosmetic ingredient market, such as safety (as a probiotic derivative), stability (postbiotics protect EGF activity), and diverse bioactivities (activity potentiation and postbiotic-derived biological activities). Full article

Wound healing is a complex process in which TGFβ plays a key role. Previous studies have shown that syringin, a phenylpropanoid glycoside present in lilac bark (Syringa vulgaris L.), stimulates TGFβ expression in human monocyte-derived macrophages in addition to inhibiting the secretion of pro-inflammatory cytokines. Here, we investigated the effect of syringin on migration, invasion, and TGFβ production, as well as the effect on the release of pro-inflammatory cytokines in human dermal fibroblasts (NHDF) and keratinocytes (HaCaT) and its mechanism of action. NHDF and HaCaT cells were treated with the tested compound (12.5–100 µM), and a scratch assay was performed. The effect of migration using modified Boyden chambers was analyzed. TGFβ and IL-6 release were also assessed using ELISA kits. Cell proliferation was assessed using MTT and BrdU incorporation tests, while cytotoxicity was assessed using a neutral red uptake test. Smad2 and Smad3 phosphorylation were assessed using Western Blotting. ACTA2, COL1A1, and TIMP3 expression was analyzed using qPCR. Cells treated with syringin showed an increase in invasion potential in the scratch assay. A significant increase in skin fibroblast migration through the porous membrane was also observed. Syringin increased TGFβ release and inhibited IL-6 release by NHDF and HaCaT cells. No effect of syringin on cell proliferation or cytotoxic effects was observed. Western blot analysis showed significant activation of Smad2 and Smad3 in the presence of syringin in NHDF cells, but not in HaCaT. Quantitative PCR analysis revealed a strong increase in ACTA2 and COL1A1 gene expression in fibroblast cells treated with syringin. The present study demonstrated that syringin present in S. vulgaris stem bark increased dermal fibroblasts and keratinocytes’ wound healing function through activation of cell migration. Full article

Skin aging is a complex biological process influenced by intrinsic factorssuch as genetic predispositions and hormonal changes as well as extrinsic factors including ultraviolet radiation, environmental pollution, and lifestyle habits. This process culminates in a progressive decline in the structural and functional integrity of the skin. This review delves into the protective roles of carotenoids, highlighting their significant anti-oxidative, anti-inflammatory, and photoprotective properties. We included studies that investigated the effects of dietary or topical carotenoids on skin aging markers in human and animal models. Eligible studies were identified through searches of PubMed, Scopus, Web of Science, Embase, Google Scholar, and the Cochrane Library from January 2000 to March 2025. Risk of bias was assessed using the Cochrane RoB tool for randomized trials and animal studies. A total of 176 studies were included, and data were synthesized narratively due to heterogeneity in study designs and outcomes. The findings indicate that carotenoids mitigate oxidative stress-induced cellular damage by scavenging reactive oxygen species (ROS) and Reactive Nitrogen Species (RNS), attenuating chronic inflammation, and enhancing dermal matrix integrity via collagen biosynthesis and modulation of matrix metalloproteinases. Additionally, they support skin hydration and elasticity by indirectly regulating aquaporins and promoting hyaluronic acid synthesis. This review further explores emerging strategies that incorporate carotenoid supplementation in lifestyle medicine and preventive dermatology. By elucidating the cellular pathways through which carotenoids exert their effects and modulate mitochondrial function, this review highlights their translational potential in anti-aging skincare. Ongoing research is essential to comprehend the complex connections between carotenoids, skin physiology, and overall health. This understanding will ultimately facilitate the creation of personalized nutritional and dermocosmetic strategies. Full article

Sleep is crucial to overall health and plays a significant role in skin function. While the circadian rhythm has been extensively researched for its impact on the body’s optimal functioning, the skin also possesses an independent circadian system that serves many important functions. Sleep disruptions or deprivation can significantly affect skin conditions, by compromising the skin barrier and impairing processes such as collagen production, cellular repair, and wound healing. Given the commonality of sleep disturbances, it is crucial to understand the connection between sleep, circadian regulation, and skin health. This is particularly important in understudied populations, such as those with occupational sleep disruption and individuals with hormone-related conditions like PCOS and menopause. Bidirectional relationships have been established between sleep and several inflammatory skin conditions, including atopic dermatitis, psoriasis, rosacea, and hidradenitis suppurativa. While acne is influenced by sleep, the reverse relationship, how acne affects sleep quality, has not been well established. Chronic sleep disruption can increase cortisol levels and oxidative stress, both of which contribute to skin aging and the progression of autoimmune skin conditions, including systemic lupus erythematosus. As sleep is a modifiable risk factor, it is crucial to consider therapeutic options and interventions to prevent or alleviate skin conditions. This review discusses various therapeutic approaches, including melatonin, L-Theanine, Magnesium-L-threonate, Inositol, Cinnamomi cortex, nervous system regulation, and proper sleep hygiene. These therapeutic options have been studied for their impact on sleep, and importantly, several have been evaluated for their utility as adjuncts for treating skin conditions. Overall, the relationship between sleep and skin health is clear, and incorporating sleep-focused therapeutic interventions offers potential to improve both sleep quality and skin health in individuals with a variety of skin conditions. Full article

In recent decades, there has been a marked surge in the development of marine-by-product-derived ingredients for cosmetic applications, driven by the increasing demand for natural, sustainable, and high-performance formulations. Marine animal by-products, particularly those from fish, crustaceans, and mollusks, represent an abundant yet underutilized source of bioactive compounds with notable potential in cosmeceutical innovation. Generated as waste from the fishery and seafood-processing industries, these materials are rich in valuable bioactives, such as chitosan, collagen, peptides, amino acids, fatty acids, polar lipids, lipid-soluble vitamins, carotenoids, pigments, phenolics, and mineral-based substrates like hydroxyapatite. Marine by-product bioactives can be isolated via several extraction methods, and most importantly, green ones. These compounds exhibit a broad spectrum of skin-health-promoting effects, including antioxidant, anti-aging, anti-inflammatory, antitumor, anti-wrinkle, anti-hyperpigmentation, and wound-healing properties. Moreover, applications extend beyond skincare to include hair, nail, and oral care. The present review provides a comprehensive analysis of bioactives obtained from marine mollusks, crustaceans, and fish by-products, emphasizing modern extraction technologies with a focus on green and sustainable approaches. It further explores their mechanisms of action and documented efficacy in cosmetic formulations. Finally, the review outlines current limitations and offers future perspectives for the industrial valorization of marine by-products in functional and environmentally-conscious cosmetic development. Full article

Background/Objectives: Chronic wounds represent a significant clinical and public health challenge due to impaired tissue repair and high associated morbidity. This study investigates the therapeutic potential of the secretome derived from human mesenchymal stem cells obtained from the pulp of deciduous teeth (hDP-MSCs) in promoting skin wound healing. Methods: After confirming the mesenchymal identity and multipotent differentiation potential of hDP-MSCs by using flow cytometry and histological staining, the effects of the secretome on human keratinocyte (HaCaT) cultures were evaluated. Results: Scratch assays, performed under high- and low-glucose conditions, demonstrated that the secretome significantly promoted keratinocyte migration and wound closure without compromising cell viability. Additionally, the secretome modulated the expression of key genes involved in inflammation and tissue regeneration, including IL-1β, TNF-α, TGF-β1, and VEGF-α, in a time-dependent manner. Under inflammatory conditions induced by lipopolysaccharide, co-treatment with the secretome significantly reduced TNF-α expression and increased TGF-β1 expression, suggesting an anti-inflammatory effect. Conclusions: These findings indicate the potential of the hDP-MSC-derived secretome as a promising cell-free therapeutic strategy capable of accelerating skin regeneration and modulating the inflammatory response during the wound healing process. Full article

Alcohol dependency is a complex and chronic condition that negatively impacts multiple organ systems, including the skin. A key pathological factor in this process is oxidative stress, leading to progressive cellular damage, chronic inflammation, and accelerated cutaneous aging. Alcohol metabolism generates reactive oxygen species (ROS), which overwhelm endogenous antioxidant defenses and contribute to a range of skin alterations, including nonspecific changes such as xerosis, erythema, and wrinkle formation, as well as inflammatory and neoplastic skin disorders. Additionally, alcohol-induced alterations of the skin microbiome may further exacerbate skin barrier dysfunction and inflammatory responses. This review explores the biochemical mechanisms and skin microbiome alterations linking alcohol-induced oxidative stress to skin damage and disease. Furthermore, it evaluates the therapeutic potential of antioxidant-based interventions, both natural and synthetic. Antioxidants may offer protective and regenerative effects by scavenging free radicals, modulating inflammatory responses, and enhancing skin barrier function. The paper aims to provide a comprehensive overview of the molecular and microbial interplay between alcohol, oxidative stress, and skin health, while identifying future directions for targeted antioxidant therapy in individuals with alcohol dependency. Full article

Ultraviolet B (UVB) irradiation drives skin photodamage, prompting exploration of natural therapeutics. This study investigated the reparative effects and mechanisms of crude Gastrodia elata polysaccharides (GP) on UVB-induced acute skin damage. GP was extracted from fresh G. elata via water extraction and alcohol precipitation. It is a homogeneous polysaccharide with a weight-average molecular weight of 808.863 kDa, comprising Ara, Glc, Fru, and GalA. Histopathological analysis revealed that topical application of GP on the dorsal skin of mice effectively restored normal physiological structure, suppressing epidermal hyperplasia and collagen degradation. Biochemical assays showed that GP significantly reduced the activities of MPO and MDA following UVB exposure while restoring the enzymatic activities of SOD and GSH, thereby mitigating oxidative stress. Moreover, GP treatment markedly upregulated the anti-inflammatory cytokines TGF-β and IL-10 and downregulated the pro-inflammatory mediators IL-6, IL-1β, and TNF-α, suggesting robust anti-inflammatory effects. Transcriptomics revealed dual-phase mechanisms: Early repair (day 5) involved GP-mediated suppression of hyper inflammation and accelerated necrotic tissue clearance via pathway network modulation. Late phase (day 18) featured enhanced anti-inflammatory, antioxidant, and tissue regeneration processes through energy-sufficient, low-inflammatory pathway networks. Through a synergistic response involving antioxidation, anti-inflammation, promotion of collagen synthesis, and acceleration of skin barrier repair, GP achieves comprehensive repair of UVB-induced acute skin damage. Our findings not only establish GP as a potent natural alternative to synthetic photoprotective agents but also reveal novel pathway network interactions governing polysaccharide-mediated skin regeneration. Full article

Background: Psoriasis, an inflammatory skin disorder, involves pyroptosis—a pro-inflammatory cell death process. However, cell-specific pyroptosis dynamics and immune microenvironment interactions remain unclear. Objective: To investigate cell-type-specific pyroptosis patterns in psoriasis and their immunoregulatory mechanisms. Methods: We integrated 21 transcriptomic datasets (from 2007 to 2020) obtained from the GEO database and two single-cell RNA sequencing datasets to quantify pyroptotic activity using Gene Set Variation Analysis and AUCell algorithms. Immune cell infiltration profiles were evaluated via CIBERSORT, while cell-cell communication networks were analyzed by CellChat. In vitro and in vivo experiments were performed to validate key findings. Results: Our analysis revealed that psoriasis patients exhibited significantly elevated levels of pyroptosis compared to healthy controls, with pyroptotic activity reflecting treatment responses. Notably, monocyte-derived macrophages (MDMs) in psoriatic lesions displayed markedly heightened pyroptotic activity. In vitro experiments confirmed that MDMs derived from psoriasis patients overexpressed pyroptosis-related molecules (Caspase 1 and Caspase 4) as well as pro-inflammatory cytokines (TNFα, IL6, IL1β) when compared to healthy controls. Furthermore, these cells showed increased expression of CXCL16, which might potentially activate Th17 cells through CXCR6 signaling, thereby driving skin inflammation. Inhibition of monocyte migration in an imiquimod-induced psoriasiform dermatitis model significantly alleviated skin inflammation and reduced the proportion of M1 macrophages and Th17 cells in lesional skin. Conclusions: This study revealed that MDMs in psoriatic lesions exhibited a hyperactive pyroptotic state, which contributed to disease progression through CXCL16-mediated remodeling of the immune microenvironment. These findings highlight pyroptosis as a potential therapeutic target for psoriasis. Full article

An investigation into the biological mechanisms initiated in wounded skin following the application of mesenchymal stem cells (MSCs) and nanoparticles (NPs) (Ag, ZnO), either alone or combined, was performed in mice, with the aim of determining the optimal approach to accelerate the healing process. This combined treatment was hypothesized to be beneficial, as it is associated with the production of molecules supporting the healing process and antimicrobial activity. The samples were collected seven days after injury. When compared with untreated wounded animals (controls), the combined (MSCs+NPs) treatment induced the expression of Sprr2b, encoding small proline-rich protein 2B, which is involved in keratinocyte differentiation, the response to tissue injury, and inflammation. Pathways associated with keratinocyte differentiation were also affected. Ag NP treatment (alone or combined) modulated DNA methylation changes in genes involved in desmosome organization. The percentage of activated regulatory macrophages at the wound site was increased by MSC-alone and Ag-alone treatments, while the production of nitric oxide, an inflammatory marker, by stimulated macrophages was decreased by both MSC/Ag-alone and MSCs+Ag treatments. Ag induced the expression of Col1, encoding collagen-1, at the injury site. The results of the MSC and NP treatment of skin wounds (alone or combined) suggest an induction of processes accelerating the proliferative phase of healing. Thus, MSC-NP interactions are a key factor affecting global mRNA expression changes in the wound. Full article

Both the pulp and the seeds of rosehip are important for human health. Rosehip seeds are rich in polyunsaturated fats, which support a healthy skin membrane and protect it from inflammatory factors. In order to be used, the seeds require initial processing, mainly by grinding. This paper first presents a brief review of the physicochemical properties and the content of bioactive compounds in rosehip (Rosa canina) and its seeds. Original research results on the compression behavior of rosehip seeds are presented below, together with the key values of the most important parameters derived from the analysis. For seeds with a thickness ranging from 1.80 to 3.55 mm, the compressive force at the onset of fracture was recorded to be between 94.4 and 156.0 N, while the force required for complete fracture ranged from 114.0 to 495.0 N (with about 12.5% of values considered outside a normal distribution). Additionally, for these forces, the deformation of the seeds ranged between 0.142 and 0.916 mm at the onset of fracture and between 0.248 and 1.878 mm at complete fracture. For these characteristics, the energy consumed ranged between 0.012 and 0.041 J at the onset of fracture and between 0.017 and 0.322 J at complete breaking. The elasticity of the seeds also ranged between 159.9 and 789.1 N/mm, considering the forces and deformations at the onset of fracture. The results of our study contribute to expanding the database on the mechanical characteristics of rosehip seeds, knowledge of which is essential for the initial processing operations used in the pharmaceutical industry aimed at oil extraction. Full article

Background: Long non-coding RNAs (lncRNAs) are increasingly recognized as pivotal regulators in both inflammatory and neoplastic skin disorders. Their implications in numerous biological processes, including gene expression, immune responses, and epidermal homeostasis, suggest potential applications as diagnostic and prognostic markers, as well as therapeutic targets. Methods: We conducted a literature search on lncRNAs involved in both psoriasis and cutaneous squamous cell carcinoma (cSCC), highlighting overlapping pathogenic mechanisms. Results: Several lncRNAs, such as HOTAIR, MALAT-1, H19, and uc.291, display dysregulated expression in both psoriasis and cSCC, influencing keratinocyte proliferation and apoptosis, immune modulation, cytokine signaling, and the synthesis of epidermal proteins. Conclusions: The intersection of lncRNA function in chronic inflammation and skin carcinogenesis underscores their role in mediating the transition from psoriatic inflammation to tumorigenesis, offering new insights into disease susceptibility; further investigation through functional studies and clinical validation are required. The study of lncRNA-mediated molecular pathways is particularly relevant given the increased risk of non-melanoma skin cancers and lymphoproliferative disorders among patients with chronic and severe forms of psoriasis. Full article

Skin pigmentation results from complex cellular interactions and is influenced by genetic, environmental, and metabolic factors. Emerging evidence highlights the multiple pathways by which lipids regulate melanogenesis and points to lipid metabolism and signaling as key players in this process. Lipidomics is a high-throughput omics approach that enables detailed characterization of lipid profiles, thus representing a valid tool for evaluating skin lipid functional role in both physiological melanogenesis and pigmentary disorders. The use of lipidomics to gain a deeper comprehension of the role of lipids in skin pigmentation is still an evolving field, but it has allowed the identification of significant lipid dysregulation in several pigmentary pathologies. This review summarizes the current knowledge on the involvement of lipids in skin pigmentation, focusing on lipid profile alterations described in hyper- and hypopigmentary disorders such as post-inflammatory hyperpigmentation, melasma, solar lentigo, and vitiligo. Lipidomic profiling reveals disease-specific alterations supporting the pivotal role of lipid signaling in the physiopathological mechanisms of melanogenesis. These findings provide insights into disease pathogenesis and show promise for the discovery of biomarkers and innovative therapeutic strategies for pigmentary disorders. Full article

Andrographolide (AP), a bioactive compound from Andrographis paniculata, is known for its anti-inflammatory and antioxidant properties, both essential for wound healing. However, its effects on energy metabolism during tissue repair and its role in UVB-induced photoaging remain poorly understood. This study explored AP’s multitarget therapeutic effects on wound healing under photoaging conditions (PhA/WH) using network pharmacology and experimental validation. Scratch wound assays showed that AP promoted keratinocyte migration in UVB-exposed HaCaT cells. Bioinformatic analysis identified 10 key targets in PhA/WH, including TNF-α, IL-1β, JUN, PPARγ, MAPK3, TP53, TGFB1, HIF-1α, PTGS2, and CTNNB1. AP suppressed UVB-induced pro-inflammatory gene expression (IL-1β, IL-6, IL-8, and COX-2) and inhibited the phosphorylation of ERK1/2 and P38, while enhancing Hypoxia-Inducible Factor-1alpha (HIF-1α) and peroxisome proliferator-activated receptors (PPARγ) expression. GC/MS-based metabolomics revealed that AP reversed UVB-induced disruptions in fatty acid metabolism, glycolysis/gluconeogenesis, and tricarboxylic acid (TCA) cycle, indicating its role in restoring the metabolic balance necessary for tissue regeneration. In conclusion, andrographolide modulates key inflammatory and metabolic pathways involved in wound repair and photoaging. These mechanistic insights contribute to a better understanding of the molecular processes underlying skin regeneration under photodamage and may inform future therapeutic strategies. Full article