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1.
Skin Pharmacol Physiol ; 36(3): 149-159, 2023.
Artigo em Inglês | MEDLINE | ID: mdl-36927667

RESUMO

INTRODUCTION: The outermost layer of the skin, the epidermis, is directly exposed to external stress (e.g., irradiation, allergens, and chemicals). Changes in epidermal conditions/environment in response to this stress could also influence conditions of the dermis, located directly beneath the epidermis. Yet, whether/how any epidermal environment changes in response to external stress affect dermal functions has not been completely clarified. METHODS: We employed ultraviolet irradiation B (UVB) (which hardly reaches the dermis) as a model of external stress. Human keratinocytes and human dermal fibroblasts were treated with UVB and conditioned medium of keratinocytes exposed to UVB (UVB-keratinocyte-M), respectively. We assessed (1) inflammatory cytokines and lipid mediators in keratinocytes; (2) matrix metalloprotease (MMP) levels and collagen degradation in fibroblasts; (3) ex vivo organ-cultured human skin was treated with UVB. MMP levels and collagen degradation were examined; (4) test whether the mixture of agent (agent cocktail) consisting of dihydroceramide, niacin amide, resveratrol, glucosyl hesperidin, and phytosterol ester that has been shown to improve skin barrier integrity can mitigate influence of UVB in skin; and (5) a pilot one-arm human clinical test to assess efficacy of formulation containing agent cocktail on stratum corneum hydration, skin elasticity, and wrinkle index. RESULTS: Inflammatory-cytokine and -lipid mediator production were increased in cultured keratinocytes treated with UVB, while matrix MMP-1, -3, and -9 production and collagen degradation were increased in fibroblasts incubated with UVB-keratinocyte-M. mRNA expression of COL1A1 (that codes type 1 collagen) levels was decreased in fibroblasts incubated with UVB-keratinocyte-M. The study using ex vivo organ-cultured human skin showed both MMP-1 and MMP-9 expression were increased in both epidermis and dermis and increased dermal collagen degradation following UVB irradiation. Increased MMP production and collagen degradation were attenuated by application of an agent cocktail. Finally, a pilot clinical study demonstrated that the formulation containing our agent cocktail likely has the ability to improve skin hydration, increase skin elasticity, and reduce the appearance of wrinkles. CONCLUSION: Epidermal changes in epidermal environment and conditions in response to external stress affect dermal conditions, and these negative effects of external stress on various skin layers can be pharmacologically mitigated.


Assuntos
Metaloproteinase 1 da Matriz , Envelhecimento da Pele , Humanos , Metaloproteinase 1 da Matriz/genética , Metaloproteinase 1 da Matriz/metabolismo , Derme/metabolismo , Epiderme/metabolismo , Colágeno Tipo I , Citocinas/metabolismo , Lipídeos , Raios Ultravioleta , Fibroblastos
2.
J Dermatol Sci ; 108(1): 22-29, 2022 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-36243587

RESUMO

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.


Assuntos
Colágeno Tipo I , Envelhecimento da Pele , Humanos , Colágeno Tipo I/metabolismo , Fibrilina-1/metabolismo , Raios Ultravioleta/efeitos adversos , Pele/metabolismo , Fibroblastos/metabolismo , Mitocôndrias/metabolismo , Trifosfato de Adenosina/metabolismo , Células Cultivadas
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