Moemi Yoshida scite author profile

et al. 2020

IJMS

Pigmentation in the dermis is known to be caused by melanophages, defined as melanosome-laden macrophages. In this study, we show that dermal fibroblasts also have an ability to uptake melanosomes and apoptotic melanocytes. We have previously demonstrated that normal human melanocytes constantly secrete melanosome clusters from various sites of their dendrites. After adding secreted melanosome clusters collected from the culture medium of melanocytes, time-lapse imaging showed that fibroblasts actively attached to the secreted melanosome clusters and incorporated them. Annexin V staining revealed that phosphatidylserine (PtdSer), which is known as an ‘eat-me’ signal that triggers the internalization of apoptotic cells by macrophages, is exposed on the surface of secreted melanosome clusters. Dermal fibroblasts were able to uptake secreted melanosome clusters as did macrophages, and those fibroblasts express TIM4, a receptor for PtdSer-mediated endocytosis. Further, co-cultures of fibroblasts and melanocytes demonstrated that dermal fibroblasts internalize PtdSer-exposed apoptotic melanocytes. These results suggest that not only macrophages, but also dermal fibroblasts contribute to the collection of potentially toxic substances in the dermis, such as secreted melanosome clusters and apoptotic melanocytes, that have been occasionally observed to drop down into the dermis from the epidermis.

Establishment of Photoaging In Vitro by Repetitive UVA Irradiation: Induction of Characteristic Markers of Senescence and its Prevention by PAPLAL with Potent Catalase Activity

Photochem & Photobiology

Ando

et al. 2018

To understand a role of UVA radiation in photoaging of the skin, we established a model of photoaging cells using cultured human dermal fibroblasts. Repeated low-dose UVA radiation for 10 consecutive days induced senescence in fibroblasts, characterized with (1) increased level of senescence-associated β-galactosidase, (2) flattened large cell shape, (3) accumulation of reactive oxygen species, (4) yellowish coloration and (5) expression of p16. These were also observed in chronologically aged fibroblasts (doubling times >20), whereas none of these were detected in young cells (doubling times <10). Collectively, we propose that fibroblasts exposed to repetitive UVA radiation may be a good model of aged cells to study the mechanism of aging and photoaging and further to search for novel agents preventing cellular senescence. In addition, H O was produced in the culture medium by a single low dose of UVA irradiation. Further, PAPLAL, a nanoparticle of platinum and palladium having potent catalase-like activity, significantly delayed the onset of H O -induced cell senescence. The present study strongly indicates that repetitive short-term UVA irradiation induces aging of cells possibly via H O and may be suppressed by potent anti-H O agents.

Melanin pigment interrupts the fluorescence staining of mitochondria in melanocytes

Ando

Ohagi

Journal of Dermatological Science

et al. 2016

Placental extracts regulate melanin synthesis in normal human melanocytes with alterations of mitochondrial respiration

Ohagi

Experimental Dermatology

et al. 2019

Placental extracts have been widely used as skin lightening agents in the Japanese cosmetic market. Here, we show that placental extracts contain factors that can decrease or increase melanin synthesis by normal human melanocytes in vitro in possible association with mitochondrial respiration. When normal human melanocytes were treated with a whole porcine placental extract, melanin synthesis was decreased. In contrast, a porcine placental extract in which exudates and insoluble materials including lipids had been removed increased melanin synthesis. In addition, the amount of tyrosinase, the enzyme critical for melanin synthesis, changed in accordance with the alteration of melanin synthesis. Interestingly, the amount of manganese‐dependent superoxide dismutase (MnSOD), a mitochondrial‐resident antioxidant enzyme, was increased when melanin synthesis was decreased by the whole placental extract. Mitochondrial respiration and glycolysis also changed following treatment with the placental extracts. These results suggest that placental extracts contain factors that can increase or decrease melanin synthesis by normal human melanocytes and that mitochondrial function may be associated with the placental extract‐induced regulation of melanogenesis.

1221 Intracellular vacuoles observed in cultured melanocytes obtained from normally pigmented skin of a vitiligo patient were vanished by the treatment of anti-oxidants

Yanagi

Journal of Investigative Dermatology

et al. 2018

Melanoma is currently the most highest mortality rate of skin tumors, but the treatment of melanoma is limited.The global incidence of melanoma continues to increase every year. This tumor has highly aggressive and metastatic potential.Therefore, inhibition of tumor cell invasion may provide an effective therapy for melanoma. Here we report the Nicotinamide ,also named nicotinic acid (NA) ,which can inhibits melanoma cell invasion in vitro. Treatment of the B16-F10 cell with NA in vitro results in reduced invasion, and has concentration depends on the relationship,we found that inhibition of cell migration was most obvious when the concentration of niacin was 10 mM. At the molecular level, transcription of the adherens junction protein E-cadherin is increased, leading to accumulation of E-cadherin protein at the cell-cell boundary.The expression of transcription factor snail2 and twist which can promote tumor cell migration are significantly decreased.And we also found NA significantly inhibited the migration of b16-f10 cells, but did not affect its survival. These results suggest that NA treatment may be developed into a potential therapy for melanoma.