Yutaka Ashida scite author profile

Keratinocytes have histamine H1 and H2 receptors, but their functions are poorly understood. To clarify the role of histamine receptors in the epidermis, we examined the effects of histamine receptor antagonists and agonists applied epicutaneously on the recovery of skin barrier function disrupted by tape stripping in hairless mice. Histamine H2 receptor antagonists famotidine and cimetidine accelerated the recovery of skin barrier function, but histamine and histamine H2 receptor agonist dimaprit delayed the barrier repair. Application of compound 48/80, a histamine releaser, also delayed the recovery. Imidazole, an analog of histamine, had no effect. The histamine H1 receptor antagonists diphenhydramine and tripelennamine accelerated the recovery. Histamine H3 receptor agonist Nalpha-methylhistamine and antagonist thioperamide had no effect. In addition, topical application of famotidine or diphenhydramine prevented epidermal hyperplasia in mice with skin barrier disrupted by acetone treatment in a dry environment (humidity < 10%) for 4 d. In conclusion, both the histamine H1 and H2 receptors in the epidermis are involved in skin barrier function and the cutaneous condition of epidermal hyperplasia.

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Coenzyme Q₁₀ protects against oxidative stress‐induced cell death and enhances the synthesis of basement membrane components in dermal and epidermal cells

Muta-Takada

Terada

Yamanishi

et al. 2009

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Coenzyme Q10 (CoQ10), which has both energizing and anti-oxidative effects, is also reported to have antiaging action, e.g., reducing the area of facial wrinkles. However, the mechanism of its anti-aging activity is not fully established. Here, we examined the effect of CoQ10 on human dermal and epidermal cells. CoQ10 promoted proliferation of fibroblasts but not keratinocytes. It also accelerated production of basement membrane components, i.e., laminin 332 and type IV and VII collagens, in keratinocytes and fibroblasts, respectively; however, it had no effect on type I collagen production in fibroblasts. CoQ10 also showed protective effects against cell death induced by several reactive oxygen species in keratinocytes, but only when its cellular absorption was enhanced by pretreatment of the cells with highly CoQ10-loaded serum. These results suggest that protection of epidermis against oxidative stress and enhancement of production of epidermal basement membrane components may be involved in the antiaging properties of CoQ10 in skin.

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Yutaka Ashida

Epidermal interleukin-1alpha generation is amplified at low humidity: implications for the pathogenesis of inflammatory dermatoses

Dry environment increases mast cell number and histamine content in dermis in hairless mice

Skin Surface Electric Potential Induced by Ion-Flux through Epidermal Cell Layers

Histamine H1 and H2 Receptor Antagonists Accelerate Skin Barrier Repair and Prevent Epidermal Hyperplasia Induced by Barrier Disruption in a Dry Environment

Coenzyme Q₁₀ protects against oxidative stress‐induced cell death and enhances the synthesis of basement membrane components in dermal and epidermal cells

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Yutaka Ashida

Epidermal interleukin-1alpha generation is amplified at low humidity: implications for the pathogenesis of inflammatory dermatoses

Dry environment increases mast cell number and histamine content in dermis in hairless mice

Skin Surface Electric Potential Induced by Ion-Flux through Epidermal Cell Layers

Histamine H1 and H2 Receptor Antagonists Accelerate Skin Barrier Repair and Prevent Epidermal Hyperplasia Induced by Barrier Disruption in a Dry Environment

Coenzyme Q10 protects against oxidative stress‐induced cell death and enhances the synthesis of basement membrane components in dermal and epidermal cells

Contact Info

Product

Resources

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Coenzyme Q₁₀ protects against oxidative stress‐induced cell death and enhances the synthesis of basement membrane components in dermal and epidermal cells