皮肤替代模型中人类黑素细胞与角质形成细胞的共培养：紫外线辐射的影响

Co-culture of human melanocytes and keratinocytes in a skin equivalent model: effect of ultraviolet radiation.

作者信息

Todd C, Hewitt S D, Kempenaar J, Noz K, Thody A J, Ponec M

机构信息

Department of Dermatology, University of Newcastle upon Tyne, UK.

出版信息

Arch Dermatol Res. 1993;285(8):455-9. doi: 10.1007/BF00376817.

DOI:10.1007/BF00376817

PMID:8274033

Abstract

Melanocytes grown in pure monolayer culture lack the three-dimensional organization and many of the cellular interactions that exist in vivo. This can be partially overcome by growing melanocytes together with other epidermal cells in skin equivalent models. In this study skin equivalents were prepared by seeding mixtures of cultured human keratinocytes and melanocytes in various ratios onto de-epidermized dermis. They were cultured in DMEM/Ham's F12 (3:1) for 3 days and then lifted to the air-liquid interface and maintained for 11 days. Histological examination revealed a structure that closely resembled human interfollicular epidermis. Melanocytes, identified by their dendritic appearance, positive dopa reaction and positive staining with a melanocyte-specific antibody (MEL5), were located in the basal layer. Melanin was seen both in melanocytes and in neighbouring keratinocytes. Whilst the skin equivalent became more pigmented following UV irradiation (total UVB 4760 J/m2 over 3 days), the quantity and distribution of melanin at the light microscopic level appeared to be unchanged. However, the number and dendricity of melanocytes increased, as did their staining with dopa and MEL5. These results indicate that melanocytes are functional and capable of responding to UV irradiation.

摘要

在纯单层培养中生长的黑素细胞缺乏体内存在的三维组织结构和许多细胞间相互作用。通过在皮肤等效模型中将黑素细胞与其他表皮细胞一起培养，这一情况可得到部分克服。在本研究中，通过将不同比例的培养人角质形成细胞和黑素细胞混合物接种到去表皮真皮上制备皮肤等效物。它们在DMEM/Ham's F12（3:1）中培养3天，然后提升到气液界面并维持11天。组织学检查显示出一种与人类毛囊间表皮非常相似的结构。通过其树突状外观、阳性多巴反应以及用黑素细胞特异性抗体（MEL5）进行阳性染色鉴定的黑素细胞位于基底层。在黑素细胞和相邻的角质形成细胞中均可见黑色素。虽然在紫外线照射后（3天内总UVB为4760 J/m2）皮肤等效物色素沉着增加，但在光学显微镜水平上黑色素的数量和分布似乎未发生变化。然而，黑素细胞的数量和树突化程度增加，其多巴染色和MEL5染色也增加。这些结果表明黑素细胞具有功能并且能够对紫外线照射作出反应。

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皮肤替代模型中人类黑素细胞与角质形成细胞的共培养：紫外线辐射的影响

Co-culture of human melanocytes and keratinocytes in a skin equivalent model: effect of ultraviolet radiation.

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