Human keratinocyte models: Assessment of cell adhesion and dermotoxicity using fluorescent probes

被引:3
作者
BrautBoucher, F
Pichon, J
Wantyghem, J
Muriel, MP
Giner, M
Font, J
Aubery, M
机构
[1] Lab. Glycobiologie et Reconn. Cell., U180 INSERM, UFR Biomedicale des Saints-Peres, 75006 Paris
关键词
D O I
10.1016/S0887-2333(97)00067-2
中图分类号
R99 [毒物学(毒理学)];
学科分类号
100405 ;
摘要
To assess the molecular and cellular events that occur in the skin during biological and pharmaco-toxicological processes, we developed different in vitro models. Two major systems are described: (1) relatively simple ones such as normal human keratinocytes (NHK) grown in monolayer or continuous culture of spontaneously immortalized keratinocyte cells, the HaCaT cell line. This cell line forms a monolayer and displays the same phenotypic morphology, pattern of differentiation markers as NHK. (2) More complex models such as NHK multilayers differentiated on a synthetic porous membrane. Indeed, NHK grown at the air-liquid interface of culture inserts may undergo epidermal differentiation in 21 days (Noel-Hudson et al., 1995a). Under the same culture conditions, no stratification of the HaCaT cell line was obtained. NHK and/or HaCaT monolayers were used to study the cell surface molecules involved in heterologous cell interactions, and to estimate the cytotoxic effects of different compounds through a sensitive fluorimetric microtitration assay. When cell adhesion was measured with calcein-AM labelled lymphocytes, it appeared that lymphocytes display the same behaviour towards NHK or HaCaT cells. The importance of the activation status of each cell and the involvement of alpha(2) and alpha(3) beta(1) integrins in lymphocyte-keratinocyte interactions were demonstrated. Likewise cytotoxicity of SDS and DNP was easily and rapidly detected with calcein-AM and Alamar blue probes. Skin models in combination with fluorescent probes offer promising alternatives for assessing cell interactions as well as cytotoxic effects. (C) 1997 Elsevier Science Ltd.
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页码:601 / &
页数:10
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