Interaction between Candida albicans and Cultured Human Keratinocytes
- VernacularTitle:白念珠菌与培养人角质形成细胞的相互作用及其分子机理
- Author:
Yuping RAN
;
Rioji TSUBOI
;
Wei LI
- Publication Type:Journal Article
- Keywords:
Candida albicans;
Keratinocytes;
Interactions
- From:
Chinese Journal of Dermatology
1994;0(05):-
- CountryChina
- Language:Chinese
-
Abstract:
Objective To study the morphological,biologic response of cultured human keratin ocytes to Candida albicans and the molecular mechanism.Methods ①A yeast form of C.albicans was added t o a monolayer of keratinocytes.The adherent organisms were observed by scanning and transmission electron mi-croscope at different incubation periods.Boiled C.albicans and latex beads of a similar size(3.2?m)were also inoculated for comparison.②The effect of supernatant from the co-culture of keratinocytes with inta ct C.albicans on keratinocyte growth was measured by the fluorescence intensity and cell count.③Keratinocytes were incubated with C.albicans or latex beads,and the level of cytok ine in the keratinocytes and supernatant were measured with enzyme -linked im munosorbent assay kits.Results①The number of adherent C.albicans increased with the lapse of time,whi le boiled C.albicans did not adhere at all.Many latex bead s adhered to the keratinocytes,and were then easily phagocytised.Fibril -like structu res stretched from the keratinocyte s adhered to the organisms or latex beads.②The conditioned medium of 50%concen tration significantly promote cell growth,while that with boiled C.albicans or latex beads moderately stimulate d keratinocyte growth.③Ker-atinocytes treated with intact C.albicans had significantly higher level of IL-1?in the supernatant but lower in the cell extract.Both TGF -?and bFGF increased either in the medi a or in the extract.Conclusion These results suggest that keratinocytes have non -specific phagocytic activ ity.C.albicans are able to adhere to ker-atinocytes and stimulate the release of various cytokines from keratinocytes,which may induce an inflammatory reaction and cell growth.
