Tsunenaga M, Kohno Y, Horii I, Yasumoto S, Huh N H, Tachikawa T, Yoshiki S, Kuroki T
Skin Biological Research Laboratories, Shiseido Research Center, Yokohama.
Jpn J Cancer Res. 1994 Mar;85(3):238-44. doi: 10.1111/j.1349-7006.1994.tb02088.x.
The growth and differentiation of human normal keratinocytes and their transformed counterparts were examined in organotypic cultures in which the keratinocytes were grown at the air-liquid interface on top of contracted collagen gel containing fibroblasts. We developed a modified culture procedure including the use of a mixed medium for keratinocytes and fibroblasts. Normal keratinocytes formed a three-dimensional structure of epithelium that closely resembled the epidermis in vivo, consisting of basal, spinous, granular and cornified layers. Cells synthesizing DNA were located in the lowest basal layer facing the collagen gel. Expressions of proteins involved in epidermal differentiation were examined by immunohistochemical staining and compared with those in skin in vivo. In the organotypic culture, transglutaminase, involucrin and filaggrin were expressed, as in the epidermis in vitro, most prominently in the granular layer. Type IV collagen, a component of basement membrane, was expressed at the interface between the keratinocyte sheet and the contracted collagen gel. Keratinocytes transformed by simian virus 40 or human papilloma virus (HPV) exhibited a highly disorganized pattern of squamous differentiation. In particular, HPV-transformed cells invaded the collagen gel. Organotypic culture is unique in that regulatory mechanisms of growth and differentiation of keratinocytes can be investigated under conditions mimicking those in vivo.
在器官型培养中研究了人正常角质形成细胞及其转化细胞的生长和分化情况,其中角质形成细胞在含成纤维细胞的收缩胶原凝胶顶部的气液界面生长。我们开发了一种改良的培养方法,包括使用角质形成细胞和成纤维细胞的混合培养基。正常角质形成细胞形成了一种三维上皮结构,与体内的表皮非常相似,由基底层、棘层、颗粒层和角质层组成。合成DNA的细胞位于面向胶原凝胶的最底层基底层。通过免疫组织化学染色检测参与表皮分化的蛋白质表达,并与体内皮肤中的表达进行比较。在器官型培养中,转谷氨酰胺酶、兜甲蛋白和丝聚合蛋白如在体外表皮中一样表达,最显著地在颗粒层。IV型胶原是基底膜的一种成分,在角质形成细胞片层与收缩胶原凝胶之间的界面处表达。被猴病毒40或人乳头瘤病毒(HPV)转化的角质形成细胞表现出高度紊乱的鳞状分化模式。特别是,HPV转化的细胞侵入了胶原凝胶。器官型培养的独特之处在于,可以在模拟体内条件下研究角质形成细胞生长和分化的调节机制。