Ryle C M, Breitkreutz D, Stark H J, Leigh I M, Steinert P M, Roop D, Fusenig N E
Division of Differentiation and Carcinogenesis in vitro, German Cancer Research Center, Heidelberg.
Differentiation. 1989 Mar;40(1):42-54. doi: 10.1111/j.1432-0436.1989.tb00812.x.
The spontaneous human keratinocyte line HaCaT and c-Ha-ras oncogene-transfected cell clones are capable of expressing an unusually broad spectrum of keratins, not observed so far in epithelial cells. This expression is, however, strongly modulated by environmental conditions, including cell density. Both cells of the nontumorigenic HaCaT line and the tumorigenic HaCaT-ras clones, I-7 and II-3 (giving rise to benign and malignant tumors, respectively), constitutively expressed the keratins K5, K6, K14, K16 and K17, which are also common in cultures of normal keratinocytes. In addition keratins K7, K8, K18 and K19, generally associated with simple epithelia, were synthesized (to a most pronounced extent in sparse cultures), while keratins K4, K13 and K15 appeared at confluence, presumably with the onset of stratification. Moreover, in both HaCaT and HaCaT-ras clones the epidermal "suprabasal" keratins, K1 and K10, were expressed in conventional submerged cultures (at normal vitamin A levels), markedly rising with cell density, but not strictly correlated with the degree of stratification. This property was maintained in HaCaT cells up to the highest passages. According to immunofluorescence, this was due to increasing numbers of strongly stained cells, and not due to a gradual increase in all cells. Most strikingly, there was a significant delay in the appearance of K10 compared to K1, and this dissociation of expression was most evident in dispase-detached cell sheets (submerged cultures) and organotypic cultures of the ras clones (grown at the air-liquid interface). While on frozen sections bright staining for K1 was seen in some basal and virtually all suprabasal cell layers, K10 was largely restricted to the uppermost layers. Thus, obviously synthesis of K1 and K10 can be regulated independently, although generally in this given sequence. The apparent compatibility of K1 synthesis with proliferation and particularly the extended delay of K10 expression (as a postmitotic event) might be causally related to altered growth control and as such imply the significance of this disturbance. Finally, the highly preserved epidermal characteristics, in terms of expression of keratins (and other differentiation markers [5]) and their regulation, makes these cell lines excellent candidates for studying external modulators of differentiation and also underlying molecular mechanisms.
人自发性角质形成细胞系HaCaT和转染了c-Ha-ras癌基因的细胞克隆能够表达异常广泛的角蛋白谱,这是迄今为止上皮细胞中未观察到的。然而,这种表达受到包括细胞密度在内的环境条件的强烈调节。非致瘤性HaCaT细胞系以及致瘤性HaCaT-ras克隆I-7和II-3(分别产生良性和恶性肿瘤)的细胞均组成性表达角蛋白K5、K6、K14、K16和K17,这些角蛋白在正常角质形成细胞培养物中也很常见。此外,通常与单层上皮相关的角蛋白K7、K8、K18和K19也被合成(在稀疏培养物中合成程度最为明显),而角蛋白K4、K13和K15在汇合时出现,推测与分层的开始有关。此外,在HaCaT和HaCaT-ras克隆中,表皮“基底层以上”的角蛋白K1和K10在传统的贴壁培养(正常维生素A水平)中表达,随着细胞密度的增加而显著升高,但与分层程度没有严格的相关性。这种特性在HaCaT细胞中一直保持到最高传代。根据免疫荧光检测,这是由于强染色细胞数量增加,而不是所有细胞逐渐增加所致。最引人注目的是,与K1相比,K10的出现有明显延迟,并且这种表达的解离在胰蛋白酶分离的细胞片(贴壁培养)和ras克隆的器官型培养(在气液界面生长)中最为明显。在冰冻切片上,在一些基底层细胞和几乎所有基底层以上的细胞层中都能看到K1的明亮染色,而K10主要局限于最上层细胞。因此,显然K1和K10的合成可以独立调节,尽管通常按此特定顺序进行。K1合成与增殖的明显相容性,特别是K10表达的延长延迟(作为有丝分裂后事件)可能与生长控制改变有因果关系,因此暗示了这种干扰的重要性。最后,就角蛋白(和其他分化标志物[5])的表达及其调节而言,这些细胞系高度保留的表皮特征使其成为研究分化的外部调节因子以及潜在分子机制的优秀候选对象。
