Potten C S
J Invest Dermatol. 1975 Dec;65(6):488-500. doi: 10.1111/1523-1747.ep12610194.
Labeling and mitotic index data and estimates for the length of the S and M phases of the cell cycle from the literature have been compared with new data obtained over a 24-hr period from various epidermal sites in mouse. It has been found that values obtained at a single time of the day may give misleading results. All data have been interpreted in terms of cell production rates per epidermal proliferative unit (EPU). The final conclusions after consideration of cell production rates, labeling and mitotic indices, epidermal transit times, and epidermal structure are that dorsal and ear skin have rather similar cell production rates while tail and foot rates are 4 to 7 times higher. A comparison has also been made between the mouse results and the available human data. Hairless mouse dorsum appears from structural and proliferative aspects to be the best model for some regions of human skin. A new model has been proposed for epidermal proliferation based on the EPU. The model suggests a role for the Langerhans cells and suggests that there is a program of sequential cellular maturity in the EPU originating at the level of a central basal stem cell through committed proliferative cells and ending with cell loss from the skin surface.
已将文献中关于细胞周期S期和M期时长的标记、有丝分裂指数数据及估计值,与在24小时内从小鼠不同表皮部位获取的新数据进行了比较。结果发现,在一天中的某个特定时间获得的数据可能会产生误导性结果。所有数据均根据每个表皮增殖单位(EPU)的细胞产生率进行了解释。在考虑细胞产生率、标记和有丝分裂指数、表皮转运时间以及表皮结构后得出的最终结论是,背部皮肤和耳部皮肤的细胞产生率相当相似,而尾部和足部的细胞产生率则高出4至7倍。还对小鼠的研究结果与现有的人类数据进行了比较。从结构和增殖方面来看,无毛小鼠背部似乎是人类皮肤某些区域的最佳模型。基于EPU提出了一种新的表皮增殖模型。该模型表明了朗格汉斯细胞的作用,并表明在EPU中存在一个细胞顺序成熟程序,该程序始于中央基底干细胞水平,经过定向增殖细胞,最终以皮肤表面的细胞丢失告终。
