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  • Title: DNA synthesis and Fos and Jun protein expression in mitotic and postmitotic WI-38 fibroblasts in vitro.
    Author: Brenneisen P, Gogol J, Bayreuther K.
    Journal: Exp Cell Res; 1994 Apr; 211(2):219-30. PubMed ID: 7908266.
    Abstract:
    Normal human embryonic lung fibroblasts WI-38 differentiate spontaneously along the cell lineage mitotic fibroblasts (MF) I, II, and III and postmitotic fibroblasts (PMF) IV, V, VI, and VII in the fibroblast stem cell system in vitro, when appropriate methods are applied. The mitotic fibroblasts can be induced to shift to postmitotic fibroblasts by two treatments with mitomycin C (2 x MMC) in a short period of time compared to spontaneous development. Mitotic and postmitotic fibroblast cell types have specific morphological and biochemical properties, e.g., [35S]methionine polypeptide markers in 2D PAGE. Spontaneously arisen and experimentally induced (2 x MMC) PMF have the same morphological and biochemical characteristics. Mitotic fibroblasts have 2n DNA and undergo DNA synthesis for reduplication. Postmitotic cells undergo, on average, two rounds of DNA synthesis for endoreduplication (polyploidization). Spontaneously arisen and experimentally induced postmitotic populations are composed of postmitotic fibroblasts PMF IV, V, and VI with 2n, 4n, and 8n DNA. DNA synthesis of mitotic and postmitotic WI-38 cell populations may be regulated by the expression of Fos and Jun proteins. The Fos level of MFs was higher by a factor of 15-24 and the Jun level of MFs by a factor of 4.2-6.3 than those of spontaneously arisen PMFs. In 2 x MMC-induced PMFs, the Fos level was about 4.4-7.5 times higher and the Jun level 1.7-3.3 times higher than that of spontaneously arisen PMFs. The down-regulation of these two parameters is a normal event in the development of mitotic to postmitotic WI-38 fibroblasts in the fibroblast stem cell system and is not related to cellular aging.
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