The chronic effects of db-cAMP on cell cycle parameters and cell size in asynchronous culture of Chinese hamster ovary cells

Abstract

N 6,O 2′-dibutyryl adenosine 3′,5′-cyclic-phosphate (db-cAMP) has been shown to convert Chinese hamster cells of ovarian origin (CHO-K 1) from compact, randomly oriented cells growing in multilayers to elongated fibroblast-like cells which grow in monolayers. This compound also has been reported to have a variety of effects on the cell cycle. Most such studies have employed synchronized cells to determine cell cycle effects, and consequently have been limited to the short-term effects of the compound. We have looked for chronic effects on the cell cycle in cultures exposed continuously to db-cAMP from the initiation of the cultures until they had reached or approached the plateau phase. This was done by combined autoradiography and Feulgen microspectrophotometry plus measurements of the protein content of mitotic cells to detect any influence on cell size. The overall results were that continuous exposure to db-cAMP had at most only minor effects on the cell cycle and cell size when the culture medium was renewed daily. Somewhat greater effects were found on plateau-phase cells in cultures in which the medium was not renewed. In this case fewer cells appeared to remain in the cell cycle in the cultures with db-cAMP. Comparison with our earlier results with Chinese hamster V79 cells led to the conclusions that cell cycle parameters and cell size at mitosis were less altered during culture growth in CHO cells, but that CHO cells seemed to be less able to maintain cells in the cell cycle in crowded cultures.