Effects of retinoic acid on cell proliferation and cell differentiation in a rat tracheal epithelial cell line

Abstract. The effects of 3.3 times 10-⁷ M to 3.3 times 10^-5 M all- trans -retinoic acid (vitamin-A acid) on the total cell population dynamics of 165 S, a keratinizing epithelial cell line from carcinogen-exposed rat trachea, were studied. During the first 6 days of culture, cells accumulated on the dish in the presence of the vitamin to twice the density of controls. [³H]thymidine incorporation into DNA and percentage of [³H]thymidine-labelled cells in autoradiographs were stimulated in a dose-dependent fashion to a maximum of 25- and 34-fold, respectively. Exfoliation of cells from the cultures was also enhanced 2–3-fold, resulting in nearly twice the total number of cells (attached plus exfoliated) in the presence of the vitamin.
During 19 days of culture, retinoic acid maintained a higher level of [³H]thymidine incorporation and cell exfoliation in 165 S cells so that by day 19, total cell production was more than three times that seen in controls. At this time, vitamin-treated cultures showed a reduced cell saturation density compared to controls. The higher final cell density in the control cultures was a result of multilayering and papillary formation which did not occur in the presence of retinoic acid. The papillae in control cultures stained specifically with Rhodamine B or with the eosin and orange G components of the Papanicolaou method. A count of the number of eosin and orange G positive cells in the attached and exfoliated cell compartments showed an 8-fold reduction of keratinization in retinoic acid-exposed cultures. Our results show that retinoic acid is a growth stimulant in these cell cultures, causing increased cell proliferation and exfoliation accompanied by inhibition of keratinization.