Abstract
AbstractWhen resting WI‐38 cells in a confluent monolayer were stimulated to proliferate by changing the medium, the incorporation of leucine‐3H into nuclear acidic proteins was promptly stimulated, although its incorporation into total cellular proteins was unchanged or even decreased. Three fractions, all acidic by aminoacid analysis, were extracted from the nuclei: (1) ribonucleoproteins (RNP); (2) a fraction extractable with 0.15 M NaC1; and (3) a fraction tenaciously bound to the insoluble residue (residual fraction). A first increase occurred between one and three hours after stimulation in all three fractions. The synthesis of NaCl‐soluble proteins then returned to control levels, while the synthesis of residual and RNP proteins remained high between 6 and 12 hours and increased even further at 18 hours, the peak of DNA synthesis. Pulse chase experiments indicated that the proteins synthesized in the first hour after stimulation have a turnover time of less than four hours, while the same fractions in non‐proliferating cells were stable for at least 12 hours. 2‐mercapto‐1‐(β‐4‐pyridethyl) benzimidazole, when added at the same time as the fresh medium, produced an inhibition of the increase in nuclear protein synthesis at one hour, but, if added at five hours after stimulation, it did not inhibit the increase in nuclear protein synthesis occurring at six hours. Actinomycin D (0.01 μg/ml) inhibited both the stimulation of DNA synthesis and the increases in nuclear acidic protein synthesis occurring at one and six hours after stimulation. These results seem to indicate that the serum factors responsible for the stimulation of WI‐38 cells, after binding to cells, induce an early synthesis of acidic nuclear proteins which is sensitive to very low doses of actinomycin D. In turn, the newly synthesized proteins could in some way activate in the nuclei the genes that control DNA synthesis and cell division.
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