Ornithine decarboxylase induction and the cytoskeleton in normal and transformed cells

ODC induction by fresh medium added to stationary, medium‐depleted, confluent cultures has been studied in transformed HeLa and CHO cells, and in normal human fibroblasts as an indicator of the resumption of cell multiplication. The transformed HeLa cell displays a more easily reversed G 1 block, a higher peak ODC level, and a shorter time period for achievement of the peak ODC value than does the normal fibroblast. Low concentrations of microtubule depolymerizing agents like colchicine suppress ODC induction almost completely in the normal fibroblast, but hardly at all in the HeLa or CHO cells. Both transformed cells occasionally reveal a superinduction of ODC at very low colchicine levels (10 −8 ‐10 −7 M) and a more variable response to such agents than does the normal fibroblast. Higher concentrations of colchicine suppress ODC induction in all cells. Experiments with actinomycin D and cycloheximide indicate that the principal colchicine action involves inhibition at the level of protein or mRNA synthesis, rather than inactivation of the already synthesized enzyme. These experiments are provisionally interpreted as an indication that a microtubular system is needed to reinitiate certain steps associated with growth in G 1 ‐blocked, normal cells, and that a second microtubular action terminating enzyme biosynthesis may exist. This microtubular control is defective in the transformed cells here studied. Specific microtubular actions necessary for initiation and termination of protein syntheses may occur throughout the cell reproductive cycle, and in the course of normal differentiation processes.