Response of mammalian ADP-ribosyl transferase to lymphocyte stimulation, mutagen treatment and cell cycling.

The inhibitors of the nuclear enzyme ADP-ribosyl transferase (ADPRT) had been shown to block the stimulation of quiescent lymphocytes with mitogens suggesting the involvement of the enzyme in the control of gene expression and cell differentiation. By means of the activity-gel assay we have analysed the intensity and the molecular mass of the catalytic bands of the enzyme at early and late times after stimulation of human lymphocytes by phytohemagglutinin. We observed that the increase in the activity of ADPRT is concurrent with the onset of DNA synthesis and is maintained for up to 10 days after lymphocyte stimulation, when DNA replication is over but the capacity to perform repair synthesis is still elevated. The analysis of ADPRT in stimulated lymphocytes by Western blots indicated that the increase in enzyme activity is due to the de novo synthesis of enzyme protein. The response of ADPRT to the treatment of human lymphocytes with DNA-damaging agents was studied at various dose-ranges, using the activity-gel technique. The results obtained indicate that dimethyl sulfate is 10 times as active as methyl methane sulfonate in stimulating ADPRT activity and that, at very high doses, the activity band of the enzyme tends to disappear. Very similar observations were obtained when Chinese hamster ovary cells were treated with the same agents, although the concentrations of the mutagens eliciting maximal ADPRT activation were 10 times higher than in human lymphocytes. When analysed by Western blots, no significant difference of the protein band of the enzyme was observed in comparing control and treated cells. This suggests that the activity-gel system can detect two different phenomena: the increase in enzyme protein, as in the case of stimulated lymphocytes, and the enzyme-activating effect of DNA-damaging agents, which occurs without changing the number of enzyme molecules. Of particular interest is the observation that mitomycin C is capable of activating ADPRT in human lymphocytes, thus suggesting that cross-linking agents are involved in promoting ADP-ribosylation reactions. We have also analysed the variations of the enzyme throughout the cell cycle in HeLa cells synchronized in S phase or in mitosis. No significant changes in the levels of the enzyme activity were revealed by the activity-gel assay during the progression of the cycle, although an overall increase of active polypeptides of larger size in concomitance with the S period was observed.