Assay of ribonucleotide reductase activity in intact permeabilized hamster cells: an evaluation

An intact cell assay system, based on Tween-80 permeabilization can be used to investigate ribonucleotide reductase activity in a variety of mammalian cell lines. An important consideration in the use of intact cells is the presence of other nucleotide metabolizing activities. The influence of these activities on estimates of pyrimidine (CDP) and purine (ADP) reductase in permeabilized hamster cells has been examined. Studies on the incorporation of label from CDP and ADP into RNA indicated that a very small proportion of the reductase substrates was eventually incorporated into RNA during routine enzyme assays, and would have no detectable effect on activity estimates. The possibility that the products of the reaction (dCDP and dADP) were eventually phosphorylated and incorporated into DNA was also examined, and it was found that proper permeabilization of the cells eliminated or greatly reduced loss of deoxyribonucleotides to DNA. An analysis by HPLC of nucleotides present during CDP and ADP reductase reactions showed that various kinases and phosphatases were active in permeabilized cells, as all levels of phosphorylation of nucleotide substrates and allosteric effectors were detected. The base composition of the nucleotides added to the assay systems were not altered. Although movement of phosphates occurred during the assay, the concentrations of substrates quickly reached equilibrium (within 1 min) with their respective nucleosides and nucleotides, resulting in a relatively constant although reduced concentration of CDP or ADP substrates during the 20-min assay. Similarly the levels of allosteric effectors, ATP for pyrimidine and dGTP for purine reductase activities, declined within the first minute of the assays and quickly reached an equilibrium with their respective adenine or guanine containing nucleotides during most of the reaction time. Although useful approximations of intracellular reductase activity can be obtained without correcting for modified nucleotide concentrations, precise determinations can be calculated when these alterations are taken into consideration. For example, estimates of intracellular K_m values for CDP closely resembled those reported with highly purified mammalian enzyme preparations in other studies. Clearly, the intact cell assay system provides worthwhile information about mammalian ribonucleotide reductase in its physiologically relevant environment.