Uridine and cytidine metabolism following inhibition of de novo pyrimidine synthesis by pyrazofurin

Abstract

Pyrazofurin, an inhibitor of orotidylate decarboxylase, imposes an absoluted nutritional requirement for exogenous uridine to maintain normal growth of L5178Y, P388, L1210, W256 and S180 cells in vitro. The amount of uridine necessary for cell division when de novo uridine nucleotide synthesis is inhibited by pyrazofurin is: L5178Y, 30.5; P388, 39.7; L1210, 53.3; W256, 70.6; and S180, 886 fmol/cell. Cytidine, which can be deaminated to uridine, will substitute for uridine to maintain normal cell growth in the presence of growth-inhibitory concentrations of pyrazofurin (5 μM). The requirements for cytidine and uridine are identical. If cytidine deamination is prevented by tetrahydrouridine (100 μM), cytidine can no longer support growth in the presence of pyrazofurin. Cytidine and uridine, as expected, are additive in their effect to permit normal growth of pyrazofurin treated cells. Tetrahydrouridine does not alter this additive effect, indicating that when both nucleotides are added to pyrazofurin treated cells each nucleotide replenishes their respective nucleotide pools and cytidine deamination is unnecessary to allow cell growth. Incorporation of [ 14C]uridine into the acid insoluble cell fraction of L5178Y cells was 25 fmol/cell at 48 h and remained constant during the remaining growth of the pyrazofurin treated cell suspension. The [ 14C]uridine acid soluble pool of 4 fmol/cell also was maximum at 48 h but declined during the subsequent growth of the suspension culture to approx. 2 fmol/cell at 96 h. This decline in the acid soluble pool is correlated with a 42% decrease in modal cell volume during this phase of cell growth which would maintain a constant specific activity of uridine in this pool. This may explain the decline in the acid soluble pool while the acid insoluble pool remains constant during growth of suspension cultures of L5178Y cells. The block in pyrimidine synthesis de novo induced by pyrazofurin provides a useful and quick method for the evaluation of uridine and cytidine metabolism of tumor cell specimens.