Repair replication in cultured normal and transformed human fibroblasts.

Repair replication in response to ultraviolet irradiation has been studied in normal human diploid fibroblast cultures, W138, and an SV40 transformant, VA13. Quantitative comparisons have been made using the combined isotopic and density labeling method for assaying repair replication. We find no significant difference in the amount of repair replication performed its dose response, or the time course between growing and confluent W138 cells, early passage and senescent cells, or normal W138 cells and the transformed VA13 cells. When [3H]dThd was employed as the isotopic label in the presence of a 30-200 fold excess of unlabelled BrdUrd, apparent differences in repair replication were seen between W138 cells shortly after subcultivation and cells which had been allowed to reach confluence. These differences were the same over a wide dose range and regardless of the passage number of the cells, but could be influenced by using different serum lots. The differences were not seen, however, when [3H]BrdUrd provided the isotopic label; thus they reflect either impurities in the [3H]dThd or a slight discrimination by some cellular process.