Abstract
We compared the cell cycle regulation of thymidine kinase (TK) after centrifugal elutriation in normal human and mouse cells (primary cells, diploid fibroblasts) with its expression in cells transformed with different DNA tumor viruses. Normal cells showed a rise of TK enzyme activity near the G1/S boundary, which peaked in S phase, and in G2 returned approximately to the level of G1. Conversely, in cells derived from viral transformation, TK activity remained high throughout S and G2 phases, although it was induced to a comparable extent at the onset of DNA replication. In addition, transformed cells exhibited much more enzyme activity during all phases of the cell cycle. The observed differences in expression were due neither to different rates of protein turnover nor to differences in enzyme stability. Enzyme activity was always totally paralleled by the protein level. In all normal cells, the pattern of TK mRNA variation during the cell cycle was similar to that of enzyme activity. In all transformed lines, however, mRNA levels were higher and did not fluctuate throughout the cell cycle. Recently we showed (Ogris et al., 1993) that the E2F binding site present in the TK promoter is a target for trans activation of the TK gene by polyoma virus large T antigen. Using cells expressing this antigen under the control of a hormone-inducible promoter, we were able to switch TK cell cycle expression from the normal to the transformed status. Obviously, DNA tumor viruses suppress transcriptional down-regulation of the endogenous DNA precursor pathway enzyme TK during the eukaryotic cell cycle, maybe to improve conditions for their own replication.
Highlights
We compared the cell cycle regulation of thymidine gin and causes the mulcohwer and constantlevel of activity in kinase (TK)after centrifugal elutriation in normal hu- resting cells (Adler and McAuslin, 1974)
We showed (Ogris et al, 1993)that the gene are detectable after the onset of replication, the steady E2F binding site present in the thymidine kinase (TK) promoter is a target state TK mRNA level parallels the increase iennzyme activity for trans activation of the TK gene by polyoma virus (Groudine and Casimir, 1984). in simian virus40-infected large T antigen
Cells the inductionof TK enzyme activityfollows the increase in mRNA level; the virally infected cells accumulate more TK mRNA than do the serum-stimulatedcells (Stuart et al, 1985)
Summary
We compared the cell cycle regulation of thymidine gin and causes the mulcohwer and constantlevel of activity in kinase (TK)after centrifugal elutriation in normal hu- resting cells (Adler and McAuslin, 1974). We found that in the normal eukaryotic cell cycle the transient stimulation of enzyme activity during earlyS phase is paralleled by a transient induction of mRNA content. To find out if these differentpromoterscause differences in the cell cycle expression pattern, we analyzed TK enzyme activity and steady state mRNA levels in elutriated primaryfibroblasts of Normal fetal fibroblasts
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