Down-regulation of genes encoding DNA replication proteins during cell cycle exit.

We have studied the expression of genes encoding DNA replication proteins during different cell growth events. Gene expression of human DNA polymerase alpha-DNA primase, a principal chromosomal replication enzyme complex, is up-regulated during the entrance of a cell from quiescence into the mitotic cell cycle. In contrast, expression of these genes is greatly reduced in fibroblasts rendered temporarily quiescent by contact inhibition or serum starvation. In actively cycling cells, DNA polymerase alpha-DNA primase genes are expressed at all stages of the cell cycle. To investigate how their gene expression is regulated in cells permanently exiting the cell cycle during terminal differentiation, we used a novel method to obtain a pure population of such cells. In this report, we describe the down-regulation of gene expression of DNA polymerase alpha during both HL-60 (human myeloid) and MEL (mouse erythroleukemia) cell differentiation. Gene expression of the two subunits of DNA primase, p49 and p58, is also down-regulated at the mRNA level in differentiated MEL cells. In differentiated HL-60 cells, the decline of DNA polymerase alpha gene expression occurs at both the transcript and protein levels. Down-regulation of DNA polymerase alpha at the steady state transcript level is caused, at least in part, by a decreased rate of transcription initiation without transcription elongation block.