Abstract
BackgroundCore canonical histones are required in the S phase of the cell cycle to pack newly synthetized DNA, therefore the expression of their genes is highly activated during DNA replication. In mammalian cells, this increment is achieved by both enhanced transcription and 3′ end processing. In this paper, we described positive cofactor 4 (PC4) as a protein that contributes to the regulation of replication-dependent histone gene expression.ResultsWe showed that PC4 influences RNA polymerase II recruitment to histone gene loci in a cell cycle-dependent manner. The most important effect was observed in S phase where PC4 knockdown leads to the elevated level of RNA polymerase II on histone genes, which corresponds to the increased total level of those gene transcripts. The opposite effect was caused by PC4 overexpression. Moreover, we found that PC4 has a negative effect on the unique 3′ end processing of histone pre-mRNAs that can be based on the interaction of PC4 with U7 snRNP and CstF64. Interestingly, this effect does not depend on the cell cycle.ConclusionsWe conclude that PC4 might repress RNA polymerase II recruitment and transcription of replication-dependent histone genes in order to maintain the very delicate balance between histone gene expression and DNA synthesis. It guards the cell from excess of histones in S phase. Moreover, PC4 might promote the interaction of cleavage and polyadenylation complex with histone pre-mRNAs, that might impede with the recruitment of histone cleavage complex. This in turn decreases the 3′ end processing efficiency of histone gene transcripts.
Highlights
Core canonical histones are required in the S phase of the cell cycle to pack newly synthetized DNA, the expression of their genes is highly activated during DNA replication
positive cofactor 4 (PC4) interacts with the U7 U7 small nuclear ribonucleoprotein (snRNP) complex Affinity chromatography based on MS2-tagged U7 snRNA followed by mass spectrometry analysis was performed in order to identify new proteins interacting with U7 snRNP
PC4 protein was identified in a total of 8 different U7-enriched fractions obtained by various methods
Summary
Core canonical histones are required in the S phase of the cell cycle to pack newly synthetized DNA, the expression of their genes is highly activated during DNA replication. In mammalian cells, this increment is achieved by both enhanced transcription and 3′ end processing. Genes that encode for histone variants that are expressed in terminally differentiated cells and not in S phase are not influenced by this regulation. These replication-independent histones (RIH) are incorporated into core particles to compensate for the histones that have
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