Abstract
Orderly progression through the cell cycle requires the transcriptional activation of histone genes to support packaging of newly replicated DNA. Induction of human histone gene expression is mediated by a co-activation complex containing transcription factor HiNF-P and its cofactor p220NPAT. Here, using cells synchronized in S-phase and in mitosis, as well as serum-stimulated cells, we have investigated how HiNF-P is regulated during the cell cycle and examined its stability relative to p220NPAT. We find that while HiNF-P is maintained at steady-state levels throughout the cell cycle, both HiNF-P and p220NPAT are actively degraded by the proteasome pathway. Importantly, elevation of HiNF-P levels enhances the stability of its co-activator p220NPAT. The HiNF-P-dependent stabilization of p220NPAT may reinforce signaling through the cyclin E/CDK2/p220NPAT pathway and contribute to coordinate control of histone gene expression.
Publication types
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Research Support, N.I.H., Extramural
MeSH terms
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Cell Cycle Proteins / metabolism*
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Cell Cycle Proteins / physiology
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Cell Cycle* / genetics
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Cyclin E / physiology
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Cyclin-Dependent Kinase 2 / physiology
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Half-Life
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HeLa Cells
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Histones / genetics*
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Histones / metabolism*
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Humans
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Nuclear Proteins / metabolism*
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Nuclear Proteins / physiology
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Proteasome Endopeptidase Complex / physiology
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RNA, Messenger / metabolism
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Repressor Proteins / biosynthesis
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Repressor Proteins / genetics
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Repressor Proteins / metabolism
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Repressor Proteins / physiology*
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Signal Transduction / genetics
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Trans-Activators / metabolism*
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Trans-Activators / physiology
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Ubiquitin-Protein Ligase Complexes / physiology
Substances
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Cell Cycle Proteins
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Cyclin E
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HINFP protein, human
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Histones
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NPAT protein, human
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Nuclear Proteins
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RNA, Messenger
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Repressor Proteins
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Trans-Activators
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Ubiquitin-Protein Ligase Complexes
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Cyclin-Dependent Kinase 2
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Proteasome Endopeptidase Complex