Transcription of histone H4, H3, and H1 cell cycle genes: promoter factor HiNF-D contains CDC2, cyclin A, and an RB-related protein

Andre J. Van Wijnen; Farah Aziz; Xavier Grana; Antonio de Luca; Rajesh K. Desai; Karen Jaarsveld; Thomas J Last; Kenneth Soprano; Antonio Giordano; Jane B Lian; Janet L. Stein; Gary S Stein

doi:10.1073/pnas.91.26.12882

Transcription of histone H4, H3, and H1 cell cycle genes: promoter factor HiNF-D contains CDC2, cyclin A, and an RB-related protein

Andre J. Van Wijnen, Farah Aziz, Xavier Grana, Antonio de Luca, Rajesh K. Desai, Karen Jaarsveld, Thomas J Last, Kenneth Soprano, Antonio Giordano, Jane B Lian, Janet L. Stein, Gary S Stein

Department of Bio-Medical Sciences (PCOM)

Research output: Contribution to journal › Article › peer-review

Abstract

Cell cycle-controlled human histone genes are coordinately expressed during S phase, and transcriptional regulation involves a series of trans-acting factors (HiNFs). The proliferation-specific factor HiNF-D interacts with multiple recognition motifs in histone H4, H3, and H1 promoters. Using gel shift immunoassays, we show that CDC2, cyclin A, and an RB-related protein are ubiquitous subunits of HiNF-D binding activity isolated from several cell types. HiNF-D levels in vivo are sensitive to okadaic acid and staurosporine, indicating that HiNF-D activity and/or assembly is influenced by phosphorylation status. Thus, HiNF-D appears to be a multicomponent phosphoprotein that participates in coordinate control of multiple histone H4, H3, and H1 genes during the cell cycle. The presence of cell cycle mediators in the HiNF-D complex suggests linkage between transcriptional control of histones, enzymes involved in DNA synthesis, and the onset of DNA replication during the G1/S phase transition.

Original language	American English
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	91
DOIs	https://doi.org/10.1073/pnas.91.26.12882
State	Published - Dec 1994

Disciplines

Biochemistry
Medicine and Health Sciences

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Cite this

Van Wijnen, A. J., Aziz, F., Grana, X., de Luca, A., Desai, R. K., Jaarsveld, K., Last, T. J., Soprano, K., Giordano, A., Lian, J. B., Stein, J. L., & Stein, G. S. (1994). Transcription of histone H4, H3, and H1 cell cycle genes: promoter factor HiNF-D contains CDC2, cyclin A, and an RB-related protein. Proceedings of the National Academy of Sciences of the United States of America, 91. https://doi.org/10.1073/pnas.91.26.12882

Van Wijnen, AJ, Aziz, F, Grana, X, de Luca, A, Desai, RK, Jaarsveld, K, Last, TJ, Soprano, K, Giordano, A, Lian, JB, Stein, JL & Stein, GS 1994, 'Transcription of histone H4, H3, and H1 cell cycle genes: promoter factor HiNF-D contains CDC2, cyclin A, and an RB-related protein', Proceedings of the National Academy of Sciences of the United States of America, vol. 91. https://doi.org/10.1073/pnas.91.26.12882

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title = "Transcription of histone H4, H3, and H1 cell cycle genes: promoter factor HiNF-D contains CDC2, cyclin A, and an RB-related protein",

abstract = " Cell cycle-controlled human histone genes are coordinately expressed during S phase, and transcriptional regulation involves a series of trans-acting factors (HiNFs). The proliferation-specific factor HiNF-D interacts with multiple recognition motifs in histone H4, H3, and H1 promoters. Using gel shift immunoassays, we show that CDC2, cyclin A, and an RB-related protein are ubiquitous subunits of HiNF-D binding activity isolated from several cell types. HiNF-D levels in vivo are sensitive to okadaic acid and staurosporine, indicating that HiNF-D activity and/or assembly is influenced by phosphorylation status. Thus, HiNF-D appears to be a multicomponent phosphoprotein that participates in coordinate control of multiple histone H4, H3, and H1 genes during the cell cycle. The presence of cell cycle mediators in the HiNF-D complex suggests linkage between transcriptional control of histones, enzymes involved in DNA synthesis, and the onset of DNA replication during the G1/S phase transition.",

author = "{Van Wijnen}, {Andre J.} and Farah Aziz and Xavier Grana and {de Luca}, Antonio and Desai, {Rajesh K.} and Karen Jaarsveld and Last, {Thomas J} and Kenneth Soprano and Antonio Giordano and Lian, {Jane B} and Stein, {Janet L.} and Stein, {Gary S}",

year = "1994",

month = dec,

doi = "10.1073/pnas.91.26.12882",

language = "American English",

volume = "91",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

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T1 - Transcription of histone H4, H3, and H1 cell cycle genes: promoter factor HiNF-D contains CDC2, cyclin A, and an RB-related protein

AU - Van Wijnen, Andre J.

AU - Aziz, Farah

AU - Grana, Xavier

AU - de Luca, Antonio

AU - Desai, Rajesh K.

AU - Jaarsveld, Karen

AU - Last, Thomas J

AU - Soprano, Kenneth

AU - Giordano, Antonio

AU - Lian, Jane B

AU - Stein, Janet L.

AU - Stein, Gary S

PY - 1994/12

Y1 - 1994/12

N2 - Cell cycle-controlled human histone genes are coordinately expressed during S phase, and transcriptional regulation involves a series of trans-acting factors (HiNFs). The proliferation-specific factor HiNF-D interacts with multiple recognition motifs in histone H4, H3, and H1 promoters. Using gel shift immunoassays, we show that CDC2, cyclin A, and an RB-related protein are ubiquitous subunits of HiNF-D binding activity isolated from several cell types. HiNF-D levels in vivo are sensitive to okadaic acid and staurosporine, indicating that HiNF-D activity and/or assembly is influenced by phosphorylation status. Thus, HiNF-D appears to be a multicomponent phosphoprotein that participates in coordinate control of multiple histone H4, H3, and H1 genes during the cell cycle. The presence of cell cycle mediators in the HiNF-D complex suggests linkage between transcriptional control of histones, enzymes involved in DNA synthesis, and the onset of DNA replication during the G1/S phase transition.

AB - Cell cycle-controlled human histone genes are coordinately expressed during S phase, and transcriptional regulation involves a series of trans-acting factors (HiNFs). The proliferation-specific factor HiNF-D interacts with multiple recognition motifs in histone H4, H3, and H1 promoters. Using gel shift immunoassays, we show that CDC2, cyclin A, and an RB-related protein are ubiquitous subunits of HiNF-D binding activity isolated from several cell types. HiNF-D levels in vivo are sensitive to okadaic acid and staurosporine, indicating that HiNF-D activity and/or assembly is influenced by phosphorylation status. Thus, HiNF-D appears to be a multicomponent phosphoprotein that participates in coordinate control of multiple histone H4, H3, and H1 genes during the cell cycle. The presence of cell cycle mediators in the HiNF-D complex suggests linkage between transcriptional control of histones, enzymes involved in DNA synthesis, and the onset of DNA replication during the G1/S phase transition.

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