Histone H1 super(S)-3 phosphorylation in Ha-ras oncogene-transformed mouse fibroblasts

Phosphorylation of linker histone H1 super(S)-3 (previously named H1b) and core histone H3 is elevated in mouse fibroblasts transformed with oncogenes or constitutively active mitogen-activated protein kinase (MAPK) kinase (MEK). H1 super(S)-3 phosphorylation is the only histone modification known t...

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Veröffentlicht in:	Oncogene 2002-12, Vol.21 (55), p.8397-8403
Hauptverfasser:	Chadee, D N, Peltier, C P, Davie, J R
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creator	Chadee, D N Peltier, C P Davie, J R
description	Phosphorylation of linker histone H1 super(S)-3 (previously named H1b) and core histone H3 is elevated in mouse fibroblasts transformed with oncogenes or constitutively active mitogen-activated protein kinase (MAPK) kinase (MEK). H1 super(S)-3 phosphorylation is the only histone modification known to be dependent upon transcription and replication. Our results show that the increased amounts of phosphorylated H1 super(S)-3 in the oncogene Ha-ras-transformed mouse fibroblasts was a consequence of an elevated Cdk2 activity rather than the reduced activity of a H1 phosphatase, which our studies suggest is PP1. Induction of oncogenic ras expression results in an increase in H1 super(S)-3 and H3 phosphorylation. However, in contrast to the phosphorylation of H3, which occurred immediately following the onset of Ras expression, there was a lag of several hours before H1 super(S)-3 phosphorylation levels increased. We found that there was a transient increase in the levels of p21 super(cip1), which inhibited the H1 kinase activity of Cdk2. Cdk2 activity and H1 super(S)-3 phosphorylated levels increased after p21 super(cip1) levels declined. Our studies suggest that persistent activation of the Ras-MAPK signal transduction pathway in oncogene-transformed cells results in deregulated activity of kinases phosphorylating H3 and H1 super(S)-3 associated with transcribed genes. The chromatin remodelling actions of these modified histones may result in aberrant gene expression.
doi_str_mv	10.1038/sj.onc.1206029
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H1 super(S)-3 phosphorylation is the only histone modification known to be dependent upon transcription and replication. Our results show that the increased amounts of phosphorylated H1 super(S)-3 in the oncogene Ha-ras-transformed mouse fibroblasts was a consequence of an elevated Cdk2 activity rather than the reduced activity of a H1 phosphatase, which our studies suggest is PP1. Induction of oncogenic ras expression results in an increase in H1 super(S)-3 and H3 phosphorylation. However, in contrast to the phosphorylation of H3, which occurred immediately following the onset of Ras expression, there was a lag of several hours before H1 super(S)-3 phosphorylation levels increased. We found that there was a transient increase in the levels of p21 super(cip1), which inhibited the H1 kinase activity of Cdk2. Cdk2 activity and H1 super(S)-3 phosphorylated levels increased after p21 super(cip1) levels declined. Our studies suggest that persistent activation of the Ras-MAPK signal transduction pathway in oncogene-transformed cells results in deregulated activity of kinases phosphorylating H3 and H1 super(S)-3 associated with transcribed genes. 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Our studies suggest that persistent activation of the Ras-MAPK signal transduction pathway in oncogene-transformed cells results in deregulated activity of kinases phosphorylating H3 and H1 super(S)-3 associated with transcribed genes. 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title	Histone H1 super(S)-3 phosphorylation in Ha-ras oncogene-transformed mouse fibroblasts
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