Histone H1 interphase phosphorylation becomes largely established in G<sub>1 </sub>or early S phase and differs in G<sub>1 </sub>between T-lymphoblastoid cells and normal T cells

Histone H1 interphase phosphorylation becomes largely established in G<sub>1 </sub>or early S phase and differs in G<sub>1 </sub>between T-lymphoblastoid cells and normal T cells

<p>Abstract</p> <p>Background</p> <p>Histone H1 is an important constituent of chromatin, and is involved in regulation of its structure. During the cell cycle, chromatin becomes locally decondensed in S phase, highly condensed during metaphase, and again decondensed be...

Full description

Bibliographic Details
Main Authors: Gréen Anna, Sarg Bettina, Gréen Henrik, Lönn Anita, Lindner Herbert H, Rundquist Ingemar
Format: Article
Language:English
Published: BMC 2011-08-01
Series:Epigenetics & Chromatin
Online Access:http://www.epigeneticsandchromatin.com/content/4/1/15
id doaj-e85e7d85cb0f417ca417d56a9ed6f870
record_format Article
spelling doaj-e85e7d85cb0f417ca417d56a9ed6f8702020-11-24T21:12:04ZengBMCEpigenetics & Chromatin1756-89352011-08-01411510.1186/1756-8935-4-15Histone H1 interphase phosphorylation becomes largely established in G<sub>1 </sub>or early S phase and differs in G<sub>1 </sub>between T-lymphoblastoid cells and normal T cellsGréen AnnaSarg BettinaGréen HenrikLönn AnitaLindner Herbert HRundquist Ingemar<p>Abstract</p> <p>Background</p> <p>Histone H1 is an important constituent of chromatin, and is involved in regulation of its structure. During the cell cycle, chromatin becomes locally decondensed in S phase, highly condensed during metaphase, and again decondensed before re-entry into G<sub>1</sub>. This has been connected to increasing phosphorylation of H1 histones through the cell cycle. However, many of these experiments have been performed using cell-synchronization techniques and cell cycle-arresting drugs. In this study, we investigated the H1 subtype composition and phosphorylation pattern in the cell cycle of normal human activated T cells and Jurkat T-lymphoblastoid cells by capillary electrophoresis after sorting of exponentially growing cells into G<sub>1</sub>, S and G<sub>2</sub>/M populations.</p> <p>Results</p> <p>We found that the relative amount of H1.5 protein increased significantly after T-cell activation. Serine phosphorylation of H1 subtypes occurred to a large extent in late G<sub>1 </sub>or early S phase in both activated T cells and Jurkat cells. Furthermore, our data confirm that the H1 molecules newly synthesized during S phase achieve a similar phosphorylation pattern to the previous ones. Jurkat cells had more extended H1.5 phosphorylation in G<sub>1 </sub>compared with T cells, a difference that can be explained by faster cell growth and/or the presence of enhanced H1 kinase activity in G<sub>1 </sub>in Jurkat cells.</p> <p>Conclusion</p> <p>Our data are consistent with a model in which a major part of interphase H1 phosphorylation takes place in G<sub>1 </sub>or early S phase. This implies that H1 serine phosphorylation may be coupled to changes in chromatin structure necessary for DNA replication. In addition, the increased H1 phosphorylation of malignant cells in G<sub>1 </sub>may be affecting the G<sub>1</sub>/S transition control and enabling facilitated S-phase entry as a result of relaxed chromatin condensation. Furthermore, increased H1.5 expression may be coupled to the proliferative capacity of growth-stimulated T cells.</p> http://www.epigeneticsandchromatin.com/content/4/1/15
collection DOAJ
language English
format Article
sources DOAJ
author Gréen Anna
Sarg Bettina
Gréen Henrik
Lönn Anita
Lindner Herbert H
Rundquist Ingemar
spellingShingle Gréen Anna
Sarg Bettina
Gréen Henrik
Lönn Anita
Lindner Herbert H
Rundquist Ingemar
Histone H1 interphase phosphorylation becomes largely established in G<sub>1 </sub>or early S phase and differs in G<sub>1 </sub>between T-lymphoblastoid cells and normal T cells
Epigenetics & Chromatin
author_facet Gréen Anna
Sarg Bettina
Gréen Henrik
Lönn Anita
Lindner Herbert H
Rundquist Ingemar
author_sort Gréen Anna
title Histone H1 interphase phosphorylation becomes largely established in G<sub>1 </sub>or early S phase and differs in G<sub>1 </sub>between T-lymphoblastoid cells and normal T cells
title_short Histone H1 interphase phosphorylation becomes largely established in G<sub>1 </sub>or early S phase and differs in G<sub>1 </sub>between T-lymphoblastoid cells and normal T cells
title_full Histone H1 interphase phosphorylation becomes largely established in G<sub>1 </sub>or early S phase and differs in G<sub>1 </sub>between T-lymphoblastoid cells and normal T cells
title_fullStr Histone H1 interphase phosphorylation becomes largely established in G<sub>1 </sub>or early S phase and differs in G<sub>1 </sub>between T-lymphoblastoid cells and normal T cells
title_full_unstemmed Histone H1 interphase phosphorylation becomes largely established in G<sub>1 </sub>or early S phase and differs in G<sub>1 </sub>between T-lymphoblastoid cells and normal T cells
title_sort histone h1 interphase phosphorylation becomes largely established in g<sub>1 </sub>or early s phase and differs in g<sub>1 </sub>between t-lymphoblastoid cells and normal t cells
publisher BMC
series Epigenetics & Chromatin
issn 1756-8935
publishDate 2011-08-01
description <p>Abstract</p> <p>Background</p> <p>Histone H1 is an important constituent of chromatin, and is involved in regulation of its structure. During the cell cycle, chromatin becomes locally decondensed in S phase, highly condensed during metaphase, and again decondensed before re-entry into G<sub>1</sub>. This has been connected to increasing phosphorylation of H1 histones through the cell cycle. However, many of these experiments have been performed using cell-synchronization techniques and cell cycle-arresting drugs. In this study, we investigated the H1 subtype composition and phosphorylation pattern in the cell cycle of normal human activated T cells and Jurkat T-lymphoblastoid cells by capillary electrophoresis after sorting of exponentially growing cells into G<sub>1</sub>, S and G<sub>2</sub>/M populations.</p> <p>Results</p> <p>We found that the relative amount of H1.5 protein increased significantly after T-cell activation. Serine phosphorylation of H1 subtypes occurred to a large extent in late G<sub>1 </sub>or early S phase in both activated T cells and Jurkat cells. Furthermore, our data confirm that the H1 molecules newly synthesized during S phase achieve a similar phosphorylation pattern to the previous ones. Jurkat cells had more extended H1.5 phosphorylation in G<sub>1 </sub>compared with T cells, a difference that can be explained by faster cell growth and/or the presence of enhanced H1 kinase activity in G<sub>1 </sub>in Jurkat cells.</p> <p>Conclusion</p> <p>Our data are consistent with a model in which a major part of interphase H1 phosphorylation takes place in G<sub>1 </sub>or early S phase. This implies that H1 serine phosphorylation may be coupled to changes in chromatin structure necessary for DNA replication. In addition, the increased H1 phosphorylation of malignant cells in G<sub>1 </sub>may be affecting the G<sub>1</sub>/S transition control and enabling facilitated S-phase entry as a result of relaxed chromatin condensation. Furthermore, increased H1.5 expression may be coupled to the proliferative capacity of growth-stimulated T cells.</p>
url http://www.epigeneticsandchromatin.com/content/4/1/15
work_keys_str_mv AT greenanna histoneh1interphasephosphorylationbecomeslargelyestablishedingsub1suborearlysphaseanddiffersingsub1subbetweentlymphoblastoidcellsandnormaltcells
AT sargbettina histoneh1interphasephosphorylationbecomeslargelyestablishedingsub1suborearlysphaseanddiffersingsub1subbetweentlymphoblastoidcellsandnormaltcells
AT greenhenrik histoneh1interphasephosphorylationbecomeslargelyestablishedingsub1suborearlysphaseanddiffersingsub1subbetweentlymphoblastoidcellsandnormaltcells
AT lonnanita histoneh1interphasephosphorylationbecomeslargelyestablishedingsub1suborearlysphaseanddiffersingsub1subbetweentlymphoblastoidcellsandnormaltcells
AT lindnerherberth histoneh1interphasephosphorylationbecomeslargelyestablishedingsub1suborearlysphaseanddiffersingsub1subbetweentlymphoblastoidcellsandnormaltcells
AT rundquistingemar histoneh1interphasephosphorylationbecomeslargelyestablishedingsub1suborearlysphaseanddiffersingsub1subbetweentlymphoblastoidcellsandnormaltcells
_version_ 1716751633170300928

Similar Items