Posttranslational Modifications of the Histone 3 Tail and Their Impact on the Activity of Histone Lysine Demethylases In Vitro

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Posttranslational Modifications of the Histone 3 Tail and Their Impact on the Activity of Histone Lysine Demethylases In Vitro. / Lohse, Brian; Helgstrand, Charlotte; Andersson, Jan Legaard; Leurs, Ulrike; Cloos, Paul Andreas Compare; Kristensen, Jesper Langgaard; Clausen, Rasmus Prætorius.

In: P L o S One, Vol. 8, No. 7, 02.07.2013, p. e67653.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Lohse, B, Helgstrand, C, Andersson, JL, Leurs, U, Cloos, PAC, Kristensen, JL & Clausen, RP 2013, 'Posttranslational Modifications of the Histone 3 Tail and Their Impact on the Activity of Histone Lysine Demethylases In Vitro', P L o S One, vol. 8, no. 7, pp. e67653.

APA

Lohse, B., Helgstrand, C., Andersson, J. L., Leurs, U., Cloos, P. A. C., Kristensen, J. L., & Clausen, R. P. (2013). Posttranslational Modifications of the Histone 3 Tail and Their Impact on the Activity of Histone Lysine Demethylases In Vitro. P L o S One, 8(7), e67653.

Vancouver

Lohse B, Helgstrand C, Andersson JL, Leurs U, Cloos PAC, Kristensen JL et al. Posttranslational Modifications of the Histone 3 Tail and Their Impact on the Activity of Histone Lysine Demethylases In Vitro. P L o S One. 2013 Jul 2;8(7):e67653.

Author

Lohse, Brian ; Helgstrand, Charlotte ; Andersson, Jan Legaard ; Leurs, Ulrike ; Cloos, Paul Andreas Compare ; Kristensen, Jesper Langgaard ; Clausen, Rasmus Prætorius. / Posttranslational Modifications of the Histone 3 Tail and Their Impact on the Activity of Histone Lysine Demethylases In Vitro. In: P L o S One. 2013 ; Vol. 8, No. 7. pp. e67653.

Bibtex

@article{337beeb6b17040a98b6ae2ce816c9665,
title = "Posttranslational Modifications of the Histone 3 Tail and Their Impact on the Activity of Histone Lysine Demethylases In Vitro",
abstract = "Posttranslational modifications (PTMs) of the histone H3 tail such as methylation, acetylation and phosphorylation play important roles in epigenetic signaling. Here we study the effect of some of these PTMs on the demethylation rates of methylated lysine 9 in vitro using peptide substrates mimicking histone H3. Various combinations with other PTMs were employed to study possible cross-talk effects by comparing enzyme kinetic characteristics. We compared the kinetics of histone tail substrates for truncated histone lysine demethylases KDM4A and KDM4C containing only the catalytic core (cc) and some combinations were characterized on full length (FL) KDM4A and KDM4C. We found that the substrates combining trimethylated K4 and K9 resulted in a significant increase in the catalytic activity for FL-KDM4A. For the truncated versions of KDM4A and KDM4C a two-fold increase in the catalytic activity toward bis-trimethylated substrates could be observed. Furthermore, a significant difference in the catalytic activity between dimethylated and trimethylated substrates was found for full length demethylases in line with what has been reported previously for truncated demethylases. Histone peptide substrates phosphorylated at T11 could not be demethylated by neither truncated nor full length KDM4A and KDM4C, suggesting that phosphorylation of threonine 11 prevents demethylation of the H3K9me3 mark on the same peptide. Acetylation of K14 was also found to influence demethylation rates significantly. Thus, for truncated KDM4A, acetylation on K14 of the substrate leads to an increase in enzymatic catalytic efficiency (kcat/Km), while for truncated KDM4C it induces a decrease, primarily caused by changes in Km. This study demonstrates that demethylation activities towards trimethylated H3K9 are significantly influenced by other PTMs on the same peptide, and emphasizes the importance of studying these interactions at the peptide level to get a more detailed understanding of the dynamics of epigenetic marks.",
author = "Brian Lohse and Charlotte Helgstrand and Andersson, {Jan Legaard} and Ulrike Leurs and Cloos, {Paul Andreas Compare} and Kristensen, {Jesper Langgaard} and Clausen, {Rasmus Pr{\ae}torius}",
year = "2013",
month = jul,
day = "2",
language = "English",
volume = "8",
pages = "e67653",
journal = "PLoS ONE",
issn = "1932-6203",
publisher = "Public Library of Science",
number = "7",

}

RIS

TY - JOUR

T1 - Posttranslational Modifications of the Histone 3 Tail and Their Impact on the Activity of Histone Lysine Demethylases In Vitro

AU - Lohse, Brian

AU - Helgstrand, Charlotte

AU - Andersson, Jan Legaard

AU - Leurs, Ulrike

AU - Cloos, Paul Andreas Compare

AU - Kristensen, Jesper Langgaard

AU - Clausen, Rasmus Prætorius

PY - 2013/7/2

Y1 - 2013/7/2

N2 - Posttranslational modifications (PTMs) of the histone H3 tail such as methylation, acetylation and phosphorylation play important roles in epigenetic signaling. Here we study the effect of some of these PTMs on the demethylation rates of methylated lysine 9 in vitro using peptide substrates mimicking histone H3. Various combinations with other PTMs were employed to study possible cross-talk effects by comparing enzyme kinetic characteristics. We compared the kinetics of histone tail substrates for truncated histone lysine demethylases KDM4A and KDM4C containing only the catalytic core (cc) and some combinations were characterized on full length (FL) KDM4A and KDM4C. We found that the substrates combining trimethylated K4 and K9 resulted in a significant increase in the catalytic activity for FL-KDM4A. For the truncated versions of KDM4A and KDM4C a two-fold increase in the catalytic activity toward bis-trimethylated substrates could be observed. Furthermore, a significant difference in the catalytic activity between dimethylated and trimethylated substrates was found for full length demethylases in line with what has been reported previously for truncated demethylases. Histone peptide substrates phosphorylated at T11 could not be demethylated by neither truncated nor full length KDM4A and KDM4C, suggesting that phosphorylation of threonine 11 prevents demethylation of the H3K9me3 mark on the same peptide. Acetylation of K14 was also found to influence demethylation rates significantly. Thus, for truncated KDM4A, acetylation on K14 of the substrate leads to an increase in enzymatic catalytic efficiency (kcat/Km), while for truncated KDM4C it induces a decrease, primarily caused by changes in Km. This study demonstrates that demethylation activities towards trimethylated H3K9 are significantly influenced by other PTMs on the same peptide, and emphasizes the importance of studying these interactions at the peptide level to get a more detailed understanding of the dynamics of epigenetic marks.

AB - Posttranslational modifications (PTMs) of the histone H3 tail such as methylation, acetylation and phosphorylation play important roles in epigenetic signaling. Here we study the effect of some of these PTMs on the demethylation rates of methylated lysine 9 in vitro using peptide substrates mimicking histone H3. Various combinations with other PTMs were employed to study possible cross-talk effects by comparing enzyme kinetic characteristics. We compared the kinetics of histone tail substrates for truncated histone lysine demethylases KDM4A and KDM4C containing only the catalytic core (cc) and some combinations were characterized on full length (FL) KDM4A and KDM4C. We found that the substrates combining trimethylated K4 and K9 resulted in a significant increase in the catalytic activity for FL-KDM4A. For the truncated versions of KDM4A and KDM4C a two-fold increase in the catalytic activity toward bis-trimethylated substrates could be observed. Furthermore, a significant difference in the catalytic activity between dimethylated and trimethylated substrates was found for full length demethylases in line with what has been reported previously for truncated demethylases. Histone peptide substrates phosphorylated at T11 could not be demethylated by neither truncated nor full length KDM4A and KDM4C, suggesting that phosphorylation of threonine 11 prevents demethylation of the H3K9me3 mark on the same peptide. Acetylation of K14 was also found to influence demethylation rates significantly. Thus, for truncated KDM4A, acetylation on K14 of the substrate leads to an increase in enzymatic catalytic efficiency (kcat/Km), while for truncated KDM4C it induces a decrease, primarily caused by changes in Km. This study demonstrates that demethylation activities towards trimethylated H3K9 are significantly influenced by other PTMs on the same peptide, and emphasizes the importance of studying these interactions at the peptide level to get a more detailed understanding of the dynamics of epigenetic marks.

M3 - Journal article

VL - 8

SP - e67653

JO - PLoS ONE

JF - PLoS ONE

SN - 1932-6203

IS - 7

ER -

ID: 46946789