DOT1L regulates lipid biosynthesis and inflammatory responses in macrophages and promotes atherosclerotic plaque stability

Lisa Willemsen; Koen H M Prange; Annette E Neele; Cindy P A A van Roomen; Marion Gijbels; Guillermo R Griffith; Myrthe den Toom; Linda Beckers; Ricky Siebeler; Nathanael J Spann; Hung-Jen Chen; Laura A Bosmans; Andrej Gorbatenko; Suzanne van Wouw; Noam Zelcer; Heinz Jacobs; Fred van Leeuwen; Menno P J de Winther

doi:10.1016/j.celrep.2022.111703

DOT1L regulates lipid biosynthesis and inflammatory responses in macrophages and promotes atherosclerotic plaque stability

Lisa Willemsen, Koen H M Prange, Annette E Neele, Cindy P A A van Roomen, Marion Gijbels, Guillermo R Griffith, Myrthe den Toom, Linda Beckers, Ricky Siebeler, Nathanael J Spann, Hung-Jen Chen, Laura A Bosmans, Andrej Gorbatenko, Suzanne van Wouw, Noam Zelcer, Heinz Jacobs, Fred van Leeuwen, Menno P J de Winther^*

^*Corresponding author for this work

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

Abstract

Macrophages are critical immune cells in inflammatory diseases, and their differentiation and function are tightly regulated by histone modifications. H3K79 methylation is a histone modification associated with active gene expression, and DOT1L is the only histone methyltransferase for H3K79. Here we determine the role of DOT1L in macrophages by applying a selective DOT1L inhibitor in mouse and human macrophages and using myeloid-specific Dot1l-deficient mice. We found that DOT1L directly regulates macrophage function by controlling lipid biosynthesis gene programs including central lipid regulators like sterol regulatory element-binding proteins SREBP1 and SREBP2. DOT1L inhibition also leads to macrophage hyperactivation, which is associated with disrupted SREBP pathways. In vivo, myeloid Dot1l deficiency reduces atherosclerotic plaque stability and increases the activation of inflammatory plaque macrophages. Our data show that DOT1L is a crucial regulator of macrophage inflammatory responses and lipid regulatory pathways and suggest a high relevance of H3K79 methylation in inflammatory disease.

Original language	English
Article number	111703
Number of pages	23
Journal	Cell Reports
Volume	41
Issue number	8
DOIs	https://doi.org/10.1016/j.celrep.2022.111703
Publication status	Published - 22 Nov 2022

Keywords

Humans
Mice
Animals
Histone-Lysine N-Methyltransferase/metabolism
Histones/metabolism
Plaque, Atherosclerotic
Macrophages/metabolism
Lipids

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10.1016/j.celrep.2022.111703Licence: CC BY-NC-ND

Cite this

Willemsen, L., Prange, K. H. M., Neele, A. E., van Roomen, C. P. A. A., Gijbels, M., Griffith, G. R., Toom, M. D., Beckers, L., Siebeler, R., Spann, N. J., Chen, H.-J., Bosmans, L. A., Gorbatenko, A., van Wouw, S., Zelcer, N., Jacobs, H., van Leeuwen, F., & de Winther, M. P. J. (2022). DOT1L regulates lipid biosynthesis and inflammatory responses in macrophages and promotes atherosclerotic plaque stability. Cell Reports, 41(8), Article 111703. https://doi.org/10.1016/j.celrep.2022.111703

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title = "DOT1L regulates lipid biosynthesis and inflammatory responses in macrophages and promotes atherosclerotic plaque stability",

abstract = "Macrophages are critical immune cells in inflammatory diseases, and their differentiation and function are tightly regulated by histone modifications. H3K79 methylation is a histone modification associated with active gene expression, and DOT1L is the only histone methyltransferase for H3K79. Here we determine the role of DOT1L in macrophages by applying a selective DOT1L inhibitor in mouse and human macrophages and using myeloid-specific Dot1l-deficient mice. We found that DOT1L directly regulates macrophage function by controlling lipid biosynthesis gene programs including central lipid regulators like sterol regulatory element-binding proteins SREBP1 and SREBP2. DOT1L inhibition also leads to macrophage hyperactivation, which is associated with disrupted SREBP pathways. In vivo, myeloid Dot1l deficiency reduces atherosclerotic plaque stability and increases the activation of inflammatory plaque macrophages. Our data show that DOT1L is a crucial regulator of macrophage inflammatory responses and lipid regulatory pathways and suggest a high relevance of H3K79 methylation in inflammatory disease.",

keywords = "Humans, Mice, Animals, Histone-Lysine N-Methyltransferase/metabolism, Histones/metabolism, Plaque, Atherosclerotic, Macrophages/metabolism, Lipids",

author = "Lisa Willemsen and Prange, {Koen H M} and Neele, {Annette E} and {van Roomen}, {Cindy P A A} and Marion Gijbels and Griffith, {Guillermo R} and Toom, {Myrthe den} and Linda Beckers and Ricky Siebeler and Spann, {Nathanael J} and Hung-Jen Chen and Bosmans, {Laura A} and Andrej Gorbatenko and {van Wouw}, Suzanne and Noam Zelcer and Heinz Jacobs and {van Leeuwen}, Fred and {de Winther}, {Menno P J}",

year = "2022",

month = nov,

day = "22",

doi = "10.1016/j.celrep.2022.111703",

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Willemsen, L, Prange, KHM, Neele, AE, van Roomen, CPAA, Gijbels, M, Griffith, GR, Toom, MD, Beckers, L, Siebeler, R, Spann, NJ, Chen, H-J, Bosmans, LA, Gorbatenko, A, van Wouw, S, Zelcer, N, Jacobs, H, van Leeuwen, F & de Winther, MPJ 2022, 'DOT1L regulates lipid biosynthesis and inflammatory responses in macrophages and promotes atherosclerotic plaque stability', Cell Reports, vol. 41, no. 8, 111703. https://doi.org/10.1016/j.celrep.2022.111703

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T1 - DOT1L regulates lipid biosynthesis and inflammatory responses in macrophages and promotes atherosclerotic plaque stability

AU - Willemsen, Lisa

AU - Prange, Koen H M

AU - Neele, Annette E

AU - van Roomen, Cindy P A A

AU - Gijbels, Marion

AU - Griffith, Guillermo R

AU - Toom, Myrthe den

AU - Beckers, Linda

AU - Siebeler, Ricky

AU - Spann, Nathanael J

AU - Chen, Hung-Jen

AU - Bosmans, Laura A

AU - Gorbatenko, Andrej

AU - van Wouw, Suzanne

AU - Zelcer, Noam

AU - Jacobs, Heinz

AU - van Leeuwen, Fred

AU - de Winther, Menno P J

PY - 2022/11/22

Y1 - 2022/11/22

N2 - Macrophages are critical immune cells in inflammatory diseases, and their differentiation and function are tightly regulated by histone modifications. H3K79 methylation is a histone modification associated with active gene expression, and DOT1L is the only histone methyltransferase for H3K79. Here we determine the role of DOT1L in macrophages by applying a selective DOT1L inhibitor in mouse and human macrophages and using myeloid-specific Dot1l-deficient mice. We found that DOT1L directly regulates macrophage function by controlling lipid biosynthesis gene programs including central lipid regulators like sterol regulatory element-binding proteins SREBP1 and SREBP2. DOT1L inhibition also leads to macrophage hyperactivation, which is associated with disrupted SREBP pathways. In vivo, myeloid Dot1l deficiency reduces atherosclerotic plaque stability and increases the activation of inflammatory plaque macrophages. Our data show that DOT1L is a crucial regulator of macrophage inflammatory responses and lipid regulatory pathways and suggest a high relevance of H3K79 methylation in inflammatory disease.

AB - Macrophages are critical immune cells in inflammatory diseases, and their differentiation and function are tightly regulated by histone modifications. H3K79 methylation is a histone modification associated with active gene expression, and DOT1L is the only histone methyltransferase for H3K79. Here we determine the role of DOT1L in macrophages by applying a selective DOT1L inhibitor in mouse and human macrophages and using myeloid-specific Dot1l-deficient mice. We found that DOT1L directly regulates macrophage function by controlling lipid biosynthesis gene programs including central lipid regulators like sterol regulatory element-binding proteins SREBP1 and SREBP2. DOT1L inhibition also leads to macrophage hyperactivation, which is associated with disrupted SREBP pathways. In vivo, myeloid Dot1l deficiency reduces atherosclerotic plaque stability and increases the activation of inflammatory plaque macrophages. Our data show that DOT1L is a crucial regulator of macrophage inflammatory responses and lipid regulatory pathways and suggest a high relevance of H3K79 methylation in inflammatory disease.

KW - Humans

KW - Mice

KW - Animals

KW - Histone-Lysine N-Methyltransferase/metabolism

KW - Histones/metabolism

KW - Plaque, Atherosclerotic

KW - Macrophages/metabolism

KW - Lipids

U2 - 10.1016/j.celrep.2022.111703

DO - 10.1016/j.celrep.2022.111703

M3 - Article

C2 - 36417856

SN - 2211-1247

VL - 41

JO - Cell Reports

JF - Cell Reports

IS - 8

M1 - 111703

ER -