Author
Listed:
- Li Yu
(Tsinghua University
Tsinghua University
Beijing Key Laboratory for Immunological Research on Chronic Diseases)
- Bin Zhang
(Tsinghua University
Beijing Key Laboratory for Immunological Research on Chronic Diseases)
- Dinesh Deochand
(Hospital for Special Surgery Research Institute, The David Rosensweig Genomics Center)
- Maria A. Sacta
(Hospital for Special Surgery Research Institute, The David Rosensweig Genomics Center
Weill Cornell/Sloan Kettering/Rockefeller Tri-Institutional MD-PhD Program)
- Maddalena Coppo
(Hospital for Special Surgery Research Institute, The David Rosensweig Genomics Center)
- Yingli Shang
(Shandong Agricultural University)
- Ziyi Guo
(Tsinghua University
Beijing Key Laboratory for Immunological Research on Chronic Diseases)
- Xiaomin Zeng
(Tsinghua University
Beijing Key Laboratory for Immunological Research on Chronic Diseases)
- David A. Rollins
(Hospital for Special Surgery Research Institute, The David Rosensweig Genomics Center
Graduate Program in Immunology and Microbial Pathogenesis, Weill Cornell Graduate School of Medical Sciences)
- Bowranigan Tharmalingam
(Hospital for Special Surgery Research Institute, The David Rosensweig Genomics Center)
- Rong Li
(The George Washington University)
- Yurii Chinenov
(Hospital for Special Surgery Research Institute, The David Rosensweig Genomics Center)
- Inez Rogatsky
(Hospital for Special Surgery Research Institute, The David Rosensweig Genomics Center
Graduate Program in Immunology and Microbial Pathogenesis, Weill Cornell Graduate School of Medical Sciences)
- Xiaoyu Hu
(Tsinghua University
Tsinghua University
Beijing Key Laboratory for Immunological Research on Chronic Diseases)
Abstract
Studies on macrophage gene expression have historically focused on events leading to RNA polymerase II recruitment and transcription initiation, whereas the contribution of post-initiation steps to macrophage activation remains poorly understood. Here, we report that widespread promoter-proximal RNA polymerase II pausing in resting macrophages is marked by co-localization of the negative elongation factor (NELF) complex and facilitated by PU.1. Upon inflammatory stimulation, over 60% of activated transcriptome is regulated by polymerase pause-release and a transient genome-wide NELF dissociation from chromatin, unexpectedly, independent of CDK9, a presumed NELF kinase. Genetic disruption of NELF in macrophages enhanced transcription of AP-1-encoding Fos and Jun and, consequently, AP-1 targets including Il10. Augmented expression of IL-10, a critical anti-inflammatory cytokine, in turn, attenuated production of pro-inflammatory mediators and, ultimately, macrophage-mediated inflammation in vivo. Together, these findings establish a previously unappreciated role of NELF in constraining transcription of inflammation inhibitors thereby enabling inflammatory macrophage activation.
Suggested Citation
Li Yu & Bin Zhang & Dinesh Deochand & Maria A. Sacta & Maddalena Coppo & Yingli Shang & Ziyi Guo & Xiaomin Zeng & David A. Rollins & Bowranigan Tharmalingam & Rong Li & Yurii Chinenov & Inez Rogatsky , 2020.
"Negative elongation factor complex enables macrophage inflammatory responses by controlling anti-inflammatory gene expression,"
Nature Communications, Nature, vol. 11(1), pages 1-13, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16209-5
DOI: 10.1038/s41467-020-16209-5
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Citations
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Cited by:
- Seina Ohe & Yuji Kubota & Kiyoshi Yamaguchi & Yusuke Takagi & Junichiro Nashimoto & Hiroko Kozuka-Hata & Masaaki Oyama & Yoichi Furukawa & Mutsuhiro Takekawa, 2022.
"ERK-mediated NELF-A phosphorylation promotes transcription elongation of immediate-early genes by releasing promoter-proximal pausing of RNA polymerase II,"
Nature Communications, Nature, vol. 13(1), pages 1-17, December.
- Jieqiong Zhang & Zhenhua Hu & Hwa Hwa Chung & Yun Tian & Kah Weng Lau & Zheng Ser & Yan Ting Lim & Radoslaw M. Sobota & Hwei Fen Leong & Benjamin Jieming Chen & Clarisse Jingyi Yeo & Shawn Ying Xuan T, 2023.
"Dependency of NELF-E-SLUG-KAT2B epigenetic axis in breast cancer carcinogenesis,"
Nature Communications, Nature, vol. 14(1), pages 1-21, December.
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