Epigenetic Control of Translation Checkpoint and Tumor Progression via RUVBL1‐EEF1A1 Axis-Reference-Cited by-同舟云学术

Epigenetic Control of Translation Checkpoint and Tumor Progression via RUVBL1‐EEF1A1 Axis

Published:2023-04-19 Issue:17 Volume:10 Page:
ISSN:2198-3844
Container-title:Advanced Science
language:en
Short-container-title:Advanced Science

Author:

Li Mingli¹,Yang Lu¹²,Chan Anthony K. N.¹²,Pokharel Sheela Pangeni¹²,Liu Qiao¹,Mattson Nicole¹,Xu Xiaobao¹,Chang Wen‐Han¹,Miyashita Kazuya¹,Singh Priyanka¹,Zhang Leisi¹,Li Maggie¹,Wu Jun³,Wang Jinhui³,Chen Bryan¹,Chan Lai N.⁴⁵,Lee Jaewoong⁴⁶⁷,Zhang Xu Hannah³,Rosen Steven T.³,Müschen Markus⁴,Qi Jun⁸,Chen Jianjun¹³,Hiom Kevin⁹,Bishop Alexander J. R.¹⁰¹¹,Chen Chun‐Wei¹²³^ORCID

Affiliation:

1. Department of Systems Biology Beckman Research Institute City of Hope Comprehensive Cancer Center Duarte CA 91010 USA

2. Division of Epigenetic and Transcriptional Engineering Beckman Research Institute City of Hope Comprehensive Cancer Center Duarte CA 91010 USA

3. City of Hope Comprehensive Cancer Center Duarte CA 91010 USA

4. Center of Molecular and Cellular Oncology Yale Cancer Center Yale School of Medicine New Haven CT 06510 USA

5. Department of Cancer Biology Lerner Research Institute Cleveland Clinic Cleveland OH 44195 USA

6. School of Biosystems and Biomedical Sciences College of Health Science Korea University Seoul 02841 South Korea

7. Interdisciplinary Program in Precision Public Health Korea University Seoul 02841 South Korea

8. Department of Cancer Biology Dana‐Farber Cancer Institute Harvard Medical School Boston MA 02215 USA

9. Division of Cellular Medicine School of Medicine University of Dundee Nethergate Dundee DD1 4HN UK

10. Department of Cellular Systems and Anatomy University of Texas Health Science Center at San Antonio San Antonio TX 78229 USA

11. Greehey Children's Cancer Research Institute University of Texas Health Science Center at San Antonio San Antonio TX 78229 USA

Abstract

AbstractEpigenetic dysregulation is reported in multiple cancers including Ewing sarcoma (EwS). However, the epigenetic networks underlying the maintenance of oncogenic signaling and therapeutic response remain unclear. Using a series of epigenetics‐ and complex‐focused CRISPR screens, RUVBL1, the ATPase component of NuA4 histone acetyltransferase complex, is identified to be essential for EwS tumor progression. Suppression of RUVBL1 leads to attenuated tumor growth, loss of histone H4 acetylation, and ablated MYC signaling. Mechanistically, RUVBL1 controls MYC chromatin binding and modulates the MYC‐driven EEF1A1 expression and thus protein synthesis. High‐density CRISPR gene body scan pinpoints the critical MYC interacting residue in RUVBL1. Finally, this study reveals the synergism between RUVBL1 suppression and pharmacological inhibition of MYC in EwS xenografts and patient‐derived samples. These results indicate that the dynamic interplay between chromatin remodelers, oncogenic transcription factors, and protein translation machinery can provide novel opportunities for combination cancer therapy.

Funder

Sarcoma Foundation of America

American Society of Hematology

National Institutes of Health

Publisher

Wiley

Subject

General Physics and Astronomy,General Engineering,Biochemistry, Genetics and Molecular Biology (miscellaneous),General Materials Science,General Chemical Engineering,Medicine (miscellaneous)

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/advs.202206584

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