DAXX drives de novo lipogenesis and contributes to tumorigenesis

Iqbal Mahmud; Guimei Tian; Jia Wang; Tarun E. Hutchinson; Brandon J. Kim; Nikee Awasthee; Seth Hale; Chengcheng Meng; Allison Moore; Liming Zhao; Jessica E. Lewis; Aaron Waddell; Shangtao Wu; Julia M. Steger; McKenzie L. Lydon; Aaron Chait; Lisa Y. Zhao; Haocheng Ding; Jian-Liang Li; Hamsa Thayele Purayil; Zhiguang Huo; Yehia Daaka; Timothy J. Garrett; Daiqing Liao

doi:10.1038/s41467-023-37501-0

Nature Communications (Apr 2023)

DAXX drives de novo lipogenesis and contributes to tumorigenesis

Iqbal Mahmud,
Guimei Tian,
Jia Wang,
Tarun E. Hutchinson,
Brandon J. Kim,
Nikee Awasthee,
Seth Hale,
Chengcheng Meng,
Allison Moore,
Liming Zhao,
Jessica E. Lewis,
Aaron Waddell,
Shangtao Wu,
Julia M. Steger,
McKenzie L. Lydon,
Aaron Chait,
Lisa Y. Zhao,
Haocheng Ding,
Jian-Liang Li,
Hamsa Thayele Purayil,
Zhiguang Huo,
Yehia Daaka,
Timothy J. Garrett,
Daiqing Liao

Affiliations

Iqbal Mahmud: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Guimei Tian: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Jia Wang: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Tarun E. Hutchinson: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Brandon J. Kim: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Nikee Awasthee: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Seth Hale: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Chengcheng Meng: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Allison Moore: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Liming Zhao: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Jessica E. Lewis: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Aaron Waddell: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Shangtao Wu: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Julia M. Steger: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
McKenzie L. Lydon: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Aaron Chait: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Lisa Y. Zhao: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Haocheng Ding: Department of Biostatistics, University of Florida
Jian-Liang Li: Integrative Bioinformatics, National Institute of Environmental Health Sciences
Hamsa Thayele Purayil: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Zhiguang Huo: Department of Biostatistics, University of Florida
Yehia Daaka: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine
Timothy J. Garrett: Southeast Center for Integrated Metabolomics, Clinical and Translational Science Institute, University of Florida
Daiqing Liao: Department of Anatomy and Cell Biology, UF Health Cancer Center, University of Florida College of Medicine

DOI: https://doi.org/10.1038/s41467-023-37501-0
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 20

Abstract

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Abstract Cancer cells exhibit elevated lipid synthesis. In breast and other cancer types, genes involved in lipid production are highly upregulated, but the mechanisms that control their expression remain poorly understood. Using integrated transcriptomic, lipidomic, and molecular studies, here we report that DAXX is a regulator of oncogenic lipogenesis. DAXX depletion attenuates, while its overexpression enhances, lipogenic gene expression, lipogenesis, and tumor growth. Mechanistically, DAXX interacts with SREBP1 and SREBP2 and activates SREBP-mediated transcription. DAXX associates with lipogenic gene promoters through SREBPs. Underscoring the critical roles for the DAXX-SREBP interaction for lipogenesis, SREBP2 knockdown attenuates tumor growth in cells with DAXX overexpression, and DAXX mutants unable to bind SREBP1/2 have weakened activity in promoting lipogenesis and tumor growth. Remarkably, a DAXX mutant deficient of SUMO-binding fails to activate SREBP1/2 and lipogenesis due to impaired SREBP binding and chromatin recruitment and is defective of stimulating tumorigenesis. Hence, DAXX’s SUMO-binding activity is critical to oncogenic lipogenesis. Notably, a peptide corresponding to DAXX’s C-terminal SUMO-interacting motif (SIM2) is cell-membrane permeable, disrupts the DAXX-SREBP1/2 interactions, and inhibits lipogenesis and tumor growth. These results establish DAXX as a regulator of lipogenesis and a potential therapeutic target for cancer therapy.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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