Hypoxia activates SREBP2 through Golgi disassembly in bone marrow‐derived monocytes for enhanced tumor growth

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Abstract: Bone marrow‐derived cells (BMDCs) infiltrate hypoxic tumors at a pre‐angiogenic state and differentiate into mature macrophages, thereby inducing pro‐tumorigenic immunity. A critical factor regulating this differentiation is activation of SREBP2—a well‐known transcription factor participating in tumorigenesis progression—through unknown cellular mechanisms. Here, we show that hypoxia‐induced Golgi disassembly and Golgi‐ER fusion in monocytic myeloid cells result in nuclear translocation and activation of SREBP2 in a SCAP‐independent manner. Notably, hypoxia‐induced SREBP2 activation was only observed in an immature lineage of bone marrow‐derived cells. Single‐cell RNA‐seq analysis revealed that SREBP2‐mediated cholesterol biosynthesis was upregulated in HSCs and monocytes but not in macrophages in the hypoxic bone marrow niche. Moreover, inhibition of cholesterol biosynthesis impaired tumor growth through suppression of pro‐tumorigenic immunity and angiogenesis. Thus, our findings indicate that Golgi‐ER fusion regulates SREBP2‐mediated metabolic alteration in lineage‐specific BMDCs under hypoxia for tumor progression.

Location: Deutsche Nationalbibliothek Frankfurt am Main

Extent: Online-Ressource

Language: Englisch

Bibliographic citation: Hypoxia activates SREBP2 through Golgi disassembly in bone marrow‐derived monocytes for enhanced tumor growth ; day:02 ; month:10 ; year:2023 ; extent:34
The EMBO journal / European Molecular Biology Organization ; (02.10.2023) (gesamt 34)

Creator: Nakahara, Ryuichi
Aki, Sho
Sugaya, Maki
Hirose, Haruka
Kato, Miki
Maeda, Keisuke
Sakamoto, Daichi M.
Kojima, Yasuhiro
Nishida, Miyuki
Ando, Ritsuko
Muramatsu, Masashi
Pan, Melvin
Tsuchida, Rika
Matsumura, Yoshihiro
Yanai, Hideyuki
Takano, Hiroshi
Yao, Ryoji
Sando, Shinsuke
Shibuya, Masabumi
Sakai, Juro
Kodama, Tatsuhiko
Kidoya, Hiroyasu
Shimamura, Teppei
Osawa, Tsuyoshi

DOI: 10.15252/embj.2023114032

URN: urn:nbn:de:101:1-2023100215015710403889

Rights: Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.

Last update: 14.08.2025, 10:53 AM CEST

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Associated

Nakahara, Ryuichi
Aki, Sho
Sugaya, Maki
Hirose, Haruka
Kato, Miki
Maeda, Keisuke
Sakamoto, Daichi M.
Kojima, Yasuhiro
Nishida, Miyuki
Ando, Ritsuko
Muramatsu, Masashi
Pan, Melvin
Tsuchida, Rika
Matsumura, Yoshihiro
Yanai, Hideyuki
Takano, Hiroshi
Yao, Ryoji
Sando, Shinsuke
Shibuya, Masabumi
Sakai, Juro
Kodama, Tatsuhiko
Kidoya, Hiroyasu
Shimamura, Teppei
Osawa, Tsuyoshi

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Hypoxia activates SREBP2 through Golgi disassembly in bone marrow‐derived monocytes for enhanced tumor growth

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Other Objects (12)

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Adoptive Transfer of Bone Marrow-Derived Monocytes Ameliorates Schistosoma mansoni -Induced Liver Fibrosis in Mice

Multi-period disassembly planning

The Golgi apparatus

A single day of TGF-β1 exposure activates chondrogenic and hypertrophic differentiation pathways in bone marrow-derived stromal cells

Robotic disassembly and window upgrading

Disassembly of Composite Components – Potential of Energetic Materials for the Disassembly of Rotor Blades

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Robotic disassembly and window upgrading

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Robotic disassembly and window upgrading

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