Acetate controls endothelial-to-mesenchymal transition

Xiaolong Zhu; Yunyun Wang; Ioana Soaita; Heon Woo Lee; Hosung Bae; Nabil Boutagy; Anna Bostwick; Rong Mo Zhang; Caitlyn Bowman; Yanying Xu; Sophie Trefely; Yu Chen; Lingfeng Qin; William Sessa; George Tellides; Cholsoon Jang; Nathaniel W. Snyder; Luyang Yu; Zoltan Arany; Michael Simons

doi:10.1016/j.cmet.2023.05.010

Acetate controls endothelial-to-mesenchymal transition

Xiaolong Zhu
, Yunyun Wang
, Ioana Soaita
, Heon Woo Lee
, Hosung Bae
, Nabil Boutagy
, Anna Bostwick
, Rong Mo Zhang
, Caitlyn Bowman
, Yanying Xu
, Sophie Trefely
, Yu Chen
, Lingfeng Qin
, William Sessa
, George Tellides
, Cholsoon Jang
, Nathaniel W. Snyder
, Luyang Yu
, Zoltan Arany
, Michael Simons

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

101 Citations (Scopus)

Abstract

Endothelial-to-mesenchymal transition (EndMT), a process initiated by activation of endothelial TGF-β signaling, underlies numerous chronic vascular diseases and fibrotic states. Once induced, EndMT leads to a further increase in TGF-β signaling, thus establishing a positive-feedback loop with EndMT leading to more EndMT. Although EndMT is understood at the cellular level, the molecular basis of TGF-β-driven EndMT induction and persistence remains largely unknown. Here, we show that metabolic modulation of the endothelium, triggered by atypical production of acetate from glucose, underlies TGF-β-driven EndMT. Induction of EndMT suppresses the expression of the enzyme PDK4, which leads to an increase in ACSS2-dependent Ac-CoA synthesis from pyruvate-derived acetate. This increased Ac-CoA production results in acetylation of the TGF-β receptor ALK5 and SMADs 2 and 4 leading to activation and long-term stabilization of TGF-β signaling. Our results establish the metabolic basis of EndMT persistence and unveil novel targets, such as ACSS2, for the potential treatment of chronic vascular diseases.

Original language	English
Pages (from-to)	1163-1178.e10
Journal	Cell Metabolism
Volume	35
Issue number	7
DOIs	https://doi.org/10.1016/j.cmet.2023.05.010
Publication status	Published - 11 Jul 2023

Bibliographical note

Publisher Copyright:
© 2023 Elsevier Inc.

Keywords

ACSS2
ALK5
PDK4
acetate
acetyl-CoA
atherosclerosis
endfothelial cells
endothelial-to-mesenchymal transition
transforming growth factor beta signaling

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10.1016/j.cmet.2023.05.010

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Zhu, X., Wang, Y., Soaita, I., Lee, H. W., Bae, H., Boutagy, N., Bostwick, A., Zhang, R. M., Bowman, C., Xu, Y., Trefely, S., Chen, Y., Qin, L., Sessa, W., Tellides, G., Jang, C., Snyder, N. W., Yu, L., Arany, Z., & Simons, M. (2023). Acetate controls endothelial-to-mesenchymal transition. Cell Metabolism, 35(7), 1163-1178.e10. https://doi.org/10.1016/j.cmet.2023.05.010

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abstract = "Endothelial-to-mesenchymal transition (EndMT), a process initiated by activation of endothelial TGF-β signaling, underlies numerous chronic vascular diseases and fibrotic states. Once induced, EndMT leads to a further increase in TGF-β signaling, thus establishing a positive-feedback loop with EndMT leading to more EndMT. Although EndMT is understood at the cellular level, the molecular basis of TGF-β-driven EndMT induction and persistence remains largely unknown. Here, we show that metabolic modulation of the endothelium, triggered by atypical production of acetate from glucose, underlies TGF-β-driven EndMT. Induction of EndMT suppresses the expression of the enzyme PDK4, which leads to an increase in ACSS2-dependent Ac-CoA synthesis from pyruvate-derived acetate. This increased Ac-CoA production results in acetylation of the TGF-β receptor ALK5 and SMADs 2 and 4 leading to activation and long-term stabilization of TGF-β signaling. Our results establish the metabolic basis of EndMT persistence and unveil novel targets, such as ACSS2, for the potential treatment of chronic vascular diseases.",

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AU - Zhu, Xiaolong

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AU - Soaita, Ioana

AU - Lee, Heon Woo

AU - Bae, Hosung

AU - Boutagy, Nabil

AU - Bostwick, Anna

AU - Zhang, Rong Mo

AU - Bowman, Caitlyn

AU - Xu, Yanying

AU - Trefely, Sophie

AU - Chen, Yu

AU - Qin, Lingfeng

AU - Sessa, William

AU - Tellides, George

AU - Jang, Cholsoon

AU - Snyder, Nathaniel W.

AU - Yu, Luyang

AU - Arany, Zoltan

AU - Simons, Michael

PY - 2023/7/11

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N2 - Endothelial-to-mesenchymal transition (EndMT), a process initiated by activation of endothelial TGF-β signaling, underlies numerous chronic vascular diseases and fibrotic states. Once induced, EndMT leads to a further increase in TGF-β signaling, thus establishing a positive-feedback loop with EndMT leading to more EndMT. Although EndMT is understood at the cellular level, the molecular basis of TGF-β-driven EndMT induction and persistence remains largely unknown. Here, we show that metabolic modulation of the endothelium, triggered by atypical production of acetate from glucose, underlies TGF-β-driven EndMT. Induction of EndMT suppresses the expression of the enzyme PDK4, which leads to an increase in ACSS2-dependent Ac-CoA synthesis from pyruvate-derived acetate. This increased Ac-CoA production results in acetylation of the TGF-β receptor ALK5 and SMADs 2 and 4 leading to activation and long-term stabilization of TGF-β signaling. Our results establish the metabolic basis of EndMT persistence and unveil novel targets, such as ACSS2, for the potential treatment of chronic vascular diseases.

AB - Endothelial-to-mesenchymal transition (EndMT), a process initiated by activation of endothelial TGF-β signaling, underlies numerous chronic vascular diseases and fibrotic states. Once induced, EndMT leads to a further increase in TGF-β signaling, thus establishing a positive-feedback loop with EndMT leading to more EndMT. Although EndMT is understood at the cellular level, the molecular basis of TGF-β-driven EndMT induction and persistence remains largely unknown. Here, we show that metabolic modulation of the endothelium, triggered by atypical production of acetate from glucose, underlies TGF-β-driven EndMT. Induction of EndMT suppresses the expression of the enzyme PDK4, which leads to an increase in ACSS2-dependent Ac-CoA synthesis from pyruvate-derived acetate. This increased Ac-CoA production results in acetylation of the TGF-β receptor ALK5 and SMADs 2 and 4 leading to activation and long-term stabilization of TGF-β signaling. Our results establish the metabolic basis of EndMT persistence and unveil novel targets, such as ACSS2, for the potential treatment of chronic vascular diseases.

KW - ACSS2

KW - ALK5

KW - PDK4

KW - acetate

KW - acetyl-CoA

KW - atherosclerosis

KW - endfothelial cells

KW - endothelial-to-mesenchymal transition

KW - transforming growth factor beta signaling

UR - https://www.scopus.com/pages/publications/85164295561

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SN - 1550-4131

VL - 35

SP - 1163-1178.e10

JO - Cell Metabolism

JF - Cell Metabolism

IS - 7

ER -

Acetate controls endothelial-to-mesenchymal transition

Abstract

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Keywords

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