Acute liver failure is regulated by MYC- and microbiome-dependent programs.

Aleksandra A Kolodziejczyk; Sara Federici; Niv  Zmora; Gayatree  Mohapatra; Mally  Dori-Bachash; Shanni  Hornstein; Avner  Leshem; Debby  Reuveni; Ehud  Zigmond; Ana  Tobar; Tomer  Meir Salame; Alon   Harmelin; Amir  Shlomai; Hagit  Shapiro; Ido   Amit; Eran  Elinav

doi:10.1038/s41591-020-1102-2

Acute liver failure is regulated by MYC- and microbiome-dependent programs.

Aleksandra A Kolodziejczyk, Sara Federici, Niv Zmora, Gayatree Mohapatra, Mally Dori-Bachash, Shanni Hornstein, Avner Leshem, Debby Reuveni, Ehud Zigmond, Ana Tobar, Tomer Meir Salame, Alon Harmelin, Amir Shlomai, Hagit Shapiro, Ido Amit, Eran Elinav

Division of Immunology, Immunity to Infection and Respiratory Medicine

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

Abstract

Acute liver failure (ALF) is a fulminant complication of multiple etiologies, characterized by rapid hepatic destruction, multi-organ failure and mortality. ALF treatment is mainly limited to supportive care and liver transplantation. Here we utilize the acetaminophen (APAP) and thioacetamide (TAA) ALF models in characterizing 56,527 single-cell transcriptomes to define the mouse ALF cellular atlas. We demonstrate that unique, previously uncharacterized stellate cell, endothelial cell, Kupffer cell, monocyte and neutrophil subsets, and their intricate intercellular crosstalk, drive ALF. We unravel a common MYC-dependent transcriptional program orchestrating stellate, endothelial and Kupffer cell activation during ALF, which is regulated by the gut microbiome through Toll-like receptor (TLR) signaling. Pharmacological inhibition of MYC, upstream TLR signaling checkpoints or microbiome depletion suppress this cell-specific, MYC-dependent program, thereby attenuating ALF. In humans, we demonstrate upregulated hepatic MYC expression in ALF transplant recipients compared to healthy donors. Collectively we demonstrate that detailed cellular/genetic decoding may enable pathway-specific ALF therapeutic intervention.

Original language	English
Journal	Nature Medicine
Volume	26
Early online date	26 Oct 2020
DOIs	https://doi.org/10.1038/s41591-020-1102-2
Publication status	Published - 31 Dec 2020

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Kolodziejczyk, A. A., Federici, S., Zmora, N., Mohapatra, G., Dori-Bachash, M., Hornstein, S., Leshem, A., Reuveni, D., Zigmond, E., Tobar, A., Meir Salame, T., Harmelin, A., Shlomai, A., Shapiro, H., Amit, I., & Elinav, E. (2020). Acute liver failure is regulated by MYC- and microbiome-dependent programs. Nature Medicine, 26. https://doi.org/10.1038/s41591-020-1102-2

@article{df51affec5ed4a478dbabcd1f0104828,

title = "Acute liver failure is regulated by MYC- and microbiome-dependent programs.",

abstract = "Acute liver failure (ALF) is a fulminant complication of multiple etiologies, characterized by rapid hepatic destruction, multi-organ failure and mortality. ALF treatment is mainly limited to supportive care and liver transplantation. Here we utilize the acetaminophen (APAP) and thioacetamide (TAA) ALF models in characterizing 56,527 single-cell transcriptomes to define the mouse ALF cellular atlas. We demonstrate that unique, previously uncharacterized stellate cell, endothelial cell, Kupffer cell, monocyte and neutrophil subsets, and their intricate intercellular crosstalk, drive ALF. We unravel a common MYC-dependent transcriptional program orchestrating stellate, endothelial and Kupffer cell activation during ALF, which is regulated by the gut microbiome through Toll-like receptor (TLR) signaling. Pharmacological inhibition of MYC, upstream TLR signaling checkpoints or microbiome depletion suppress this cell-specific, MYC-dependent program, thereby attenuating ALF. In humans, we demonstrate upregulated hepatic MYC expression in ALF transplant recipients compared to healthy donors. Collectively we demonstrate that detailed cellular/genetic decoding may enable pathway-specific ALF therapeutic intervention.",

author = "Kolodziejczyk, {Aleksandra A} and Sara Federici and Niv Zmora and Gayatree Mohapatra and Mally Dori-Bachash and Shanni Hornstein and Avner Leshem and Debby Reuveni and Ehud Zigmond and Ana Tobar and {Meir Salame}, Tomer and Alon Harmelin and Amir Shlomai and Hagit Shapiro and Ido Amit and Eran Elinav",

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doi = "10.1038/s41591-020-1102-2",

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T1 - Acute liver failure is regulated by MYC- and microbiome-dependent programs.

AU - Kolodziejczyk, Aleksandra A

AU - Federici, Sara

AU - Zmora, Niv

AU - Mohapatra, Gayatree

AU - Dori-Bachash, Mally

AU - Hornstein, Shanni

AU - Leshem, Avner

AU - Reuveni, Debby

AU - Zigmond, Ehud

AU - Tobar, Ana

AU - Meir Salame, Tomer

AU - Harmelin, Alon

AU - Shlomai, Amir

AU - Shapiro, Hagit

AU - Amit, Ido

AU - Elinav, Eran

PY - 2020/12/31

Y1 - 2020/12/31

N2 - Acute liver failure (ALF) is a fulminant complication of multiple etiologies, characterized by rapid hepatic destruction, multi-organ failure and mortality. ALF treatment is mainly limited to supportive care and liver transplantation. Here we utilize the acetaminophen (APAP) and thioacetamide (TAA) ALF models in characterizing 56,527 single-cell transcriptomes to define the mouse ALF cellular atlas. We demonstrate that unique, previously uncharacterized stellate cell, endothelial cell, Kupffer cell, monocyte and neutrophil subsets, and their intricate intercellular crosstalk, drive ALF. We unravel a common MYC-dependent transcriptional program orchestrating stellate, endothelial and Kupffer cell activation during ALF, which is regulated by the gut microbiome through Toll-like receptor (TLR) signaling. Pharmacological inhibition of MYC, upstream TLR signaling checkpoints or microbiome depletion suppress this cell-specific, MYC-dependent program, thereby attenuating ALF. In humans, we demonstrate upregulated hepatic MYC expression in ALF transplant recipients compared to healthy donors. Collectively we demonstrate that detailed cellular/genetic decoding may enable pathway-specific ALF therapeutic intervention.

AB - Acute liver failure (ALF) is a fulminant complication of multiple etiologies, characterized by rapid hepatic destruction, multi-organ failure and mortality. ALF treatment is mainly limited to supportive care and liver transplantation. Here we utilize the acetaminophen (APAP) and thioacetamide (TAA) ALF models in characterizing 56,527 single-cell transcriptomes to define the mouse ALF cellular atlas. We demonstrate that unique, previously uncharacterized stellate cell, endothelial cell, Kupffer cell, monocyte and neutrophil subsets, and their intricate intercellular crosstalk, drive ALF. We unravel a common MYC-dependent transcriptional program orchestrating stellate, endothelial and Kupffer cell activation during ALF, which is regulated by the gut microbiome through Toll-like receptor (TLR) signaling. Pharmacological inhibition of MYC, upstream TLR signaling checkpoints or microbiome depletion suppress this cell-specific, MYC-dependent program, thereby attenuating ALF. In humans, we demonstrate upregulated hepatic MYC expression in ALF transplant recipients compared to healthy donors. Collectively we demonstrate that detailed cellular/genetic decoding may enable pathway-specific ALF therapeutic intervention.

U2 - 10.1038/s41591-020-1102-2

DO - 10.1038/s41591-020-1102-2

M3 - Article

SN - 1078-8956

VL - 26

JO - Nature Medicine

JF - Nature Medicine

ER -

Acute liver failure is regulated by MYC- and microbiome-dependent programs.

Abstract

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