Mutant CEBPA promotes tolerance to inflammatory stress through deficient AP-1 activation

Maria Cadefau-Fabregat; Gerard Martínez-Cebrián; Lucía Lorenzi; Felix D Weiss; Anne-Katrine Frank; José Manuel Castelló-García; Eric Julià-Vilella; Andrés Gámez-García; Laura Yera; Carini Picardi Morais de Castro; Yi-Fang Wang; Felix Meissner; Alejandro Vaquero; Matthias Merkenschlager; Bo T Porse; Sergi Cuartero

doi:10.1038/s41467-025-58712-7

Mutant CEBPA promotes tolerance to inflammatory stress through deficient AP-1 activation

Maria Cadefau-Fabregat, Gerard Martínez-Cebrián, Lucía Lorenzi, Felix D Weiss, Anne-Katrine Frank, José Manuel Castelló-García, Eric Julià-Vilella, Andrés Gámez-García, Laura Yera, Carini Picardi Morais de Castro, Yi-Fang Wang, Felix Meissner, Alejandro Vaquero, Matthias Merkenschlager, Bo T Porse, Sergi Cuartero^*

^*Corresponding author af dette arbejde

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2 Citationer (Scopus)

Abstract

The CEBPA transcription factor is frequently mutated in acute myeloid leukemia (AML). Mutations in the CEBPA gene, which are typically biallelic, result in the production of a shorter isoform known as p30. Both the canonical 42-kDa isoform (p42) and the AML-associated p30 isoform bind chromatin and activate transcription, but the specific transcriptional programs controlled by each protein and how they are linked to a selective advantage in AML is not well understood. Here, we show that cells expressing the AML-associated p30 have reduced baseline inflammatory gene expression and display altered dynamics of transcriptional induction in response to LPS, consequently impacting cytokine secretion. This confers p30-expressing cells an increased resistance to the adverse effects of prolonged exposure to inflammatory signals. Mechanistically, we show that these differences primarily arise from the differential regulation of AP-1 family proteins. In addition, we find that the impaired function of the AP-1 member ATF4 in p30-expressing cells alters their response to ER stress. Collectively, these findings uncover a link between mutant CEBPA, inflammation and the stress response, potentially revealing a vulnerability in AML.

Originalsprog	Engelsk
Artikelnummer	3492
Tidsskrift	Nature Communications
Vol/bind	16
Udgave nummer	1
Sider (fra-til)	3492
ISSN	2041-1722
DOI	https://doi.org/10.1038/s41467-025-58712-7
Status	Udgivet - 12 apr. 2025

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10.1038/s41467-025-58712-7Licens: CC BY

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Cadefau-Fabregat, M., Martínez-Cebrián, G., Lorenzi, L., Weiss, F. D., Frank, A.-K., Castelló-García, J. M., Julià-Vilella, E., Gámez-García, A., Yera, L., de Castro, C. P. M., Wang, Y.-F., Meissner, F., Vaquero, A., Merkenschlager, M., Porse, B. T., & Cuartero, S. (2025). Mutant CEBPA promotes tolerance to inflammatory stress through deficient AP-1 activation. Nature Communications, 16(1), 3492. Artikel 3492. https://doi.org/10.1038/s41467-025-58712-7

Cadefau-Fabregat, M, Martínez-Cebrián, G, Lorenzi, L, Weiss, FD, Frank, A-K, Castelló-García, JM, Julià-Vilella, E, Gámez-García, A, Yera, L, de Castro, CPM, Wang, Y-F, Meissner, F, Vaquero, A, Merkenschlager, M, Porse, BT & Cuartero, S 2025, 'Mutant CEBPA promotes tolerance to inflammatory stress through deficient AP-1 activation', Nature Communications, bind 16, nr. 1, 3492, s. 3492. https://doi.org/10.1038/s41467-025-58712-7

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title = "Mutant CEBPA promotes tolerance to inflammatory stress through deficient AP-1 activation",

abstract = "The CEBPA transcription factor is frequently mutated in acute myeloid leukemia (AML). Mutations in the CEBPA gene, which are typically biallelic, result in the production of a shorter isoform known as p30. Both the canonical 42-kDa isoform (p42) and the AML-associated p30 isoform bind chromatin and activate transcription, but the specific transcriptional programs controlled by each protein and how they are linked to a selective advantage in AML is not well understood. Here, we show that cells expressing the AML-associated p30 have reduced baseline inflammatory gene expression and display altered dynamics of transcriptional induction in response to LPS, consequently impacting cytokine secretion. This confers p30-expressing cells an increased resistance to the adverse effects of prolonged exposure to inflammatory signals. Mechanistically, we show that these differences primarily arise from the differential regulation of AP-1 family proteins. In addition, we find that the impaired function of the AP-1 member ATF4 in p30-expressing cells alters their response to ER stress. Collectively, these findings uncover a link between mutant CEBPA, inflammation and the stress response, potentially revealing a vulnerability in AML.",

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AU - Cadefau-Fabregat, Maria

AU - Martínez-Cebrián, Gerard

AU - Lorenzi, Lucía

AU - Weiss, Felix D

AU - Frank, Anne-Katrine

AU - Castelló-García, José Manuel

AU - Julià-Vilella, Eric

AU - Gámez-García, Andrés

AU - Yera, Laura

AU - de Castro, Carini Picardi Morais

AU - Wang, Yi-Fang

AU - Meissner, Felix

AU - Vaquero, Alejandro

AU - Merkenschlager, Matthias

AU - Porse, Bo T

AU - Cuartero, Sergi

PY - 2025/4/12

Y1 - 2025/4/12

N2 - The CEBPA transcription factor is frequently mutated in acute myeloid leukemia (AML). Mutations in the CEBPA gene, which are typically biallelic, result in the production of a shorter isoform known as p30. Both the canonical 42-kDa isoform (p42) and the AML-associated p30 isoform bind chromatin and activate transcription, but the specific transcriptional programs controlled by each protein and how they are linked to a selective advantage in AML is not well understood. Here, we show that cells expressing the AML-associated p30 have reduced baseline inflammatory gene expression and display altered dynamics of transcriptional induction in response to LPS, consequently impacting cytokine secretion. This confers p30-expressing cells an increased resistance to the adverse effects of prolonged exposure to inflammatory signals. Mechanistically, we show that these differences primarily arise from the differential regulation of AP-1 family proteins. In addition, we find that the impaired function of the AP-1 member ATF4 in p30-expressing cells alters their response to ER stress. Collectively, these findings uncover a link between mutant CEBPA, inflammation and the stress response, potentially revealing a vulnerability in AML.

AB - The CEBPA transcription factor is frequently mutated in acute myeloid leukemia (AML). Mutations in the CEBPA gene, which are typically biallelic, result in the production of a shorter isoform known as p30. Both the canonical 42-kDa isoform (p42) and the AML-associated p30 isoform bind chromatin and activate transcription, but the specific transcriptional programs controlled by each protein and how they are linked to a selective advantage in AML is not well understood. Here, we show that cells expressing the AML-associated p30 have reduced baseline inflammatory gene expression and display altered dynamics of transcriptional induction in response to LPS, consequently impacting cytokine secretion. This confers p30-expressing cells an increased resistance to the adverse effects of prolonged exposure to inflammatory signals. Mechanistically, we show that these differences primarily arise from the differential regulation of AP-1 family proteins. In addition, we find that the impaired function of the AP-1 member ATF4 in p30-expressing cells alters their response to ER stress. Collectively, these findings uncover a link between mutant CEBPA, inflammation and the stress response, potentially revealing a vulnerability in AML.

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KW - Leukemia, Myeloid, Acute/genetics

KW - CCAAT-Enhancer-Binding Proteins/genetics

KW - Inflammation/genetics

KW - Mutation

KW - Mice

KW - Animals

KW - Lipopolysaccharides/pharmacology

KW - Activating Transcription Factor 4/metabolism

KW - Endoplasmic Reticulum Stress/genetics

KW - Cell Line, Tumor

KW - Protein Isoforms/genetics

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U2 - 10.1038/s41467-025-58712-7

DO - 10.1038/s41467-025-58712-7

M3 - Journal article

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SN - 2041-1722

VL - 16

SP - 3492

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 3492

ER -

Mutant CEBPA promotes tolerance to inflammatory stress through deficient AP-1 activation

Abstract

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