EGFR controls transcriptional and metabolic rewiring in KRASG12D colorectal cancer

Dana Krauß; Veronica Moreno-Viedma; Emi Adachi-Fernandez; Cristiano de Sá Fernandes; Jakob Wendelin Genger; Ourania Fari; Bernadette Blauensteiner; Dominik Kirchhofer; Nikolina Bradaric; Valeriya Gushchina; Georgios Fotakis; Thomas Mohr; Ifat Abramovich; Inbal Mor; Martin Holcmann; Andreas Bergthaler; Arvand Haschemi; Zlatko Trajanoski; Juliane Winkler; Eyal Gottlieb; Maria Sibilia

doi:10.1038/s44321-025-00240-4

EGFR controls transcriptional and metabolic rewiring in KRAS^G12D colorectal cancer

Dana Krauß, Veronica Moreno-Viedma, Emi Adachi-Fernandez, Cristiano de Sá Fernandes, Jakob Wendelin Genger, Ourania Fari, Bernadette Blauensteiner, Dominik Kirchhofer, Nikolina Bradaric, Valeriya Gushchina, Georgios Fotakis, Thomas Mohr, Ifat Abramovich, Inbal Mor, Martin Holcmann, Andreas Bergthaler, Arvand Haschemi, Zlatko Trajanoski, Juliane Winkler, Eyal GottliebMaria Sibilia

Department of Molecular Biology

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

Abstract

Inhibition of the epidermal growth factor receptor (EGFR) shows clinical benefit in metastatic colorectal cancer (CRC) patients, but KRAS-mutations are known to confer resistance. However, recent reports highlight EGFR as a crucial target to be co-inhibited with RAS inhibitors for effective treatment of KRAS mutant CRC. Here, we investigated the tumor cell-intrinsic contribution of EGFR in KRAS^G12D tumors by establishing murine CRC organoids with key CRC mutations (KRAS, APC, TP53) and inducible EGFR deletion. Metabolomic, transcriptomic, and scRNA-analyses revealed that EGFR deletion in KRAS-mutant organoids reduced their phenotypic heterogeneity and activated a distinct cancer-stem-cell/WNT signature associated with reduced cell size and downregulation of major signaling cascades like MAPK, PI3K, and ErbB. This was accompanied by metabolic rewiring with a decrease in glycolytic routing and increased anaplerotic glutaminolysis. Mechanistically, following EGFR loss, Smoc2 was identified as a key upregulated target mediating these phenotypes that could be rescued upon additional Smoc2 deletion. Validation in patient-datasets revealed that the identified signature is associated with better overall survival of RAS mutant CRC patients possibly allowing to predict therapy responses in patients.

Original language	English
Pages (from-to)	1355-1392
Number of pages	38
Journal	EMBO Molecular Medicine
Volume	17
Issue number	6
DOIs	https://doi.org/10.1038/s44321-025-00240-4
State	Published - 12 Jun 2025

Keywords

CRC-organoids
EGFR
KRAS
Metabolism
Stemness-WNT

Access to Document

10.1038/s44321-025-00240-4

Cite this

Krauß, D., Moreno-Viedma, V., Adachi-Fernandez, E., de Sá Fernandes, C., Genger, J. W., Fari, O., Blauensteiner, B., Kirchhofer, D., Bradaric, N., Gushchina, V., Fotakis, G., Mohr, T., Abramovich, I., Mor, I., Holcmann, M., Bergthaler, A., Haschemi, A., Trajanoski, Z., Winkler, J., ... Sibilia, M. (2025). EGFR controls transcriptional and metabolic rewiring in KRAS^G12D colorectal cancer. EMBO Molecular Medicine, 17(6), 1355-1392. https://doi.org/10.1038/s44321-025-00240-4

@article{9f03eaa05bbc4d1d9f566fdf20d388dc,

title = "EGFR controls transcriptional and metabolic rewiring in KRASG12D colorectal cancer",

abstract = "Inhibition of the epidermal growth factor receptor (EGFR) shows clinical benefit in metastatic colorectal cancer (CRC) patients, but KRAS-mutations are known to confer resistance. However, recent reports highlight EGFR as a crucial target to be co-inhibited with RAS inhibitors for effective treatment of KRAS mutant CRC. Here, we investigated the tumor cell-intrinsic contribution of EGFR in KRASG12D tumors by establishing murine CRC organoids with key CRC mutations (KRAS, APC, TP53) and inducible EGFR deletion. Metabolomic, transcriptomic, and scRNA-analyses revealed that EGFR deletion in KRAS-mutant organoids reduced their phenotypic heterogeneity and activated a distinct cancer-stem-cell/WNT signature associated with reduced cell size and downregulation of major signaling cascades like MAPK, PI3K, and ErbB. This was accompanied by metabolic rewiring with a decrease in glycolytic routing and increased anaplerotic glutaminolysis. Mechanistically, following EGFR loss, Smoc2 was identified as a key upregulated target mediating these phenotypes that could be rescued upon additional Smoc2 deletion. Validation in patient-datasets revealed that the identified signature is associated with better overall survival of RAS mutant CRC patients possibly allowing to predict therapy responses in patients.",

keywords = "CRC-organoids, EGFR, KRAS, Metabolism, Stemness-WNT",

author = "Dana Krau{\ss} and Veronica Moreno-Viedma and Emi Adachi-Fernandez and {de S{\'a} Fernandes}, Cristiano and Genger, {Jakob Wendelin} and Ourania Fari and Bernadette Blauensteiner and Dominik Kirchhofer and Nikolina Bradaric and Valeriya Gushchina and Georgios Fotakis and Thomas Mohr and Ifat Abramovich and Inbal Mor and Martin Holcmann and Andreas Bergthaler and Arvand Haschemi and Zlatko Trajanoski and Juliane Winkler and Eyal Gottlieb and Maria Sibilia",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = jun,

day = "12",

doi = "10.1038/s44321-025-00240-4",

language = "אנגלית",

volume = "17",

pages = "1355--1392",

journal = "EMBO Molecular Medicine",

issn = "1757-4676",

publisher = "Springer Science and Business Media Deutschland GmbH",

number = "6",

}

Krauß, D, Moreno-Viedma, V, Adachi-Fernandez, E, de Sá Fernandes, C, Genger, JW, Fari, O, Blauensteiner, B, Kirchhofer, D, Bradaric, N, Gushchina, V, Fotakis, G, Mohr, T, Abramovich, I, Mor, I, Holcmann, M, Bergthaler, A, Haschemi, A, Trajanoski, Z, Winkler, J, Gottlieb, E & Sibilia, M 2025, 'EGFR controls transcriptional and metabolic rewiring in KRAS^G12D colorectal cancer', EMBO Molecular Medicine, vol. 17, no. 6, pp. 1355-1392. https://doi.org/10.1038/s44321-025-00240-4

TY - JOUR

T1 - EGFR controls transcriptional and metabolic rewiring in KRASG12D colorectal cancer

AU - Krauß, Dana

AU - Moreno-Viedma, Veronica

AU - Adachi-Fernandez, Emi

AU - de Sá Fernandes, Cristiano

AU - Genger, Jakob Wendelin

AU - Fari, Ourania

AU - Blauensteiner, Bernadette

AU - Kirchhofer, Dominik

AU - Bradaric, Nikolina

AU - Gushchina, Valeriya

AU - Fotakis, Georgios

AU - Mohr, Thomas

AU - Abramovich, Ifat

AU - Mor, Inbal

AU - Holcmann, Martin

AU - Bergthaler, Andreas

AU - Haschemi, Arvand

AU - Trajanoski, Zlatko

AU - Winkler, Juliane

AU - Gottlieb, Eyal

AU - Sibilia, Maria

PY - 2025/6/12

Y1 - 2025/6/12

N2 - Inhibition of the epidermal growth factor receptor (EGFR) shows clinical benefit in metastatic colorectal cancer (CRC) patients, but KRAS-mutations are known to confer resistance. However, recent reports highlight EGFR as a crucial target to be co-inhibited with RAS inhibitors for effective treatment of KRAS mutant CRC. Here, we investigated the tumor cell-intrinsic contribution of EGFR in KRASG12D tumors by establishing murine CRC organoids with key CRC mutations (KRAS, APC, TP53) and inducible EGFR deletion. Metabolomic, transcriptomic, and scRNA-analyses revealed that EGFR deletion in KRAS-mutant organoids reduced their phenotypic heterogeneity and activated a distinct cancer-stem-cell/WNT signature associated with reduced cell size and downregulation of major signaling cascades like MAPK, PI3K, and ErbB. This was accompanied by metabolic rewiring with a decrease in glycolytic routing and increased anaplerotic glutaminolysis. Mechanistically, following EGFR loss, Smoc2 was identified as a key upregulated target mediating these phenotypes that could be rescued upon additional Smoc2 deletion. Validation in patient-datasets revealed that the identified signature is associated with better overall survival of RAS mutant CRC patients possibly allowing to predict therapy responses in patients.

AB - Inhibition of the epidermal growth factor receptor (EGFR) shows clinical benefit in metastatic colorectal cancer (CRC) patients, but KRAS-mutations are known to confer resistance. However, recent reports highlight EGFR as a crucial target to be co-inhibited with RAS inhibitors for effective treatment of KRAS mutant CRC. Here, we investigated the tumor cell-intrinsic contribution of EGFR in KRASG12D tumors by establishing murine CRC organoids with key CRC mutations (KRAS, APC, TP53) and inducible EGFR deletion. Metabolomic, transcriptomic, and scRNA-analyses revealed that EGFR deletion in KRAS-mutant organoids reduced their phenotypic heterogeneity and activated a distinct cancer-stem-cell/WNT signature associated with reduced cell size and downregulation of major signaling cascades like MAPK, PI3K, and ErbB. This was accompanied by metabolic rewiring with a decrease in glycolytic routing and increased anaplerotic glutaminolysis. Mechanistically, following EGFR loss, Smoc2 was identified as a key upregulated target mediating these phenotypes that could be rescued upon additional Smoc2 deletion. Validation in patient-datasets revealed that the identified signature is associated with better overall survival of RAS mutant CRC patients possibly allowing to predict therapy responses in patients.

KW - CRC-organoids

KW - EGFR

KW - KRAS

KW - Metabolism

KW - Stemness-WNT

UR - http://www.scopus.com/inward/record.url?scp=105007693429&partnerID=8YFLogxK

U2 - 10.1038/s44321-025-00240-4

DO - 10.1038/s44321-025-00240-4

M3 - ???researchoutput.researchoutputtypes.contributiontojournal.article???

C2 - 40329096

AN - SCOPUS:105007693429

SN - 1757-4676

VL - 17

SP - 1355

EP - 1392

JO - EMBO Molecular Medicine

JF - EMBO Molecular Medicine

IS - 6

ER -

EGFR controls transcriptional and metabolic rewiring in KRAS^G12D colorectal cancer

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this