Comprehensive metabolomic and epigenomic characterization of microsatellite stable BRAF-mutated colorectal cancer

iCAN; Aurora Taira; Mervi Aavikko; Riku Katainen; Eevi Kaasinen; Niko Välimäki; Janne Ravantti; Ari Ristimäki; Toni T. Seppälä; Laura Renkonen-Sinisalo; Anna H. Lepistö; Kyösti Tahkola; Anne Mattila; Selja Koskensalo; Jukka Pekka Mecklin; Jan Böhm; Jesper Bertram Bramsen; Claus Lindbjerg Andersen; Kimmo Palin; Kristiina Rajamäki; Lauri A. Aaltonen

doi:10.1038/s41388-025-03326-y

Comprehensive metabolomic and epigenomic characterization of microsatellite stable BRAF-mutated colorectal cancer

iCAN, Aurora Taira, Mervi Aavikko, Riku Katainen, Eevi Kaasinen, Niko Välimäki, Janne Ravantti, Ari Ristimäki, Toni T. Seppälä, Laura Renkonen-Sinisalo, Anna H. Lepistö, Kyösti Tahkola, Anne Mattila, Selja Koskensalo, Jukka Pekka Mecklin, Jan Böhm, Jesper Bertram Bramsen, Claus Lindbjerg Andersen, Kimmo Palin, Kristiina RajamäkiLauri A. Aaltonen

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Abstract

Oncogenic codon V600E mutations of the BRAF gene affect 10–15% of colorectal cancers, resulting in activation of the MAPK/ERK signaling pathway and increased cell proliferation and survival. BRAF-mutated colorectal tumors are often microsatellite unstable and characterized by high DNA methylation levels. However, the mechanistic link between BRAF mutations and hypermethylation remains controversial. Understanding this link, particularly in microsatellite stable tumors is of great interest as these often show poor survival. We characterized the metabolomic, epigenetic and transcriptomic patterns of altogether 39 microsatellite stable BRAF-mutated colorectal cancers. Metabolomic analysis of tumor tissue showed low levels of vitamin C and its metabolites in BRAF-mutated tumors. Gene expression analysis indicated dysregulation of vitamin C antioxidant activity in these lesions. As vitamin C is an important cofactor for the activity of TET DNA demethylase enzymes, low vitamin C levels could directly contribute to the high methylation levels in these tumors by decreasing enzymatic TET activity. Vitamin C transporter gene SLC23A1 expression, as well as vitamin C metabolite levels, were inversely correlated with DNA methylation levels. This work proposes a new mechanistic link between BRAF mutations and hypermethylation, inspiring further work on the role of vitamin C in the genesis of BRAF-mutated colorectal cancer. (Figure presented.)

Original language	English
Article number	e1600200
Number of pages	13
Journal	Oncogene
DOIs	https://doi.org/10.1038/s41388-025-03326-y
Publication status	E-pub ahead of print - 2025
Publication type	A1 Journal article-refereed

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Publication forum level 2

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Molecular Biology
Genetics
Cancer Research

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Comprehensive metabolomic and epigenomic characterization of microsatellite stable BRAF-mutated colorectal cancerFinal published version, 4.93 MBLicence: CC BY

https://urn.fi/URN:NBN:fi:tuni-202505155492Licence: CC BY

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iCAN, Taira, A., Aavikko, M., Katainen, R., Kaasinen, E., Välimäki, N., Ravantti, J., Ristimäki, A., Seppälä, T. T., Renkonen-Sinisalo, L., Lepistö, A. H., Tahkola, K., Mattila, A., Koskensalo, S., Mecklin, J. P., Böhm, J., Bramsen, J. B., Andersen, C. L., Palin, K., ... Aaltonen, L. A. (2025). Comprehensive metabolomic and epigenomic characterization of microsatellite stable BRAF-mutated colorectal cancer. Oncogene, Article e1600200. Advance online publication. https://doi.org/10.1038/s41388-025-03326-y

@article{8bdc2faa6cd94756b180cc92b8dbcf77,

title = "Comprehensive metabolomic and epigenomic characterization of microsatellite stable BRAF-mutated colorectal cancer",

abstract = "Oncogenic codon V600E mutations of the BRAF gene affect 10–15\% of colorectal cancers, resulting in activation of the MAPK/ERK signaling pathway and increased cell proliferation and survival. BRAF-mutated colorectal tumors are often microsatellite unstable and characterized by high DNA methylation levels. However, the mechanistic link between BRAF mutations and hypermethylation remains controversial. Understanding this link, particularly in microsatellite stable tumors is of great interest as these often show poor survival. We characterized the metabolomic, epigenetic and transcriptomic patterns of altogether 39 microsatellite stable BRAF-mutated colorectal cancers. Metabolomic analysis of tumor tissue showed low levels of vitamin C and its metabolites in BRAF-mutated tumors. Gene expression analysis indicated dysregulation of vitamin C antioxidant activity in these lesions. As vitamin C is an important cofactor for the activity of TET DNA demethylase enzymes, low vitamin C levels could directly contribute to the high methylation levels in these tumors by decreasing enzymatic TET activity. Vitamin C transporter gene SLC23A1 expression, as well as vitamin C metabolite levels, were inversely correlated with DNA methylation levels. This work proposes a new mechanistic link between BRAF mutations and hypermethylation, inspiring further work on the role of vitamin C in the genesis of BRAF-mutated colorectal cancer. (Figure presented.)",

author = "iCAN and Aurora Taira and Mervi Aavikko and Riku Katainen and Eevi Kaasinen and Niko V{\"a}lim{\"a}ki and Janne Ravantti and Ari Ristim{\"a}ki and Sepp{\"a}l{\"a}, \{Toni T.\} and Laura Renkonen-Sinisalo and Lepist{\"o}, \{Anna H.\} and Ky{\"o}sti Tahkola and Anne Mattila and Selja Koskensalo and Mecklin, \{Jukka Pekka\} and Jan B{\"o}hm and Bramsen, \{Jesper Bertram\} and Andersen, \{Claus Lindbjerg\} and Kimmo Palin and Kristiina Rajam{\"a}ki and Aaltonen, \{Lauri A.\}",

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

year = "2025",

doi = "10.1038/s41388-025-03326-y",

language = "English",

journal = "Oncogene",

issn = "0950-9232",

publisher = "Nature Publishing Group",

}

iCAN, Taira, A, Aavikko, M, Katainen, R, Kaasinen, E, Välimäki, N, Ravantti, J, Ristimäki, A, Seppälä, TT, Renkonen-Sinisalo, L, Lepistö, AH, Tahkola, K, Mattila, A, Koskensalo, S, Mecklin, JP, Böhm, J, Bramsen, JB, Andersen, CL, Palin, K, Rajamäki, K & Aaltonen, LA 2025, 'Comprehensive metabolomic and epigenomic characterization of microsatellite stable BRAF-mutated colorectal cancer', Oncogene. https://doi.org/10.1038/s41388-025-03326-y

TY - JOUR

T1 - Comprehensive metabolomic and epigenomic characterization of microsatellite stable BRAF-mutated colorectal cancer

AU - iCAN

AU - Taira, Aurora

AU - Aavikko, Mervi

AU - Katainen, Riku

AU - Kaasinen, Eevi

AU - Välimäki, Niko

AU - Ravantti, Janne

AU - Ristimäki, Ari

AU - Seppälä, Toni T.

AU - Renkonen-Sinisalo, Laura

AU - Lepistö, Anna H.

AU - Tahkola, Kyösti

AU - Mattila, Anne

AU - Koskensalo, Selja

AU - Mecklin, Jukka Pekka

AU - Böhm, Jan

AU - Bramsen, Jesper Bertram

AU - Andersen, Claus Lindbjerg

AU - Palin, Kimmo

AU - Rajamäki, Kristiina

AU - Aaltonen, Lauri A.

PY - 2025

Y1 - 2025

N2 - Oncogenic codon V600E mutations of the BRAF gene affect 10–15% of colorectal cancers, resulting in activation of the MAPK/ERK signaling pathway and increased cell proliferation and survival. BRAF-mutated colorectal tumors are often microsatellite unstable and characterized by high DNA methylation levels. However, the mechanistic link between BRAF mutations and hypermethylation remains controversial. Understanding this link, particularly in microsatellite stable tumors is of great interest as these often show poor survival. We characterized the metabolomic, epigenetic and transcriptomic patterns of altogether 39 microsatellite stable BRAF-mutated colorectal cancers. Metabolomic analysis of tumor tissue showed low levels of vitamin C and its metabolites in BRAF-mutated tumors. Gene expression analysis indicated dysregulation of vitamin C antioxidant activity in these lesions. As vitamin C is an important cofactor for the activity of TET DNA demethylase enzymes, low vitamin C levels could directly contribute to the high methylation levels in these tumors by decreasing enzymatic TET activity. Vitamin C transporter gene SLC23A1 expression, as well as vitamin C metabolite levels, were inversely correlated with DNA methylation levels. This work proposes a new mechanistic link between BRAF mutations and hypermethylation, inspiring further work on the role of vitamin C in the genesis of BRAF-mutated colorectal cancer. (Figure presented.)

AB - Oncogenic codon V600E mutations of the BRAF gene affect 10–15% of colorectal cancers, resulting in activation of the MAPK/ERK signaling pathway and increased cell proliferation and survival. BRAF-mutated colorectal tumors are often microsatellite unstable and characterized by high DNA methylation levels. However, the mechanistic link between BRAF mutations and hypermethylation remains controversial. Understanding this link, particularly in microsatellite stable tumors is of great interest as these often show poor survival. We characterized the metabolomic, epigenetic and transcriptomic patterns of altogether 39 microsatellite stable BRAF-mutated colorectal cancers. Metabolomic analysis of tumor tissue showed low levels of vitamin C and its metabolites in BRAF-mutated tumors. Gene expression analysis indicated dysregulation of vitamin C antioxidant activity in these lesions. As vitamin C is an important cofactor for the activity of TET DNA demethylase enzymes, low vitamin C levels could directly contribute to the high methylation levels in these tumors by decreasing enzymatic TET activity. Vitamin C transporter gene SLC23A1 expression, as well as vitamin C metabolite levels, were inversely correlated with DNA methylation levels. This work proposes a new mechanistic link between BRAF mutations and hypermethylation, inspiring further work on the role of vitamin C in the genesis of BRAF-mutated colorectal cancer. (Figure presented.)

U2 - 10.1038/s41388-025-03326-y

DO - 10.1038/s41388-025-03326-y

M3 - Article

AN - SCOPUS:105000828735

SN - 0950-9232

JO - Oncogene

JF - Oncogene

M1 - e1600200

ER -

Comprehensive metabolomic and epigenomic characterization of microsatellite stable BRAF-mutated colorectal cancer

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