Common anti-cancer therapies induce somatic mutations in stem cells of healthy tissue

Ewart Kuijk; Onno Kranenburg; Edwin Cuppen; Arne Van Hoeck

doi:10.1038/s41467-022-33663-5

Common anti-cancer therapies induce somatic mutations in stem cells of healthy tissue

Ewart Kuijk, Onno Kranenburg, Edwin Cuppen^*, Arne Van Hoeck

^*Corresponding author for this work

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

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Abstract

Genome-wide mutation analyses have revealed that specific anti-cancer drugs are highly mutagenic to cancer cells, but the mutational impact of anti-cancer therapies on normal cells is not known. Here, we examine genome-wide somatic mutation patterns in 42 healthy adult stem cells (ASCs) of the colon or the liver from 14 cancer patients (mean of 3.2 ASC per donor) that received systemic chemotherapy and/or local radiotherapy. The platinum-based chemo-drug Oxaliplatin induces on average 535 ± 260 mutations in colon ASC, while 5-FU shows a complete mutagenic absence in most, but not all colon ASCs. In contrast with the colon, normal liver ASCs escape mutagenesis from systemic treatment with Oxaliplatin and 5-FU. Thus, while chemotherapies are highly effective at killing cancer cells, their systemic use also increases the mutational burden of long-lived normal stem cells responsible for tissue renewal thereby increasing the risk for developing second cancers.

Original language	English
Article number	5915
Pages (from-to)	1-10
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-33663-5
Publication status	Published - 7 Oct 2022

Keywords

Adult
Adult Stem Cells
Fluorouracil
Humans
Mutation
Oxaliplatin/pharmacology
Stem Cells

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title = "Common anti-cancer therapies induce somatic mutations in stem cells of healthy tissue",

abstract = "Genome-wide mutation analyses have revealed that specific anti-cancer drugs are highly mutagenic to cancer cells, but the mutational impact of anti-cancer therapies on normal cells is not known. Here, we examine genome-wide somatic mutation patterns in 42 healthy adult stem cells (ASCs) of the colon or the liver from 14 cancer patients (mean of 3.2 ASC per donor) that received systemic chemotherapy and/or local radiotherapy. The platinum-based chemo-drug Oxaliplatin induces on average 535 ± 260 mutations in colon ASC, while 5-FU shows a complete mutagenic absence in most, but not all colon ASCs. In contrast with the colon, normal liver ASCs escape mutagenesis from systemic treatment with Oxaliplatin and 5-FU. Thus, while chemotherapies are highly effective at killing cancer cells, their systemic use also increases the mutational burden of long-lived normal stem cells responsible for tissue renewal thereby increasing the risk for developing second cancers.",

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note = "Funding Information: We would like to thank USEQ from UMCU for sequencing the organoid lines. We thank Jan Hendrik Venhuizen, Jorieke Salij and Anneta Brousali of the Utrecht Platform for Organoid Technology for patient inclusion and for arranging the logistics of tissue acquisition. We are also particularly grateful to all the colorectal cancer patients hospitalized at UMCU for donating their tissue. Publisher Copyright: {\textcopyright} 2022, The Author(s). {\textcopyright} 2022. The Author(s).",

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N2 - Genome-wide mutation analyses have revealed that specific anti-cancer drugs are highly mutagenic to cancer cells, but the mutational impact of anti-cancer therapies on normal cells is not known. Here, we examine genome-wide somatic mutation patterns in 42 healthy adult stem cells (ASCs) of the colon or the liver from 14 cancer patients (mean of 3.2 ASC per donor) that received systemic chemotherapy and/or local radiotherapy. The platinum-based chemo-drug Oxaliplatin induces on average 535 ± 260 mutations in colon ASC, while 5-FU shows a complete mutagenic absence in most, but not all colon ASCs. In contrast with the colon, normal liver ASCs escape mutagenesis from systemic treatment with Oxaliplatin and 5-FU. Thus, while chemotherapies are highly effective at killing cancer cells, their systemic use also increases the mutational burden of long-lived normal stem cells responsible for tissue renewal thereby increasing the risk for developing second cancers.

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Common anti-cancer therapies induce somatic mutations in stem cells of healthy tissue

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