Reannotation of cancer mutations based on expressed RNA transcripts reveals functional non-coding mutations in melanoma

Daniele Pepe; Xander Janssens; Kalina Timcheva; Grecia M. Marrón-Liñares; Benno Verbelen; Vasileios Konstantakos; Dylan De Groote; Jolien De Bie; Amber Verhasselt; Barbara Dewaele; Arne Godderis; Charlotte Cools; Mireia Franco-Tolsau; Jonathan Royaert; Jelle Verbeeck; Kim R. Kampen; Karthik Subramanian; David Cabrerizo Granados; Gerben Menschaert; Kim De Keersmaecker

doi:10.1016/j.ajhg.2025.04.005

Reannotation of cancer mutations based on expressed RNA transcripts reveals functional non-coding mutations in melanoma

Daniele Pepe
, Xander Janssens
, Kalina Timcheva
, Grecia M. Marrón-Liñares
, Benno Verbelen
, Vasileios Konstantakos
, Dylan De Groote
, Jolien De Bie
, Amber Verhasselt
, Barbara Dewaele
, Arne Godderis
, Charlotte Cools
, Mireia Franco-Tolsau
, Jonathan Royaert
, Jelle Verbeeck
, Kim R. Kampen
, Karthik Subramanian
, David Cabrerizo Granados
, Gerben Menschaert
, Kim De Keersmaecker^*

^*Corresponding author for this work

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

Abstract

The role of synonymous mutations in cancer pathogenesis is currently underexplored. We developed a method to detect significant clusters of synonymous and missense mutations in public cancer genomics data. In melanoma, we show that 22% (11/50) of these mutation clusters are misannotated as coding mutations because the reference transcripts used for their annotation are not expressed. Instead, these mutations are actually non-coding. This, for instance, applies to the mutation clusters targeting known cancer genes kinetochore localized astrin (SPAG5) binding protein (KNSTRN) and BCL2-like 12 (BCL2L12), each affecting 4%–5% of melanoma tumors. For the latter, we show that these mutations are functional non-coding mutations that target the shared promoter region of interferon regulatory factor 3 (IRF3) and BCL2L12. This results in downregulation of IRF3, BCL2L12, and tumor protein p53 (TP53) expression in a CRISPR-Cas9 primary melanocyte model and in melanoma tumors. In individuals with melanoma, these mutations were also associated with a worse response to immunotherapy. Finally, we propose a simple automated method to more accurately annotate cancer mutations based on expressed transcripts. This work shows the importance of integrating DNA- and RNA-sequencing data to properly annotate mutations and identifies a number of previously overlooked and wrongly annotated functional non-coding mutations in melanoma.

Original language	English
Pages (from-to)	1447-1467
Number of pages	21
Journal	American Journal of Human Genetics
Volume	112
Issue number	6
Early online date	1 Jan 2025
DOIs	https://doi.org/10.1016/j.ajhg.2025.04.005
Publication status	Published - 5 Jun 2025

Keywords

bioinformatics
CRISPR-Cas9
expressed transcript
functional genomics
gene regulation
melanoma
mutation annotation
non-coding mutations
synonymous mutations

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10.1016/j.ajhg.2025.04.005Licence: CC BY

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Pepe, D., Janssens, X., Timcheva, K., Marrón-Liñares, G. M., Verbelen, B., Konstantakos, V., De Groote, D., De Bie, J., Verhasselt, A., Dewaele, B., Godderis, A., Cools, C., Franco-Tolsau, M., Royaert, J., Verbeeck, J., Kampen, K. R., Subramanian, K., Cabrerizo Granados, D., Menschaert, G., & De Keersmaecker, K. (2025). Reannotation of cancer mutations based on expressed RNA transcripts reveals functional non-coding mutations in melanoma. American Journal of Human Genetics, 112(6), 1447-1467. https://doi.org/10.1016/j.ajhg.2025.04.005

@article{f65e1fff32484444bd06c66c6abb0f33,

title = "Reannotation of cancer mutations based on expressed RNA transcripts reveals functional non-coding mutations in melanoma",

abstract = "The role of synonymous mutations in cancer pathogenesis is currently underexplored. We developed a method to detect significant clusters of synonymous and missense mutations in public cancer genomics data. In melanoma, we show that 22\% (11/50) of these mutation clusters are misannotated as coding mutations because the reference transcripts used for their annotation are not expressed. Instead, these mutations are actually non-coding. This, for instance, applies to the mutation clusters targeting known cancer genes kinetochore localized astrin (SPAG5) binding protein (KNSTRN) and BCL2-like 12 (BCL2L12), each affecting 4\%–5\% of melanoma tumors. For the latter, we show that these mutations are functional non-coding mutations that target the shared promoter region of interferon regulatory factor 3 (IRF3) and BCL2L12. This results in downregulation of IRF3, BCL2L12, and tumor protein p53 (TP53) expression in a CRISPR-Cas9 primary melanocyte model and in melanoma tumors. In individuals with melanoma, these mutations were also associated with a worse response to immunotherapy. Finally, we propose a simple automated method to more accurately annotate cancer mutations based on expressed transcripts. This work shows the importance of integrating DNA- and RNA-sequencing data to properly annotate mutations and identifies a number of previously overlooked and wrongly annotated functional non-coding mutations in melanoma.",

keywords = "bioinformatics, CRISPR-Cas9, expressed transcript, functional genomics, gene regulation, melanoma, mutation annotation, non-coding mutations, synonymous mutations",

author = "Daniele Pepe and Xander Janssens and Kalina Timcheva and Marr{\'o}n-Li{\~n}ares, \{Grecia M.\} and Benno Verbelen and Vasileios Konstantakos and \{De Groote\}, Dylan and \{De Bie\}, Jolien and Amber Verhasselt and Barbara Dewaele and Arne Godderis and Charlotte Cools and Mireia Franco-Tolsau and Jonathan Royaert and Jelle Verbeeck and Kampen, \{Kim R.\} and Karthik Subramanian and \{Cabrerizo Granados\}, David and Gerben Menschaert and \{De Keersmaecker\}, Kim",

note = "Funding Information: This project was funded by the European Research Council (ERC) under the European Union\textbackslash{}u2019s Horizon 2020 research and innovation program (grant agreement no. 862246 ). X.J. is recipient of an FWO aspirant mandate fundamental research grant (no. 1174021N ). G.M.M.-L. was supported by a KU Leuven PDM mandate ( PDMt1/23/021 ). Research by V.K. is funded by the Belgian Foundation against Cancer ( F/2020/1396 and F/2024/140 ) and FWO -EOS (ID: 40007513). Research by B.D., A.V., and J.D.B. is supported by the Belgian Foundation against Cancer (clinical mandate 2021/1605, research project C/2022/1941 ) and by the Funds Catharina Weekers, Raymond Wuyts, Arlette Lema\textbackslash{}u00EEtre, Yvette Gembauve, and Cambier-Sandra, managed by the King Baudouin Foundation . We are grateful to OHMX.bio and to genOway for their excellent services in this project and wish to thank Prof. Stein Aerts for his constructive suggestions and support on the in silico predictions of effects on transcription factor binding. Publisher Copyright: {\textcopyright} 2025 The Author(s)",

year = "2025",

month = jun,

day = "5",

doi = "10.1016/j.ajhg.2025.04.005",

language = "English",

volume = "112",

pages = "1447--1467",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

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Pepe, D, Janssens, X, Timcheva, K, Marrón-Liñares, GM, Verbelen, B, Konstantakos, V, De Groote, D, De Bie, J, Verhasselt, A, Dewaele, B, Godderis, A, Cools, C, Franco-Tolsau, M, Royaert, J, Verbeeck, J, Kampen, KR, Subramanian, K, Cabrerizo Granados, D, Menschaert, G & De Keersmaecker, K 2025, 'Reannotation of cancer mutations based on expressed RNA transcripts reveals functional non-coding mutations in melanoma', American Journal of Human Genetics, vol. 112, no. 6, pp. 1447-1467. https://doi.org/10.1016/j.ajhg.2025.04.005

TY - JOUR

T1 - Reannotation of cancer mutations based on expressed RNA transcripts reveals functional non-coding mutations in melanoma

AU - Pepe, Daniele

AU - Janssens, Xander

AU - Timcheva, Kalina

AU - Marrón-Liñares, Grecia M.

AU - Verbelen, Benno

AU - Konstantakos, Vasileios

AU - De Groote, Dylan

AU - De Bie, Jolien

AU - Verhasselt, Amber

AU - Dewaele, Barbara

AU - Godderis, Arne

AU - Cools, Charlotte

AU - Franco-Tolsau, Mireia

AU - Royaert, Jonathan

AU - Verbeeck, Jelle

AU - Kampen, Kim R.

AU - Subramanian, Karthik

AU - Cabrerizo Granados, David

AU - Menschaert, Gerben

AU - De Keersmaecker, Kim

N1 - Funding Information: This project was funded by the European Research Council (ERC) under the European Union\u2019s Horizon 2020 research and innovation program (grant agreement no. 862246 ). X.J. is recipient of an FWO aspirant mandate fundamental research grant (no. 1174021N ). G.M.M.-L. was supported by a KU Leuven PDM mandate ( PDMt1/23/021 ). Research by V.K. is funded by the Belgian Foundation against Cancer ( F/2020/1396 and F/2024/140 ) and FWO -EOS (ID: 40007513). Research by B.D., A.V., and J.D.B. is supported by the Belgian Foundation against Cancer (clinical mandate 2021/1605, research project C/2022/1941 ) and by the Funds Catharina Weekers, Raymond Wuyts, Arlette Lema\u00EEtre, Yvette Gembauve, and Cambier-Sandra, managed by the King Baudouin Foundation . We are grateful to OHMX.bio and to genOway for their excellent services in this project and wish to thank Prof. Stein Aerts for his constructive suggestions and support on the in silico predictions of effects on transcription factor binding. Publisher Copyright: © 2025 The Author(s)

PY - 2025/6/5

Y1 - 2025/6/5

N2 - The role of synonymous mutations in cancer pathogenesis is currently underexplored. We developed a method to detect significant clusters of synonymous and missense mutations in public cancer genomics data. In melanoma, we show that 22% (11/50) of these mutation clusters are misannotated as coding mutations because the reference transcripts used for their annotation are not expressed. Instead, these mutations are actually non-coding. This, for instance, applies to the mutation clusters targeting known cancer genes kinetochore localized astrin (SPAG5) binding protein (KNSTRN) and BCL2-like 12 (BCL2L12), each affecting 4%–5% of melanoma tumors. For the latter, we show that these mutations are functional non-coding mutations that target the shared promoter region of interferon regulatory factor 3 (IRF3) and BCL2L12. This results in downregulation of IRF3, BCL2L12, and tumor protein p53 (TP53) expression in a CRISPR-Cas9 primary melanocyte model and in melanoma tumors. In individuals with melanoma, these mutations were also associated with a worse response to immunotherapy. Finally, we propose a simple automated method to more accurately annotate cancer mutations based on expressed transcripts. This work shows the importance of integrating DNA- and RNA-sequencing data to properly annotate mutations and identifies a number of previously overlooked and wrongly annotated functional non-coding mutations in melanoma.

AB - The role of synonymous mutations in cancer pathogenesis is currently underexplored. We developed a method to detect significant clusters of synonymous and missense mutations in public cancer genomics data. In melanoma, we show that 22% (11/50) of these mutation clusters are misannotated as coding mutations because the reference transcripts used for their annotation are not expressed. Instead, these mutations are actually non-coding. This, for instance, applies to the mutation clusters targeting known cancer genes kinetochore localized astrin (SPAG5) binding protein (KNSTRN) and BCL2-like 12 (BCL2L12), each affecting 4%–5% of melanoma tumors. For the latter, we show that these mutations are functional non-coding mutations that target the shared promoter region of interferon regulatory factor 3 (IRF3) and BCL2L12. This results in downregulation of IRF3, BCL2L12, and tumor protein p53 (TP53) expression in a CRISPR-Cas9 primary melanocyte model and in melanoma tumors. In individuals with melanoma, these mutations were also associated with a worse response to immunotherapy. Finally, we propose a simple automated method to more accurately annotate cancer mutations based on expressed transcripts. This work shows the importance of integrating DNA- and RNA-sequencing data to properly annotate mutations and identifies a number of previously overlooked and wrongly annotated functional non-coding mutations in melanoma.

KW - bioinformatics

KW - CRISPR-Cas9

KW - expressed transcript

KW - functional genomics

KW - gene regulation

KW - melanoma

KW - mutation annotation

KW - non-coding mutations

KW - synonymous mutations

U2 - 10.1016/j.ajhg.2025.04.005

DO - 10.1016/j.ajhg.2025.04.005

M3 - Article

SN - 0002-9297

VL - 112

SP - 1447

EP - 1467

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

IS - 6

ER -

Reannotation of cancer mutations based on expressed RNA transcripts reveals functional non-coding mutations in melanoma

Abstract

Keywords

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