Mismatch repair deficiency endows tumors with a unique mutation signature and sensitivity to DNA double-strand breaks

Hui Zhao; Bernard Thienpont; Betül Tuba Yesilyurt; Matthieu Moisse; Joke Reumers; Lieve Coenegrachts; Xavier Sagaert; Stefanie Schrauwen; Dominiek Smeets; Gert Matthijs; Stein Aerts; Jan Cools; Alex Metcalf; Amanda Spurdle; Frederic Amant; Diether Lambrechts

doi:https://doi.org/10.7554/eLife.02725

Mismatch repair deficiency endows tumors with a unique mutation signature and sensitivity to DNA double-strand breaks

Hui Zhao, Bernard Thienpont, Betül Tuba Yesilyurt, Matthieu Moisse, Joke Reumers, Lieve Coenegrachts, Xavier Sagaert, Stefanie Schrauwen, Dominiek Smeets, Gert Matthijs, Stein Aerts, Jan Cools, Alex Metcalf, Amanda Spurdle, Frederic Amant, Diether Lambrechts

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

68 Citations (Scopus)

Abstract

DNA replication errors that persist as mismatch mutations make up the molecular fingerprint of mismatch repair (MMR)-deficient tumors and convey them with resistance to standard therapy. Using whole-genome and whole-exome sequencing, we here confirm an MMR-deficient mutation signature that is distinct from other tumor genomes, but surprisingly similar to germ-line DNA, indicating that a substantial fraction of human genetic variation arises through mutations escaping MMR. Moreover, we identify a large set of recurrent indels that may serve to detect microsatellite instability (MSI). Indeed, using endometrial tumors with immunohistochemically proven MMR deficiency, we optimize a novel marker set capable of detecting MSI and show it to have greater specificity and selectivity than standard MSI tests. Additionally, we show that recurrent indels are enriched for the 'DNA double-strand break repair by homologous recombination' pathway. Consequently, DSB repair is reduced in MMR-deficient tumors, triggering a dose-dependent sensitivity of MMR-deficient tumor cultures to DSB inducers

Original language	English
Pages (from-to)	e02725
Journal	eLife
Volume	3
DOIs	https://doi.org/10.7554/eLife.02725
Publication status	Published - 2014

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https://doi.org/10.7554/eLife.02725

Cite this

Zhao, H., Thienpont, B., Yesilyurt, B. T., Moisse, M., Reumers, J., Coenegrachts, L., Sagaert, X., Schrauwen, S., Smeets, D., Matthijs, G., Aerts, S., Cools, J., Metcalf, A., Spurdle, A., Amant, F., & Lambrechts, D. (2014). Mismatch repair deficiency endows tumors with a unique mutation signature and sensitivity to DNA double-strand breaks. eLife, 3, e02725. https://doi.org/10.7554/eLife.02725

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title = "Mismatch repair deficiency endows tumors with a unique mutation signature and sensitivity to DNA double-strand breaks",

abstract = "DNA replication errors that persist as mismatch mutations make up the molecular fingerprint of mismatch repair (MMR)-deficient tumors and convey them with resistance to standard therapy. Using whole-genome and whole-exome sequencing, we here confirm an MMR-deficient mutation signature that is distinct from other tumor genomes, but surprisingly similar to germ-line DNA, indicating that a substantial fraction of human genetic variation arises through mutations escaping MMR. Moreover, we identify a large set of recurrent indels that may serve to detect microsatellite instability (MSI). Indeed, using endometrial tumors with immunohistochemically proven MMR deficiency, we optimize a novel marker set capable of detecting MSI and show it to have greater specificity and selectivity than standard MSI tests. Additionally, we show that recurrent indels are enriched for the 'DNA double-strand break repair by homologous recombination' pathway. Consequently, DSB repair is reduced in MMR-deficient tumors, triggering a dose-dependent sensitivity of MMR-deficient tumor cultures to DSB inducers",

author = "Hui Zhao and Bernard Thienpont and Yesilyurt, {Bet{\"u}l Tuba} and Matthieu Moisse and Joke Reumers and Lieve Coenegrachts and Xavier Sagaert and Stefanie Schrauwen and Dominiek Smeets and Gert Matthijs and Stein Aerts and Jan Cools and Alex Metcalf and Amanda Spurdle and Frederic Amant and Diether Lambrechts",

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Zhao, H, Thienpont, B, Yesilyurt, BT, Moisse, M, Reumers, J, Coenegrachts, L, Sagaert, X, Schrauwen, S, Smeets, D, Matthijs, G, Aerts, S, Cools, J, Metcalf, A, Spurdle, A, Amant, F & Lambrechts, D 2014, 'Mismatch repair deficiency endows tumors with a unique mutation signature and sensitivity to DNA double-strand breaks', eLife, vol. 3, pp. e02725. https://doi.org/10.7554/eLife.02725

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T1 - Mismatch repair deficiency endows tumors with a unique mutation signature and sensitivity to DNA double-strand breaks

AU - Zhao, Hui

AU - Thienpont, Bernard

AU - Yesilyurt, Betül Tuba

AU - Moisse, Matthieu

AU - Reumers, Joke

AU - Coenegrachts, Lieve

AU - Sagaert, Xavier

AU - Schrauwen, Stefanie

AU - Smeets, Dominiek

AU - Matthijs, Gert

AU - Aerts, Stein

AU - Cools, Jan

AU - Metcalf, Alex

AU - Spurdle, Amanda

AU - Amant, Frederic

AU - Lambrechts, Diether

PY - 2014

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N2 - DNA replication errors that persist as mismatch mutations make up the molecular fingerprint of mismatch repair (MMR)-deficient tumors and convey them with resistance to standard therapy. Using whole-genome and whole-exome sequencing, we here confirm an MMR-deficient mutation signature that is distinct from other tumor genomes, but surprisingly similar to germ-line DNA, indicating that a substantial fraction of human genetic variation arises through mutations escaping MMR. Moreover, we identify a large set of recurrent indels that may serve to detect microsatellite instability (MSI). Indeed, using endometrial tumors with immunohistochemically proven MMR deficiency, we optimize a novel marker set capable of detecting MSI and show it to have greater specificity and selectivity than standard MSI tests. Additionally, we show that recurrent indels are enriched for the 'DNA double-strand break repair by homologous recombination' pathway. Consequently, DSB repair is reduced in MMR-deficient tumors, triggering a dose-dependent sensitivity of MMR-deficient tumor cultures to DSB inducers

AB - DNA replication errors that persist as mismatch mutations make up the molecular fingerprint of mismatch repair (MMR)-deficient tumors and convey them with resistance to standard therapy. Using whole-genome and whole-exome sequencing, we here confirm an MMR-deficient mutation signature that is distinct from other tumor genomes, but surprisingly similar to germ-line DNA, indicating that a substantial fraction of human genetic variation arises through mutations escaping MMR. Moreover, we identify a large set of recurrent indels that may serve to detect microsatellite instability (MSI). Indeed, using endometrial tumors with immunohistochemically proven MMR deficiency, we optimize a novel marker set capable of detecting MSI and show it to have greater specificity and selectivity than standard MSI tests. Additionally, we show that recurrent indels are enriched for the 'DNA double-strand break repair by homologous recombination' pathway. Consequently, DSB repair is reduced in MMR-deficient tumors, triggering a dose-dependent sensitivity of MMR-deficient tumor cultures to DSB inducers

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