Germline de novo mutations in families with Mendelian cancer syndromes caused by defects in DNA repair

Kitty Sherwood; Joseph C. Ward; Ignacio Soriano; Lynn Martin; Archie Campbell; Raheleh Rahbari; Ioannis Kafetzopoulos; Duncan Sproul; Andrew Green; Julian R. Sampson; Alan Donaldson; Kai-Ren Ong; Karl Heinimann; Maartje Nielsen; Huw Thomas; Andrew Latchford; Claire Palles; Ian Tomlinson

doi:10.1038/s41467-023-39248-0

Germline de novo mutations in families with Mendelian cancer syndromes caused by defects in DNA repair

Kitty Sherwood, Joseph C. Ward, Ignacio Soriano, Lynn Martin, Archie Campbell, Raheleh Rahbari, Ioannis Kafetzopoulos, Duncan Sproul, Andrew Green, Julian R. Sampson, Alan Donaldson, Kai-Ren Ong, Karl Heinimann, Maartje Nielsen, Huw Thomas, Andrew Latchford, Claire Palles^*, Ian Tomlinson^*

^*Corresponding author for this work

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

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Abstract

DNA repair defects underlie many cancer syndromes. We tested whether de novo germline mutations (DNMs) are increased in families with germline defects in polymerase proofreading or base excision repair. A parent with a single germline POLE or POLD1 mutation, or biallelic MUTYH mutations, had 3-4 fold increased DNMs over sex-matched controls. POLE had the largest effect. The DNMs carried mutational signatures of the appropriate DNA repair deficiency. No DNM increase occurred in offspring of MUTYH heterozygous parents. Parental DNA repair defects caused about 20–150 DNMs per child, additional to the ~60 found in controls, but almost all extra DNMs occurred in non-coding regions. No increase in post-zygotic mutations was detected, excepting a child with bi-allelic MUTYH mutations who was excluded from the main analysis; she had received chemotherapy and may have undergone oligoclonal haematopoiesis. Inherited DNA repair defects associated with base pair-level mutations increase DNMs, but phenotypic consequences appear unlikely.

Original language	English
Article number	3636
Number of pages	10
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-39248-0
Publication status	Published - 19 Jun 2023

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Sherwood, K., Ward, J. C., Soriano, I., Martin, L., Campbell, A., Rahbari, R., Kafetzopoulos, I., Sproul, D., Green, A., Sampson, J. R., Donaldson, A., Ong, K.-R., Heinimann, K., Nielsen, M., Thomas, H., Latchford, A., Palles, C., & Tomlinson, I. (2023). Germline de novo mutations in families with Mendelian cancer syndromes caused by defects in DNA repair. Nature Communications, 14(1), Article 3636. https://doi.org/10.1038/s41467-023-39248-0

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title = "Germline de novo mutations in families with Mendelian cancer syndromes caused by defects in DNA repair",

abstract = "DNA repair defects underlie many cancer syndromes. We tested whether de novo germline mutations (DNMs) are increased in families with germline defects in polymerase proofreading or base excision repair. A parent with a single germline POLE or POLD1 mutation, or biallelic MUTYH mutations, had 3-4 fold increased DNMs over sex-matched controls. POLE had the largest effect. The DNMs carried mutational signatures of the appropriate DNA repair deficiency. No DNM increase occurred in offspring of MUTYH heterozygous parents. Parental DNA repair defects caused about 20–150 DNMs per child, additional to the ~60 found in controls, but almost all extra DNMs occurred in non-coding regions. No increase in post-zygotic mutations was detected, excepting a child with bi-allelic MUTYH mutations who was excluded from the main analysis; she had received chemotherapy and may have undergone oligoclonal haematopoiesis. Inherited DNA repair defects associated with base pair-level mutations increase DNMs, but phenotypic consequences appear unlikely.",

author = "Kitty Sherwood and Ward, {Joseph C.} and Ignacio Soriano and Lynn Martin and Archie Campbell and Raheleh Rahbari and Ioannis Kafetzopoulos and Duncan Sproul and Andrew Green and Sampson, {Julian R.} and Alan Donaldson and Kai-Ren Ong and Karl Heinimann and Maartje Nielsen and Huw Thomas and Andrew Latchford and Claire Palles and Ian Tomlinson",

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doi = "10.1038/s41467-023-39248-0",

language = "English",

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Sherwood, K, Ward, JC, Soriano, I, Martin, L, Campbell, A, Rahbari, R, Kafetzopoulos, I, Sproul, D, Green, A, Sampson, JR, Donaldson, A, Ong, K-R, Heinimann, K, Nielsen, M, Thomas, H, Latchford, A, Palles, C & Tomlinson, I 2023, 'Germline de novo mutations in families with Mendelian cancer syndromes caused by defects in DNA repair', Nature Communications, vol. 14, no. 1, 3636. https://doi.org/10.1038/s41467-023-39248-0

TY - JOUR

T1 - Germline de novo mutations in families with Mendelian cancer syndromes caused by defects in DNA repair

AU - Sherwood, Kitty

AU - Ward, Joseph C.

AU - Soriano, Ignacio

AU - Martin, Lynn

AU - Campbell, Archie

AU - Rahbari, Raheleh

AU - Kafetzopoulos, Ioannis

AU - Sproul, Duncan

AU - Green, Andrew

AU - Sampson, Julian R.

AU - Donaldson, Alan

AU - Ong, Kai-Ren

AU - Heinimann, Karl

AU - Nielsen, Maartje

AU - Thomas, Huw

AU - Latchford, Andrew

AU - Palles, Claire

AU - Tomlinson, Ian

PY - 2023/6/19

Y1 - 2023/6/19

N2 - DNA repair defects underlie many cancer syndromes. We tested whether de novo germline mutations (DNMs) are increased in families with germline defects in polymerase proofreading or base excision repair. A parent with a single germline POLE or POLD1 mutation, or biallelic MUTYH mutations, had 3-4 fold increased DNMs over sex-matched controls. POLE had the largest effect. The DNMs carried mutational signatures of the appropriate DNA repair deficiency. No DNM increase occurred in offspring of MUTYH heterozygous parents. Parental DNA repair defects caused about 20–150 DNMs per child, additional to the ~60 found in controls, but almost all extra DNMs occurred in non-coding regions. No increase in post-zygotic mutations was detected, excepting a child with bi-allelic MUTYH mutations who was excluded from the main analysis; she had received chemotherapy and may have undergone oligoclonal haematopoiesis. Inherited DNA repair defects associated with base pair-level mutations increase DNMs, but phenotypic consequences appear unlikely.

AB - DNA repair defects underlie many cancer syndromes. We tested whether de novo germline mutations (DNMs) are increased in families with germline defects in polymerase proofreading or base excision repair. A parent with a single germline POLE or POLD1 mutation, or biallelic MUTYH mutations, had 3-4 fold increased DNMs over sex-matched controls. POLE had the largest effect. The DNMs carried mutational signatures of the appropriate DNA repair deficiency. No DNM increase occurred in offspring of MUTYH heterozygous parents. Parental DNA repair defects caused about 20–150 DNMs per child, additional to the ~60 found in controls, but almost all extra DNMs occurred in non-coding regions. No increase in post-zygotic mutations was detected, excepting a child with bi-allelic MUTYH mutations who was excluded from the main analysis; she had received chemotherapy and may have undergone oligoclonal haematopoiesis. Inherited DNA repair defects associated with base pair-level mutations increase DNMs, but phenotypic consequences appear unlikely.

U2 - 10.1038/s41467-023-39248-0

DO - 10.1038/s41467-023-39248-0

M3 - Article

SN - 2041-1723

VL - 14

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 3636

ER -

Germline de novo mutations in families with Mendelian cancer syndromes caused by defects in DNA repair

Abstract

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