Somatic mosaicism for copy number variation in differentiated human tissues

Arkadiusz Piotrowski; Carl E.G. Bruder; Robin Andersson; Teresita Diaz De Ståhl; Uwe Menzel; Johanna Sandgren; Andrzej Poplawski; Desiree Von Tell; Chiquito Crasto; Adam Bogdan; Rafal Bartoszewski; Zsuzsa Bebok; Maciej Krzyzanowski; Zbigniew Jankowski; E. Christopher Partridge; Jan Komorowski; Jan P. Dumanski

doi:10.1002/humu.20815

Somatic mosaicism for copy number variation in differentiated human tissues

Arkadiusz Piotrowski, Carl E.G. Bruder, Robin Andersson, Teresita Diaz De Ståhl, Uwe Menzel, Johanna Sandgren, Andrzej Poplawski, Desiree Von Tell, Chiquito Crasto, Adam Bogdan, Rafal Bartoszewski, Zsuzsa Bebok, Maciej Krzyzanowski, Zbigniew Jankowski, E. Christopher Partridge, Jan Komorowski, Jan P. Dumanski

Center for BioTechnology Genomics

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

166 Scopus citations

Abstract

Two major types of genetic variation are known: single nucleotide polymorphisms (SNPs), and a more recently discovered structural variation, involving changes in copy number (CNVs) of kilobase- to megabase-sized chromosomal segments. It is unknown whether CNVs arise in somatic cells, but it is, however, generally assumed that normal cells are genetically identical. We tested 34 tissue samples from three subjects and, having analyzed for each tissue ≤ 10^-6 of all cells expected in an adult human, we observed at least six CNVs, affecting a single organ or one or more tissues of the same subject. The CNVs ranged from 82 to 176 kb, often encompassing known genes, potentially affecting gene function. Our results indicate that humans are commonly affected by somatic mosaicism for stochastic CNVs, which occur in a substantial fraction of cells. The majority of described CNVs were previously shown to be polymorphic between unrelated subjects, suggesting that some CNVs previously reported as germline might represent somatic events, since in most studies of this kind, only one tissue is typically examined and analysis of parents for the studied subjects is not routinely performed. A considerable number of human phenotypes are a consequence of a somatic process. Thus, our conclusions will be important for the delineation of genetic factors behind these phenotypes. Consequently, biobanks should consider sampling multiple tissues to better address mosaicism in the studies of somatic disorders.

Original language	English
Pages (from-to)	1118-1124
Number of pages	7
Journal	Human Mutation
Volume	29
Issue number	9
DOIs	https://doi.org/10.1002/humu.20815
State	Published - Sep 2008

Keywords

Array-CGH
CNV
Genetic heterogeneity
Segmental duplications
Somatic mosaicism
Structural variation

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Piotrowski, A., Bruder, C. E. G., Andersson, R., De Ståhl, T. D., Menzel, U., Sandgren, J., Poplawski, A., Von Tell, D., Crasto, C., Bogdan, A., Bartoszewski, R., Bebok, Z., Krzyzanowski, M., Jankowski, Z., Partridge, E. C., Komorowski, J., & Dumanski, J. P. (2008). Somatic mosaicism for copy number variation in differentiated human tissues. Human Mutation, 29(9), 1118-1124. https://doi.org/10.1002/humu.20815

@article{9b2e260eef3540c4ad0dd20b721baab8,

title = "Somatic mosaicism for copy number variation in differentiated human tissues",

abstract = "Two major types of genetic variation are known: single nucleotide polymorphisms (SNPs), and a more recently discovered structural variation, involving changes in copy number (CNVs) of kilobase- to megabase-sized chromosomal segments. It is unknown whether CNVs arise in somatic cells, but it is, however, generally assumed that normal cells are genetically identical. We tested 34 tissue samples from three subjects and, having analyzed for each tissue ≤ 10-6 of all cells expected in an adult human, we observed at least six CNVs, affecting a single organ or one or more tissues of the same subject. The CNVs ranged from 82 to 176 kb, often encompassing known genes, potentially affecting gene function. Our results indicate that humans are commonly affected by somatic mosaicism for stochastic CNVs, which occur in a substantial fraction of cells. The majority of described CNVs were previously shown to be polymorphic between unrelated subjects, suggesting that some CNVs previously reported as germline might represent somatic events, since in most studies of this kind, only one tissue is typically examined and analysis of parents for the studied subjects is not routinely performed. A considerable number of human phenotypes are a consequence of a somatic process. Thus, our conclusions will be important for the delineation of genetic factors behind these phenotypes. Consequently, biobanks should consider sampling multiple tissues to better address mosaicism in the studies of somatic disorders.",

keywords = "Array-CGH, CNV, Genetic heterogeneity, Segmental duplications, Somatic mosaicism, Structural variation",

author = "Arkadiusz Piotrowski and Bruder, {Carl E.G.} and Robin Andersson and {De St{\aa}hl}, {Teresita Diaz} and Uwe Menzel and Johanna Sandgren and Andrzej Poplawski and {Von Tell}, Desiree and Chiquito Crasto and Adam Bogdan and Rafal Bartoszewski and Zsuzsa Bebok and Maciej Krzyzanowski and Zbigniew Jankowski and Partridge, {E. Christopher} and Jan Komorowski and Dumanski, {Jan P.}",

year = "2008",

month = sep,

doi = "10.1002/humu.20815",

language = "English",

volume = "29",

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Piotrowski, A, Bruder, CEG, Andersson, R, De Ståhl, TD, Menzel, U, Sandgren, J, Poplawski, A, Von Tell, D, Crasto, C, Bogdan, A, Bartoszewski, R, Bebok, Z, Krzyzanowski, M, Jankowski, Z, Partridge, EC, Komorowski, J & Dumanski, JP 2008, 'Somatic mosaicism for copy number variation in differentiated human tissues', Human Mutation, vol. 29, no. 9, pp. 1118-1124. https://doi.org/10.1002/humu.20815

TY - JOUR

T1 - Somatic mosaicism for copy number variation in differentiated human tissues

AU - Piotrowski, Arkadiusz

AU - Bruder, Carl E.G.

AU - Andersson, Robin

AU - De Ståhl, Teresita Diaz

AU - Menzel, Uwe

AU - Sandgren, Johanna

AU - Poplawski, Andrzej

AU - Von Tell, Desiree

AU - Crasto, Chiquito

AU - Bogdan, Adam

AU - Bartoszewski, Rafal

AU - Bebok, Zsuzsa

AU - Krzyzanowski, Maciej

AU - Jankowski, Zbigniew

AU - Partridge, E. Christopher

AU - Komorowski, Jan

AU - Dumanski, Jan P.

PY - 2008/9

Y1 - 2008/9

N2 - Two major types of genetic variation are known: single nucleotide polymorphisms (SNPs), and a more recently discovered structural variation, involving changes in copy number (CNVs) of kilobase- to megabase-sized chromosomal segments. It is unknown whether CNVs arise in somatic cells, but it is, however, generally assumed that normal cells are genetically identical. We tested 34 tissue samples from three subjects and, having analyzed for each tissue ≤ 10-6 of all cells expected in an adult human, we observed at least six CNVs, affecting a single organ or one or more tissues of the same subject. The CNVs ranged from 82 to 176 kb, often encompassing known genes, potentially affecting gene function. Our results indicate that humans are commonly affected by somatic mosaicism for stochastic CNVs, which occur in a substantial fraction of cells. The majority of described CNVs were previously shown to be polymorphic between unrelated subjects, suggesting that some CNVs previously reported as germline might represent somatic events, since in most studies of this kind, only one tissue is typically examined and analysis of parents for the studied subjects is not routinely performed. A considerable number of human phenotypes are a consequence of a somatic process. Thus, our conclusions will be important for the delineation of genetic factors behind these phenotypes. Consequently, biobanks should consider sampling multiple tissues to better address mosaicism in the studies of somatic disorders.

AB - Two major types of genetic variation are known: single nucleotide polymorphisms (SNPs), and a more recently discovered structural variation, involving changes in copy number (CNVs) of kilobase- to megabase-sized chromosomal segments. It is unknown whether CNVs arise in somatic cells, but it is, however, generally assumed that normal cells are genetically identical. We tested 34 tissue samples from three subjects and, having analyzed for each tissue ≤ 10-6 of all cells expected in an adult human, we observed at least six CNVs, affecting a single organ or one or more tissues of the same subject. The CNVs ranged from 82 to 176 kb, often encompassing known genes, potentially affecting gene function. Our results indicate that humans are commonly affected by somatic mosaicism for stochastic CNVs, which occur in a substantial fraction of cells. The majority of described CNVs were previously shown to be polymorphic between unrelated subjects, suggesting that some CNVs previously reported as germline might represent somatic events, since in most studies of this kind, only one tissue is typically examined and analysis of parents for the studied subjects is not routinely performed. A considerable number of human phenotypes are a consequence of a somatic process. Thus, our conclusions will be important for the delineation of genetic factors behind these phenotypes. Consequently, biobanks should consider sampling multiple tissues to better address mosaicism in the studies of somatic disorders.

KW - Array-CGH

KW - CNV

KW - Genetic heterogeneity

KW - Segmental duplications

KW - Somatic mosaicism

KW - Structural variation

UR - http://www.scopus.com/inward/record.url?scp=51549095601&partnerID=8YFLogxK

U2 - 10.1002/humu.20815

DO - 10.1002/humu.20815

M3 - Article

C2 - 18570184

AN - SCOPUS:51549095601

SN - 1059-7794

VL - 29

SP - 1118

EP - 1124

JO - Human Mutation

JF - Human Mutation

IS - 9

ER -

Somatic mosaicism for copy number variation in differentiated human tissues

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Keywords

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