Induced pluripotent mesenchymal stromal cell clones retain donor-derived differences in DNA methylation profiles

Kaifeng Shao; Carmen Koch; Manoj K Gupta; Qiong Lin; Michael Lenz; Stephanie Laufs; Bernd Denecke; Manfred Schmidt; Matthias Linke; Hans C Hennies; Jürgen Hescheler; Martin Zenke; Ulrich Zechner; Tomo Šarić; Wolfgang Wagner

doi:10.1038/mt.2012.207

Induced pluripotent mesenchymal stromal cell clones retain donor-derived differences in DNA methylation profiles

Kaifeng Shao, Carmen Koch, Manoj K Gupta, Qiong Lin, Michael Lenz, Stephanie Laufs, Bernd Denecke, Manfred Schmidt, Matthias Linke, Hans C Hennies, Jürgen Hescheler, Martin Zenke, Ulrich Zechner, Tomo Šarić^*, Wolfgang Wagner^*

^*Corresponding author for this work

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

Abstract

Reprogramming of somatic cells into induced pluripotent stem cells (iPSCs) is an epigenetic phenomenon. It has been suggested that iPSC retain some tissue-specific memory whereas little is known about interindividual epigenetic variation. We have reprogrammed mesenchymal stromal cells from human bone marrow (iP-MSC) and compared their DNA methylation profiles with initial MSC and embryonic stem cells (ESCs) using high-density DNA methylation arrays covering more than 450,000 CpG sites. Overall, DNA methylation patterns of iP-MSC and ESC were similar whereas some CpG sites revealed highly significant differences, which were not related to parental MSC. Furthermore, hypermethylation in iP-MSC versus ESC occurred preferentially outside of CpG islands and was enriched in genes involved in epidermal differentiation indicating that these differences are not due to random de novo methylation. Subsequently, we searched for CpG sites with donor-specific variation. These "epigenetic fingerprints" were highly enriched in non-promoter regions and outside of CpG islands-and they were maintained upon reprogramming. In conclusion, iP-MSC clones revealed relatively little intraindividual variation but they maintained donor-derived epigenetic differences. In the absence of isogenic controls, it would therefore be more appropriate to compare iPSC from different donors rather than a high number of different clones from the same patient.

Original language	English
Pages (from-to)	240-50
Number of pages	11
Journal	Molecular Therapy
Volume	21
Issue number	1
DOIs	https://doi.org/10.1038/mt.2012.207
Publication status	Published - Jan 2013
Externally published	Yes

Keywords

Clone Cells
CpG Islands
DNA Methylation
Flow Cytometry
Humans
Immunohistochemistry
Induced Pluripotent Stem Cells
Mesenchymal Stromal Cells
Reverse Transcriptase Polymerase Chain Reaction

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10.1038/mt.2012.207Licence: CC BY-NC-ND

Cite this

Shao, K., Koch, C., Gupta, M. K., Lin, Q., Lenz, M., Laufs, S., Denecke, B., Schmidt, M., Linke, M., Hennies, H. C., Hescheler, J., Zenke, M., Zechner, U., Šarić, T., & Wagner, W. (2013). Induced pluripotent mesenchymal stromal cell clones retain donor-derived differences in DNA methylation profiles. Molecular Therapy, 21(1), 240-50. https://doi.org/10.1038/mt.2012.207

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abstract = "Reprogramming of somatic cells into induced pluripotent stem cells (iPSCs) is an epigenetic phenomenon. It has been suggested that iPSC retain some tissue-specific memory whereas little is known about interindividual epigenetic variation. We have reprogrammed mesenchymal stromal cells from human bone marrow (iP-MSC) and compared their DNA methylation profiles with initial MSC and embryonic stem cells (ESCs) using high-density DNA methylation arrays covering more than 450,000 CpG sites. Overall, DNA methylation patterns of iP-MSC and ESC were similar whereas some CpG sites revealed highly significant differences, which were not related to parental MSC. Furthermore, hypermethylation in iP-MSC versus ESC occurred preferentially outside of CpG islands and was enriched in genes involved in epidermal differentiation indicating that these differences are not due to random de novo methylation. Subsequently, we searched for CpG sites with donor-specific variation. These {"}epigenetic fingerprints{"} were highly enriched in non-promoter regions and outside of CpG islands-and they were maintained upon reprogramming. In conclusion, iP-MSC clones revealed relatively little intraindividual variation but they maintained donor-derived epigenetic differences. In the absence of isogenic controls, it would therefore be more appropriate to compare iPSC from different donors rather than a high number of different clones from the same patient.",

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AU - Koch, Carmen

AU - Gupta, Manoj K

AU - Lin, Qiong

AU - Lenz, Michael

AU - Laufs, Stephanie

AU - Denecke, Bernd

AU - Schmidt, Manfred

AU - Linke, Matthias

AU - Hennies, Hans C

AU - Hescheler, Jürgen

AU - Zenke, Martin

AU - Zechner, Ulrich

AU - Šarić, Tomo

AU - Wagner, Wolfgang

PY - 2013/1

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N2 - Reprogramming of somatic cells into induced pluripotent stem cells (iPSCs) is an epigenetic phenomenon. It has been suggested that iPSC retain some tissue-specific memory whereas little is known about interindividual epigenetic variation. We have reprogrammed mesenchymal stromal cells from human bone marrow (iP-MSC) and compared their DNA methylation profiles with initial MSC and embryonic stem cells (ESCs) using high-density DNA methylation arrays covering more than 450,000 CpG sites. Overall, DNA methylation patterns of iP-MSC and ESC were similar whereas some CpG sites revealed highly significant differences, which were not related to parental MSC. Furthermore, hypermethylation in iP-MSC versus ESC occurred preferentially outside of CpG islands and was enriched in genes involved in epidermal differentiation indicating that these differences are not due to random de novo methylation. Subsequently, we searched for CpG sites with donor-specific variation. These "epigenetic fingerprints" were highly enriched in non-promoter regions and outside of CpG islands-and they were maintained upon reprogramming. In conclusion, iP-MSC clones revealed relatively little intraindividual variation but they maintained donor-derived epigenetic differences. In the absence of isogenic controls, it would therefore be more appropriate to compare iPSC from different donors rather than a high number of different clones from the same patient.

AB - Reprogramming of somatic cells into induced pluripotent stem cells (iPSCs) is an epigenetic phenomenon. It has been suggested that iPSC retain some tissue-specific memory whereas little is known about interindividual epigenetic variation. We have reprogrammed mesenchymal stromal cells from human bone marrow (iP-MSC) and compared their DNA methylation profiles with initial MSC and embryonic stem cells (ESCs) using high-density DNA methylation arrays covering more than 450,000 CpG sites. Overall, DNA methylation patterns of iP-MSC and ESC were similar whereas some CpG sites revealed highly significant differences, which were not related to parental MSC. Furthermore, hypermethylation in iP-MSC versus ESC occurred preferentially outside of CpG islands and was enriched in genes involved in epidermal differentiation indicating that these differences are not due to random de novo methylation. Subsequently, we searched for CpG sites with donor-specific variation. These "epigenetic fingerprints" were highly enriched in non-promoter regions and outside of CpG islands-and they were maintained upon reprogramming. In conclusion, iP-MSC clones revealed relatively little intraindividual variation but they maintained donor-derived epigenetic differences. In the absence of isogenic controls, it would therefore be more appropriate to compare iPSC from different donors rather than a high number of different clones from the same patient.

KW - Clone Cells

KW - CpG Islands

KW - DNA Methylation

KW - Flow Cytometry

KW - Humans

KW - Immunohistochemistry

KW - Induced Pluripotent Stem Cells

KW - Mesenchymal Stromal Cells

KW - Reverse Transcriptase Polymerase Chain Reaction

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