Clonal allelic predetermination of immunoglobulin-κ rearrangement

Marganit Farago; Chaggai Rosenbluh; Maya Tevlin; Shira Fraenkel; Sharon Schlesinger; Hagit Masika; Masha Gouzman; Grace Teng; David Schatz; Yoach Rais; Jacob H. Hanna; Alexander Mildner; Steffen Jung; Gustavo Mostoslavsky; Howard Cedar; Yehudit Bergman

doi:10.1038/nature11496

Clonal allelic predetermination of immunoglobulin-κ rearrangement

Marganit Farago, Chaggai Rosenbluh, Maya Tevlin, Shira Fraenkel, Sharon Schlesinger, Hagit Masika, Masha Gouzman, Grace Teng, David Schatz, Yoach Rais, Jacob H. Hanna, Alexander Mildner, Steffen Jung, Gustavo Mostoslavsky, Howard Cedar^*, Yehudit Bergman

^*Corresponding author for this work

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

41 Scopus citations

Abstract

Although most genes are expressed biallelically, a number of key genomic sites-including immune and olfactory receptor regions-are controlled monoallelically in a stochastic manner, with some cells expressing the maternal allele and others the paternal allele in the target tissue. Very little is known about how this phenomenon is regulated and programmed during development. Here, using mouse immunoglobulin-κ (Igκ) as a model system, we demonstrate that although individual haematopoietic stem cells are characterized by allelic plasticity, early lymphoid lineage cells become committed to the choice of a single allele, and this decision is then stably maintained in a clonal manner that predetermines monoallelic rearrangement in B cells. This is accompanied at the molecular level by underlying allelic changes in asynchronous replication timing patterns at the κ locus. These experiments may serve to define a new concept of stem cell plasticity.

Original language	English
Pages (from-to)	561-565
Number of pages	5
Journal	Nature
Volume	490
Issue number	7421
DOIs	https://doi.org/10.1038/nature11496
State	Published - 25 Oct 2012
Externally published	Yes

Funding

Funders	Funder number
Norton Herrick
Academy of Leisure Sciences
National Institutes of Health
Israel Cancer Research Fund
European Community 5th Framework Quality of Life Program
European Commission	268614

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title = "Clonal allelic predetermination of immunoglobulin-κ rearrangement",

abstract = "Although most genes are expressed biallelically, a number of key genomic sites-including immune and olfactory receptor regions-are controlled monoallelically in a stochastic manner, with some cells expressing the maternal allele and others the paternal allele in the target tissue. Very little is known about how this phenomenon is regulated and programmed during development. Here, using mouse immunoglobulin-κ (Igκ) as a model system, we demonstrate that although individual haematopoietic stem cells are characterized by allelic plasticity, early lymphoid lineage cells become committed to the choice of a single allele, and this decision is then stably maintained in a clonal manner that predetermines monoallelic rearrangement in B cells. This is accompanied at the molecular level by underlying allelic changes in asynchronous replication timing patterns at the κ locus. These experiments may serve to define a new concept of stem cell plasticity.",

author = "Marganit Farago and Chaggai Rosenbluh and Maya Tevlin and Shira Fraenkel and Sharon Schlesinger and Hagit Masika and Masha Gouzman and Grace Teng and David Schatz and Yoach Rais and Hanna, {Jacob H.} and Alexander Mildner and Steffen Jung and Gustavo Mostoslavsky and Howard Cedar and Yehudit Bergman",

note = "Funding Information: Acknowledgements We thank M. Nussenzweig for providing the Igkm/h mice, A. Waisman for providing the IiMOG-marked ES cells, A. G. Fisher and V. Azuara for guiding us through the replication timing analysis by S-phase fractionation assay, M. Inlay for coaching us on the purification and culturing of MPPs and CLPs, A. Wutz for providingsome of the single-cell clones, Y. Smith for imageanalysis and L. Dempsey for sharing ideas. This work was supported by research grants from the Israel Academy of Sciences (H.C., Y.B.), National Institutes of Health (Y.B.), the Israel Cancer Research Foundation (H.C., Y.B.), the European Community 5th Framework Quality of Life Program (Y.B.), Lew Sanders (H.C.) and Norton Herrick (H.C.).",

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AU - Farago, Marganit

AU - Rosenbluh, Chaggai

AU - Tevlin, Maya

AU - Fraenkel, Shira

AU - Schlesinger, Sharon

AU - Masika, Hagit

AU - Gouzman, Masha

AU - Teng, Grace

AU - Schatz, David

AU - Rais, Yoach

AU - Hanna, Jacob H.

AU - Mildner, Alexander

AU - Jung, Steffen

AU - Mostoslavsky, Gustavo

AU - Cedar, Howard

AU - Bergman, Yehudit

N1 - Funding Information: Acknowledgements We thank M. Nussenzweig for providing the Igkm/h mice, A. Waisman for providing the IiMOG-marked ES cells, A. G. Fisher and V. Azuara for guiding us through the replication timing analysis by S-phase fractionation assay, M. Inlay for coaching us on the purification and culturing of MPPs and CLPs, A. Wutz for providingsome of the single-cell clones, Y. Smith for imageanalysis and L. Dempsey for sharing ideas. This work was supported by research grants from the Israel Academy of Sciences (H.C., Y.B.), National Institutes of Health (Y.B.), the Israel Cancer Research Foundation (H.C., Y.B.), the European Community 5th Framework Quality of Life Program (Y.B.), Lew Sanders (H.C.) and Norton Herrick (H.C.).

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Clonal allelic predetermination of immunoglobulin-κ rearrangement

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