Allelic 'choice' governs somatic hypermutation in vivo at the immunoglobulin κ-chain locus

Shira Fraenkel; Raul Mostoslavsky; Tatiana I. Novobrantseva; Roberta Pelanda; Jayanta Chaudhuri; Gloria Esposito; Steffen Jung; Frederick W. Alt; Klaus Rajewsky; Howard Cedar; Yehudit Bergman

doi:10.1038/ni1476

Allelic 'choice' governs somatic hypermutation in vivo at the immunoglobulin κ-chain locus

Shira Fraenkel
, Raul Mostoslavsky
, Tatiana I. Novobrantseva
, Roberta Pelanda
, Jayanta Chaudhuri
, Gloria Esposito
, Steffen Jung
, Frederick W. Alt
, Klaus Rajewsky
, Howard Cedar
, Yehudit Bergman^*

^*Corresponding author for this work

Institute for Medical Research Israel-Canada (IMRIC)

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

37 Scopus citations

Abstract

Monoallelic demethylation and rearrangement control allelic exclusion of the immunoglobulin κ-chain locus (Igk locus) in B cells. Here, through the introduction of pre-rearranged Igk genes into their physiological position, the critical rearrangement step was bypassed, thereby generating mice producing B cells simultaneously expressing two different immunoglobulin-κ light chains. Such 'double-expressing' B cells still underwent monoallelic demethylation at the Igk locus, and the demethylated allele was the 'preferred' substrate for somatic hypermutation in each cell. However, methylation itself did not directly inhibit the activation-induced cytidine-deaminase reaction in vitro. Thus, it seems that the epigenetic mechanisms that initially bring about monoallelic variable-(diversity)-joining rearrangement continue to be involved in the control of antibody diversity at later stages of B cell development.

Original language	English
Pages (from-to)	715-722
Number of pages	8
Journal	Nature Immunology
Volume	8
Issue number	7
DOIs	https://doi.org/10.1038/ni1476
State	Published - Jul 2007

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title = "Allelic 'choice' governs somatic hypermutation in vivo at the immunoglobulin κ-chain locus",

abstract = "Monoallelic demethylation and rearrangement control allelic exclusion of the immunoglobulin κ-chain locus (Igk locus) in B cells. Here, through the introduction of pre-rearranged Igk genes into their physiological position, the critical rearrangement step was bypassed, thereby generating mice producing B cells simultaneously expressing two different immunoglobulin-κ light chains. Such 'double-expressing' B cells still underwent monoallelic demethylation at the Igk locus, and the demethylated allele was the 'preferred' substrate for somatic hypermutation in each cell. However, methylation itself did not directly inhibit the activation-induced cytidine-deaminase reaction in vitro. Thus, it seems that the epigenetic mechanisms that initially bring about monoallelic variable-(diversity)-joining rearrangement continue to be involved in the control of antibody diversity at later stages of B cell development.",

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AU - Fraenkel, Shira

AU - Mostoslavsky, Raul

AU - Novobrantseva, Tatiana I.

AU - Pelanda, Roberta

AU - Chaudhuri, Jayanta

AU - Esposito, Gloria

AU - Jung, Steffen

AU - Alt, Frederick W.

AU - Rajewsky, Klaus

AU - Cedar, Howard

AU - Bergman, Yehudit

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AB - Monoallelic demethylation and rearrangement control allelic exclusion of the immunoglobulin κ-chain locus (Igk locus) in B cells. Here, through the introduction of pre-rearranged Igk genes into their physiological position, the critical rearrangement step was bypassed, thereby generating mice producing B cells simultaneously expressing two different immunoglobulin-κ light chains. Such 'double-expressing' B cells still underwent monoallelic demethylation at the Igk locus, and the demethylated allele was the 'preferred' substrate for somatic hypermutation in each cell. However, methylation itself did not directly inhibit the activation-induced cytidine-deaminase reaction in vitro. Thus, it seems that the epigenetic mechanisms that initially bring about monoallelic variable-(diversity)-joining rearrangement continue to be involved in the control of antibody diversity at later stages of B cell development.

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Allelic 'choice' governs somatic hypermutation in vivo at the immunoglobulin κ-chain locus

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