Gregor Siebenkotten scite author profile

Antibody class switching is mediated by somatic recombination between switch regions of the immunoglobulin heavy chain gene locus. Targeting of recombination to particular switch regions is strictly regulated by cytokines through the induction of switch transcripts starting 5′ of the repetitive switch regions. However, switch transcription as such is not sufficient to target switch recombination. This has been shown in mutant mice, in which the I-exon and its promoter upstream of the switch region were replaced with heterologous promoters. Here we show that, in the murine germline targeted replacement of the endogenous γ1 promoter, I-exon, and I-exon splice donor site by heterologous promoter and splice donor sites directs switch recombination in activated B lymphocytes constitutively to the γ1 switch region. In contrast, switch recombination to IgG1 is inhibited in mutant mice, in which the replacement does not include the heterologous splice donor site. Our data unequivocally demonstrate that targeting of switch recombination to IgG1 in vivo requires processing of the Iγ1 switch transcripts. Either the processing machinery or the processed transcripts are involved in class switch recombination.

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The murine IgG₁/IgE class switch program

Siebenkotten

et al. 1992

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Immunoglobulin class switching is controlled by cytokines. Thus, interleukin-4 (IL-4) directs class switching to both IgG1 and IgE. Consistent with this are the results reported here on restriction endonuclease analysis of active and inactive alleles of the IgH locus in IgE-producing cells. In cells that were stimulated in vitro by lipopolysaccharide and IL-4 the silent alleles preferentially switched to gamma 1, whereas in cells that were stimulated by antigen in vivo both active and inactive alleles switched to epsilon. Thirty percent of the recombined switch regions (S mu/S epsilon) contain S gamma 1 sequences, which we interpret as footprints of a previous switch to gamma 1. Since this percentage is a minimum estimate, between 30% and 100% of switching to epsilon must occur sequentially via gamma 1.

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Rapid and efficient electroporation-based gene transfer into primary dissociated neurons

Dityateva

Hammond

Thiel³

et al. 2003

Journal of Neuroscience Methods

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Frequency of immunoglobulin E class switching is autonomously determined and independent of prior switching to other classes.

Siebenkotten

Radbruch

1994

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Both, in humans and in mice, a major fraction of immunoglobulin E (IgE)-expressing B lymphocytes develops by sequential Ig class switching from IgM via IgG to IgE. This sequential class switch might have functional implications for the frequency and repertoire of IgE+ cells. Here we show that in mutant mice, in which sequential switching to IgE via IgG1 is blocked, the frequency of cells switching to IgE is not affected. Thus, sequential class switching to IgE merely reflects the simultaneous accessibility of two acceptor switch regions for switch recombination, induced by one cytokine, but with markedly distinct efficiency. Analysis of switch recombination on both IgH alleles of switched cells shows that the low frequency of switching to IgE is an inherent feature of the S epsilon switch region and its control elements.

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