Steve Licence scite author profile

Antibody diversity occurs randomly as B cells recombine their immunoglobulin (Ig) heavy- and light-chain genes during development. This process inevitably generates reactivity against self structures, and several mechanisms prevent the development of autoreactive B cells. We report here a role for the pre-B cell receptor, composed of Ig heavy and surrogate light chains, in the negative selection of cells expressing Ig heavy chains with the potential to generate autoantibodies. Surrogate light-chain-deficient (SLC-/-) mice harbored elevated levels of antinuclear antibodies (ANAs) in their serum and showed evidence of escape of pre-B cells expressing prototypic autoantibody heavy chains from negative selection, leading to mature autoantibody secreting CD21-CD23- B cells in the periphery. Thus, the pre-B cell receptor appears to censor the development of certain autoantibody-secreting cells and may represent an important factor in multifactorial autoimmune diseases.

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VpreB1/VpreB2/λ5 Triple-Deficient Mice Show Impaired B Cell Development but Functional Allelic Exclusion of the IgH Locus

Shimizu¹,

Mundt

Licence

et al. 2002

124

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At the precursor B cell stage during bone marrow B cell development, Ig μH chain associates with surrogate L (SL) chain, which is encoded by the three genes VpreB1, VpreB2, and λ5, to form the pre-B cell receptor (pre-BCR). Surface expression of the pre-BCR is believed to signal both proliferation and allelic exclusion of the IgH locus. Mice which lack either VpreB1/VpreB2 or λ5 show a lack of precursor B cell expansion but normal IgH allelic exclusion. This would suggest that one of either λ5 or VpreB can make a pre-BCR-like complex which is still able to signal allelic exclusion but not proliferation. To investigate this, we established mice lacking all components of the SL chain. These mice showed severely impaired B cell development which was similar to that previously found in mice lacking either λ5 or VpreB1/VpreB2. Surprisingly, the IgH locus was still allelically excluded and thus the SL chain appears not to be involved in allelic exclusion.

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Loss of Precursor B Cell Expansion but Not Allelic Exclusion in VpreB1/VpreB2 Double-Deficient Mice

Mundt

Licence

Shimizu³

et al. 2001

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The pre-B cell receptor consists of immunoglobulin (Ig) μ heavy chains and surrogate light chain, i.e., the VpreB and λ5 proteins. To analyze the role of the two VpreB proteins, mice lacking the VpreB1 and VpreB2 genes were generated. VpreB1 − /−VpreB2 − /− mice were impaired in their B cell development at the transition from pre-BI to large pre-BII cells. Pre-BII cells did not expand by proliferation, consequently 40-fold less small pre-BII and immature B cells were found in bone marrow, and the generation of immature and mature conventional B cells in spleen appeared reduced. In addition, only low numbers of B-1a cells were detected in the peritoneum. Surprisingly, Ig heavy chain allelic exclusion was still active, apparently ruling out a signaling role of a VpreB1/VpreB2–containing receptor in this process.

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The pre-B-cell receptor

Mårtensson

Keenan

Licence

2007

Current Opinion in Immunology

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Steve Licence

Censoring of Autoreactive B Cell Development by the Pre-B Cell Receptor

VpreB1/VpreB2/λ5 Triple-Deficient Mice Show Impaired B Cell Development but Functional Allelic Exclusion of the IgH Locus

Loss of Precursor B Cell Expansion but Not Allelic Exclusion in VpreB1/VpreB2 Double-Deficient Mice

The pre-B-cell receptor

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