Specificity-Based Negative Selection of Autoreactive B Cells during Memory Formation

Guay, Heath; Panarey, Laura; Reed, Amy J.; Caton, Andrew J.

doi:10.4049/jimmunol.173.9.5485

Cited by 9 publications

(20 citation statements)

References 57 publications

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“…Interestingly, the subsequent fate of these autoreactive HA-specific B cells can differ dramatically in different HA Tg lineages; in HA104 mice (which express HA driven by an SV40 promoter/enhancer), memory responses to secondary virus immunization were comparable to those of BALB/c mice, indicating that PR8 HA-specific B cells could undergo memory formation despite overt autoreactivity (30). By contrast, PR8 HA-specific B cells were subjected to negative selection during memory formation in HACII mice, which express high levels of PR8 HA driven by an MHC class II promoter, including by B cells themselves (19). These studies indicated that specificity for a self-Ag can prevent autoreactive memory B cells that evade negative selection from the primary B cell repertoire from maturing into memory B cells, but that the ability to mediate this form of negative selection can be influenced by the amount and/or cell type in which a self-Ag is expressed.…”

mentioning

confidence: 97%

“…PevHA, HACII, and TS1 mice have been previously described (19,31,32) and were backcrossed to BALB/c mice (Harlan Sprague Dawley) at least 10 generations before use in these experiments. All mice were maintained under specific pathogen-free conditions using sterile microisolators at The Wistar Institute Animal Facility.…”

Section: Micementioning

confidence: 99%

“…We have been using transgenic mice expressing the influenza virus hemagglutinin (HA) 4 as a model self-Ag (HA transgenic (Tg) mice) to examine how autoreactive B cell responses are regulated at different stages of their development. Using virus immunization to induce the formation of HA-specific B cells, we have shown that a population of IgG-secreting B cells that dominates primary Ab responses to the PR8 HA in virus-immunized BALB/c mice is negatively selected due to its autoreactivity in HA Tg mice (19,29). However, a separate population of B cells that participates in both primary and memory responses of virus-immunized BALB/c mice persists in HA Tg mice, and can be activated to generate primary Ab responses by virus immunization (19,29).…”

mentioning

confidence: 99%

“…Using virus immunization to induce the formation of HA-specific B cells, we have shown that a population of IgG-secreting B cells that dominates primary Ab responses to the PR8 HA in virus-immunized BALB/c mice is negatively selected due to its autoreactivity in HA Tg mice (19,29). However, a separate population of B cells that participates in both primary and memory responses of virus-immunized BALB/c mice persists in HA Tg mice, and can be activated to generate primary Ab responses by virus immunization (19,29). Interestingly, the subsequent fate of these autoreactive HA-specific B cells can differ dramatically in different HA Tg lineages; in HA104 mice (which express HA driven by an SV40 promoter/enhancer), memory responses to secondary virus immunization were comparable to those of BALB/c mice, indicating that PR8 HA-specific B cells could undergo memory formation despite overt autoreactivity (30).…”

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confidence: 99%

“…However, this process is not complete and B cells expressing autoreactive specificities can be found in the peripheral B cell repertoire of healthy individuals (11)(12)(13)(14). B cells expressing autoreactive specificities can be actively regulated by anergy induction (15,16) or follicular exclusion (11,17,18) and can be negatively selected during memory formation by a dominant, B cell-intrinsic process (19). The induction of CD4 ϩ T cell tolerance to self-Ags can also be important in preventing autoantibody formation because autoreactive B cells can in some settings be driven to produce autoantibodies by provision of CD4 ϩ T cell help (20 -23).…”

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confidence: 99%

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Spontaneous Autoreactive Memory B Cell Formation Driven by a High Frequency of Autoreactive CD4+ T Cells

Guay

Larkin

Picca

et al. 2007

The Journal of Immunology

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Although somatically mutated autoantibodies are characteristic of many autoimmune diseases, the processes that can lead to their development remain poorly understood. We have examined the formation of autoreactive memory B cells in PevHA mice, which express the influenza virus PR8 hemagglutinin (HA) as a transgenic membrane bound neo-self-Ag. Using a virus immunization strategy, we show that PR8 HA-specific memory B cell formation can occur in PevHA mice, even though a major subset of PR8 HA-specific B cells is negatively selected from the primary repertoire. Moreover, PR8 HA-specific memory B cells develop spontaneously in TS1 × PevHA mice, which coexpress a transgenic PR8 HA-specific TCR and contain a high frequency of HA-specific CD4+ T cells. Notably, autoreactive memory B cell formation occurred in TS1 × PevHA mice even though approximately half of the HA-specific CD4+ T cells were CD25+Foxp3+ cells that could significantly attenuate, but did not completely abolish HA-specific autoantibody production in an adoptive transfer setting. The findings provide evidence that a high frequency of autoreactive CD4+ T cells can be sufficient to promote autoreactive memory B cell formation in the absence of signals provided by overt immunization or infection and despite the presence of abundant autoantigen-specific CD4+CD25+Foxp3+ regulatory T cells.

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mentioning

confidence: 97%

Section: Micementioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Spontaneous Autoreactive Memory B Cell Formation Driven by a High Frequency of Autoreactive CD4+ T Cells

Guay

Larkin

Picca

et al. 2007

The Journal of Immunology

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Dynamics and magnitude of virus‐induced polyclonal B cell activation mediated by BCR‐independent presentation of viral antigen

et al. 2006

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Hypergammaglobulinemia and production of autoantibodies occur during many viral infections, and studies have suggested that viral antigen-presenting B cells may become polyclonally activated by CD4 T cells in vivo in the absence of viral engagement of the BCR. However, we have reported that CD4 cells in lymphocytic choriomengitis virus (LCMV)-infected mice kill adoptively transferred B cells coated with LCMV class II peptides. We report here that most of the surviving naïve B cells presenting class II MHC peptides undergo an extensive differentiation process involving both proliferation and secretion of antibodies. Both events require CD4 cells and CD40/CD40L interactions but not MyD88-dependent signaling within the B cells. B cells taken from immunologically tolerant donor LCMV-carrier mice with high LCMV antigen load became activated following adoptive transfer into LCMV-infected hosts, suggesting that B cells present sufficient antigen for this process during a viral infection. No division or activation of B cells was detected at all in virus-infected hosts in the absence of cognate CD4 T cells and class II antigen. This approach, therefore, formally demonstrates and quantifies a virus-induced polyclonal proliferation and differentiation of B cells, which, due to their high proportion, would mostly have BCR not specific for the virus.

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Elimination of Germinal-Center-Derived Self-Reactive B Cells Is Governed by the Location and Concentration of Self-Antigen

et al. 2012

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Secondary diversification of the B cell repertoire by immunoglobulin gene somatic hypermutation in the germinal center (GC) is essential for providing the high-affinity antibody specificities required for long-term humoral immunity. While the risk to self-tolerance posed by inadvertent generation of self-reactive GC B cells has long been recognized, it has not previously been possible to identify such cells and study their fate. In the current study, self-reactive B cells generated de novo in the GC failed to survive when their target self-antigen was either expressed ubiquitously or specifically in cells proximal to the GC microenvironment. By contrast, GC B cells that recognized rare or tissue-specific self-antigens were not eliminated, and could instead undergo positive selection by cross-reactive foreign antigen and produce plasma cells secreting high-affinity autoantibodies. These findings demonstrate the incomplete nature of GC self-tolerance and may explain the frequent association of cross-reactive, organ-specific autoantibodies with postinfectious autoimmune disease.

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Specificity-Based Negative Selection of Autoreactive B Cells during Memory Formation

Cited by 9 publications

References 57 publications

Spontaneous Autoreactive Memory B Cell Formation Driven by a High Frequency of Autoreactive CD4+ T Cells

Spontaneous Autoreactive Memory B Cell Formation Driven by a High Frequency of Autoreactive CD4+ T Cells

Dynamics and magnitude of virus‐induced polyclonal B cell activation mediated by BCR‐independent presentation of viral antigen

Elimination of Germinal-Center-Derived Self-Reactive B Cells Is Governed by the Location and Concentration of Self-Antigen

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