Contributions of memory B cells to secondary immune response

Abstract About 30% of patients with severe hemophilia A develop neutralizing antibodies against FVIII (FVIII inhibitors) following replacement therapy. The type of FVIII gene mutation as well as other predisposing genetic factors contribute to the inhibitor phenotype. Based on these findings, we asked if the genetic background modulates the long-term persistence of anti-FVIII antibodies and anti-FVIII antibody secreting plasma cells in the E17 murine hemophilia model. Furthermore, we asked if the recently described inhibition of memory-B-cell re-stimulation by high doses of FVIII is influenced by the genetic background of the murine model. E17 mice on two different genetic backgrounds (C57Bl/6J and Balb/c) were treated with four doses of 200 ng human FVIII at weekly intervals. Anti-FVIII antibodies and anti-FVIII antibody secreting plasma cells were followed up to 12 months after the last dose of FVIII. Antibody titers and subclasses of antibodies (IgM, IgG1, IgG2a, IgG2b, IgG3) were measured by ELISA. Antibody secreting plasma cells in spleen and bone marrow were detected by ELISPOT as described (Hausl et al., Thromb Haemost 2002). The re-stimulation of FVIII-specific memory B cells was studied as described recently (Hausl et al., Blood 2005). Anti-FVIII antibodies and anti-FVIII antibody secreting plasma cells were first detectable in E17 Balb/c mice. IgM antibodies in the circulation and IgM secreting plasma cells in the spleen were observed after the first dose of FVIII, IgG antibodies and IgG secreting plasma cells after the second dose. No anti-FVIII antibodies after the first dose of FVIII were observed in E17 C57BL/6J mice but both IgM and IgG antibodies as well as IgM and IgG producing plasma cells were detectable after the second dose of FVIII. The antibody response involved all IgG subclasses in both mouse strains. However, IgG1 was dominant in E17 Balb/c mice whereas IgG2a was dominant in E17 C57BL/6J mice. When the in vitro restimulation of FVIII-specific memory B cells was examined, similar patterns were observed for both mouse strains. Low concentrations of FVIII between 10 and 100 ng/ml FVIII restimulated memory B cells and induced their differentiation into antibody secreting plasma cells whereas high concentrations of FVIII between 1,000 and 20,000 ng/ml FVIII inhibited memory-B-cell-restimulation. These results indicate that the dose-dependent effect of FVIII on the restimulation of FVIII-specific memory B cells does not depend on the genetic background. The major difference between both hemophilic mouse strains was the amplitude of the anti-FVIII immune response. Peak titers of anti-FVIII antibodies and peak concentrations of anti-FVIII antibody secreting plasma cells in spleen and bone marrow were significantly higher in E17 C57BL/6J mice than in E17 Balb/c mice. Whether or not higher ELISA titers correlate with higher Bethesda titers of neutralizing antibodies is currently being investigated. Despite the substantial differences in the amplitude of the immune response, anti-FVIII antibodies and anti-FVIII antibody secreting plasma cells persisted for the whole observation period of 12 months after the last dose of FVIII in both mouse strains. We conclude that the amplitude of the anti-FVIII immune response in hemophilic mice is significantly different between E17 C57BL/6J and E17 Balb/c mice. However, the persistence of the immune response is comparable.

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Göttingen Minipigs as a Model to Evaluate Longevity, Functionality, and Memory of Immune Response Induced by Pertussis Vaccines

Frontiers in Immunology ◽

10.3389/fimmu.2021.613810 ◽

2021 ◽

Vol 12 ◽

Author(s):

Céline Vaure ◽

Véronique Grégoire-Barou ◽

Virginie Courtois ◽

Emilie Chautard ◽

Cyril Dégletagne ◽

...

Keyword(s):

Immune Response ◽

B Cells ◽

Vaccine Development ◽

Vaccination Schedule ◽

Memory B Cells ◽

Immune Memory ◽

Preclinical Model ◽

Göttingen Minipig ◽

Cellular Immune

Evaluation of the short-term and long-term immunological responses in a preclinical model that simulates the targeted age population with a relevant vaccination schedule is essential for human vaccine development. A Göttingen minipig model was assessed, using pertussis vaccines, to demonstrate that vaccine antigen-specific humoral and cellular responses, including IgG titers, functional antibodies, Th polarization and memory B cells can be assessed in a longitudinal study. A vaccination schedule of priming with a whole cell (DTwP) or an acellular (DTaP) pertussis vaccine was applied in neonatal and infant minipigs followed by boosting with a Tdap acellular vaccine. Single cell RNAsequencing was used to explore the long-term maintenance of immune memory cells and their functionality for the first time in this animal model. DTaP but not DTwP vaccination induced pertussis toxin (PT) neutralizing antibodies. The cellular immune response was also characterized by a distinct Th polarization, with a Th-2-biased response for DTaP and a Th-1/Th-17-biased response for DTwP. No difference in the maintenance of pertussis-specific memory B cells was observed in DTaP- or DTwP-primed animals 6 months post Tdap boost. However, an increase in pertussis-specific T cells was still observed in DTaP primed minipigs, together with up-regulation of genes involved in antigen presentation and interferon pathways. Overall, the minipig model reproduced the humoral and cellular immune responses induced in humans by DTwP vs. DTaP priming, followed by Tdap boosting. Our data suggest that the Göttingen minipig is an attractive preclinical model to predict the long-term immunogenicity of human vaccines against Bordetella pertussis and potentially also vaccines against other pathogens.

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Immunogenicity of Pfizer mRNA COVID-19 vaccination followed by J&J adenovirus COVID-19 vaccination in two CLL patients

10.1101/2021.09.02.21262146 ◽

2021 ◽

Author(s):

Zoe L. Lyski ◽

Sunny Kim ◽

David Xthona Lee ◽

David Sampson ◽

Hans P. Raué ◽

...

Keyword(s):

Immune Response ◽

T Cells ◽

Cohort Study ◽

B Cells ◽

Active Treatment ◽

T Cell Response ◽

Memory B Cells ◽

Lymphocytic Leukemia ◽

Specific Immune Response ◽

Treatment Naïve

ImportanceIndividuals with Chronic Lymphocytic Leukemia have significant immune disfunction, often further disrupted by treatment. While currently available COVID-19 vaccinations are highly effective in immunocompetent individuals, they are often poorly immunogenic in CLL patients. It is important to understand the role heterologous boost would have in patients who did not respond to the recommended two-dose mRNA vaccine series with a SARS-CoV-2 specific immune responseObjectiveTo characterize the immune response of two CLL patients who failed to seroconvert after initial mRNA vaccine series following a third, heterologous, COVID-19 vaccination with Ad26.COV2.S.DesignTwo subjects with CLL were enrolled in an IRB-approved observational longitudinal cohort study of the immune response to COVID-19 vaccination. After enrollment, they received a third vaccination with Ad26.COV2.S. Blood was drawn prior to original vaccination series, four weeks after mRNA vaccination, and again four weeks after third vaccination.SettingEligible subjects were approached by oncologist overseeing CLL treatment and informed about study, at time of enrollment subjects consented to join the cohort study.ParticipantsSixteen subjects enrolled in the larger CLL cohort study, of whom two subjects received a third COVID-19 vaccination and were included in this analysis. Subject 1 is CLL treatment naive, while Subject 2 is currently on active treatment.Main Outcome(s) and Measure(s)SARS-CoV-2 specific immune response, including plasma antibodies, memory B-cells, CD4 and CD8 T-cells were assessed prior to vaccination (baseline) as well as post vaccination series and post third dose.ResultsOf the two subjects who received Ad26.COV2.S doses, Subject 1 seroconverted, had RBD-specific memory B-cells as well as spike-specific CD4 T-cells while Subject 2 did not. Both subjects had a spike-specific CD8 T-cell response after original mRNA vaccination series that was further boosted after third dose (Subject 1), or remained stable (Subject 2).Conclusions and RelevanceThe results of this study, however small, is especially promising to CLL individuals who did not seroconvert following initial mRNA vaccination series. Especially those that are treatment naive, not currently in active treatment, or who may consider vaccination before beginning active treatment.

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Polyreactivity and Somatic Hypermutation Analysis Reveals the Innate B Cell Origin of Human PF4/Heparin Reactive Antibodies

Blood ◽

10.1182/blood-2020-138781 ◽

2020 ◽

Vol 136 (Supplement 1) ◽

pp. 34-35

Author(s):

Wen Zhu ◽

Lu Zhou ◽

Ting Zhao ◽

Yongwei Zheng ◽

Mei Yu ◽

...

Keyword(s):

Immune Response ◽

B Cells ◽

B Cell ◽

Peripheral Blood ◽

Healthy Subjects ◽

Somatic Hypermutation ◽

Memory B Cells ◽

Private Company ◽

Platelet Factor ◽

Polyreactive Antibodies

Heparin-induced thrombocytopenia (HIT) is a serious reaction to heparin treatment characterized by antibodies that recognize a complex formed between heparin and platelet factor 4 (PF4/H) and are capable of activating platelets and inducing a pro-thrombotic state. Although a high percentage of heparin-treated patients produce antibodies to PF4/H, only a subset of these antibodies are platelet-activating (pathogenic) and capable of causing HIT. We previously reported that we cloned B cells from six patients experiencing HIT and identified two types of PF4/H-binding antibodies: seven platelet-activating (PA) and 48 non-activating (NA). Comparison of the structural features in the PA, NA, and non PF4/H-binding (NB) clones showed that the length and the number of basic amino acid and tyrosine residue in the heavy chain complementarity determining region 3 (HCDR3) were significantly different, and was in the order of PA>NA>NB. Most significantly, the seven platelet-activating antibodies each have one of the two pathogenic motifs: RX1-2 R/KX1-2 R/H and YYYYY in an unusually long HCDR3 (≥ 20 residues). In the current study, we attempt to understand the origin of the B cells that produce the PA and NA antibodies and the nature of the immune response in HIT through analyzing somatic hypermutation and biological property of such antibodies. Longer HCDR3 and more basic Aas and Tyr residues in the HCDR3 are features of autoreactive and polyreactive antibodies. With this in mind, we tested PA and NA clones in a standard antinuclear antibody (ANA) assay and found that these clones were significantly more reactive than NB antibodies, and the plasma of HIT patients were significantly more reactive than normal plasma (Figure1). We then compared reactions of PA, NA and NB clones against a group of self and foreign antigens commonly used in polyreactivity assays: dsDNA, ssDNA, LPS, insulin, and keyhole limpet hemocyanin (KLH). About 90% of PA and NA clones were reactive to at least two antigens, this was true of only 20% of the NB clones, and the latter is consistent with the frequency of polyreactive clones in the IgG+ B cells (Figure2). Taken together, these data indicate that PA and NA antibodies are largely polyreactive. We then investigated the development of the PA and NA B cells through analyzing somatic hypermutation in the antibodies. Through analyzing the HCDR3 nucleotide insertion, trimming and VDJ segment usage, we found that longer HCDR3 typical of PF4/H-binding clones and the RKH and Y5 motifs identified in PA clones were the result of original recombination not somatic hypermutation. Consistently, the average number of nucleotide mutations in the VH genes of the binding clones was lower (PA and NA, 9.4 ± 9.5) compared to that of peripheral blood IgG+ memory B cells in healthy subjects (~18) (Figure3). Total mutation frequency in the VH and Vk CDRs of the PF4/H-binding PA and NA clones was comparable to that of the framework regions. This finding contrasts with findings made in peripheral blood IgG+ memory B cells of healthy subjects showing that the mutation frequencies are much higher in the CDRs than in the FRs of VH. Taken together, these findings suggest that affinity maturation plays a limited role in the evolution PF4/H-binding antibodies during the immune response that leads to HIT. In this study, we showed thay PF4/H-binding PA and NA IgGs are largely polyreactive antibodies and contain lower levels of mutations compared to IgG+ memory B cells. B1 and MZ B cells are innate B cells that are main producers of polyreactive natural antibodies and can respond to toll-like receptor signaling, quickly differentiate into antibody-secreting cells, and undergo IgG class switch extrafollicularly. Polyreactivity identified in the PF4/H-binding PA and NA IgGs supports the possibility that human B cells producing PF4/H-binding antibodies are innate B cells akin to MZ B cells shown to be a source of PF4/H antibodies in mice. A mutation rate lower than that of IgG+ memory cells in the PF4/H-binding IgGs is also consistent with an extrafollicular response typical of innate B cells. These observations would help to improve our understanding of the immunological responses and B cell origin in HIT patients. Disclosures Padmanabhan: Retham Technologies: Current equity holder in private company; Veralox Therapeutics: Membership on an entity's Board of Directors or advisory committees; Versiti Blood Research Institute: Patents & Royalties.

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Memory B Cells Protect from CMV Infection in the Absence of T Cells.

Blood ◽

10.1182/blood.v108.11.619.619 ◽

2006 ◽

Vol 108 (11) ◽

pp. 619-619 ◽

Cited By ~ 1

Author(s):

Thomas H. Winkler ◽

Florian Weisel ◽

Karin Klenovsek ◽

Michael Mach

Keyword(s):

Bone Marrow ◽

Immune Response ◽

T Cell ◽

B Cells ◽

Memory B Cells ◽

Primary Immune Response ◽

Immunodeficient Mice ◽

Virus Dissemination ◽

Specific Memory ◽

T Cell Help

Abstract Infections with cytomegalovirus are still a major clinical problem in immunosuppressed patients e.g. after bone marrow or stem cell transplantation. To prevent clinical overt disease resulting from disseminated virus infection, immunoprophylaxis and/or -therapy are considered a major goal. The humoral immune response contributes to immune protection against CMV by providing neutralizing antibodies. However, in the early phase after transplantation a primary immune response is not possible. Humoral anti-CMV immune effector functions can only be provided by memory B cells. The activation requirements for resting memory B cells are unclear. Using non-infectious hCMV particles in mice we have recently shown that activation of virus-specific memory B cells to secrete IgG is independent of cognate or bystander T cell help. To analyze whether transfer of memory B cells into immunodeficient mice can protect from lethal infection we switched to an infectious animal model using mCMV. When memory B cells from mCMV-infected mice were adoptively transferred into RAG-1−/− mice, a strong IgG anti-mCMV titer developed within 4–6 days after infection with mCMV. Virus dissemination and subsequent disease was inhibited. A 100–1000 fold decrease of virus titers and a 1.000–10.000 fold decrease of viral DNA load in spleen and lung was observed in mice that received mCMV specific memory B cells. Even in an established mCMV infection virus dissemination and subsequent disease could be prevented by means of adoptive memory B cell transfer. In further experiments we also used a virus mutant that cannot be controlled by NK cells in C57Bl/6 mice. Even in this experimental system we could demonstrate that adoptive transfer of memory B cells in the absence CD4 and CD8 cells is sufficient to protect from viral dissemination and rapid lethality. Our results show that memory B cells can mediate protection against mCMV in the absence of cognate or bystander T cell help. Similar regimens might be a therapeutic option for CMV reactivation after bone marrow transplantation in patients.

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