Chantal Eijsink scite author profile

SummaryIn general, humoral immune responses depend critically upon T cell help. In transplantation, prevention or treatment of humoral rejection therefore require drugs that ideally inhibit both B cell and T helper cell activity. Here, we studied the effects of commonly used immunosuppressive drugs [tacrolimus, cyclosporin, mycophenolic acid (MPA) and rapamycin] on T cell helper activity and on T cell-dependent B cell responses. T cells were activated polyclonally in the presence of immunosuppressive drugs in order to analyse the effect of these drugs on T cell proliferation, co-stimulatory ligand expression and cytokines. The impact of immunosuppressive drugs on T cell-dependent immunoglobulin production by B cells was addressed in T-B cell co-cultures. All drugs affected T cell proliferation and attenuated T cell co-stimulatory ligand (CD154 and CD278) expression when T cells were activated polyclonally. Tacrolimus, cyclosporin and rapamycin also attenuated B cell stimulatory cytokine mRNA levels in T cells. As a consequence, a decrease in immunoglobulin levels was observed in autologous T-B cell co-cultures, where T cell help is essential for immunoglobulin production. In contrast, when pre-activated T cells were used to stimulate autologous B cells, calcineurin inhibitors failed to inhibit B cell immunoglobulin production, whereas MPA and rapamycin did show inhibition. From these studies, it is evident that calcineurin inhibitors affect the humoral immune response by interfering with T helper signals, but not by targeting B cells directly. Furthermore, our studies support the necessity of intervening in T cell helper function to attenuate humoral responses.

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Effects of Immunosuppressive Drugs On Purified Human B Cells: Evidence Supporting the Use of MMF and Rapamycin

Heidt

et al. 2008

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Human monoclonal HLA antibodies reveal interspecies crossreactive swine MHC class I epitopes relevant for xenotransplantation

Mulder

Kardol

Arn

et al. 2010

Molecular Immunology

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Identification, Isolation, and Culture of HLA-A2-Specific B Lymphocytes Using MHC Class I Tetramers

Mulder

Eijsink

Kardol

et al. 2003

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Characterizing the individual B cells that participate in the production of anti-HLA Abs requires isolation and culture of these cells and a suitable assay for detection of Abs produced in these B cell cultures. We previously showed that B cell precursors, programmed for anti-HLA Ab secretion, are present at measurable frequencies in peripheral blood of women immunized by pregnancy. In this study, we show that tetrameric HLA-A2, although designed for characterization of CTLs, provides a suitable affinity ligand for isolation of allospecific B cells, which subsequently can be induced to produce HLA-A2 Ab in a CD40-driven culture system. The validity of this concept was established by assaying human hybridomas, producing anti-HLA Abs, for specific tetrameric HLA-A2 binding. The availability of anti-HLA Ab-producing B cell cultures that are established without immortalization will be of value when T-B cell interaction is studied at an alloantigen-specific level.

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A Novel ELISPOT Assay to Quantify HLA-Specific B Cells in HLA-Immunized Individuals

Heidt¹,

Roelen²,

Vaal³

et al. 2012

Transplantation Journal

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Chantal Eijsink

Calcineurin inhibitors affect B cell antibody responses indirectly by interfering with T cell help

Effects of Immunosuppressive Drugs On Purified Human B Cells: Evidence Supporting the Use of MMF and Rapamycin

Human monoclonal HLA antibodies reveal interspecies crossreactive swine MHC class I epitopes relevant for xenotransplantation

Identification, Isolation, and Culture of HLA-A2-Specific B Lymphocytes Using MHC Class I Tetramers

A Novel ELISPOT Assay to Quantify HLA-Specific B Cells in HLA-Immunized Individuals

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