Marilyn R. Kehry scite author profile

CD40 is a TNF receptor superfamily member that provides activation signals in antigen-presenting cells such as B cells, macrophages, and dendritic cells. Multimerization of CD40 by its ligand initiates signaling by recruiting TNF receptor-associated factors (TRAFs) to the CD40 cytoplasmic domain. Recombinant human TRAF proteins overexpressed in insect cells were biochemically characterized and used to finely map TRAF binding regions in the human CD40 cytoplasmic domain. TRAF1, TRAF2, TRAF3, and TRAF6, but not TRAF4 or TRAF5, bound directly to the CD40 cytoplasmic domain. CD40 interactions with TRAF2 and TRAF3 were stronger than the interactions with TRAF1 and TRAF6. Full-length TRAF3 and TRAF5 formed hetero-oligomers, presumably through their predicted isoleucine zippers. TRAF3-TRAF5 hetero-oligomers interacted with CD40, indicating that TRAF5 can be indirectly recruited to the CD40 cytoplasmic domain. Overlapping peptides synthesized on cellulose membranes were used to map each TRAF interaction region. TRAF1, TRAF2, and TRAF3 interacted with the same region. The recognition site for TRAF6 was a nonoverlapping membrane proximal region. Using peptides with progressive deletions, a minimal TRAF1, TRAF2, and TRAF3 binding region was mapped to the PVQET sequence in the CD40 cytoplasmic domain. The minimal region for TRAF6 binding was the sequence QEPQEINF. These studies demonstrate that the CD40 cytoplasmic domain contains two nonoverlapping TRAF binding regions and suggest that TRAF1, TRAF2, and TRAF3 could bind competitively to one site. Relative affinities and competition of individual and hetero-oligomeric TRAF proteins for CD40 binding sites may contribute to receptor specificity and cell-type selectivity in CD40-dependent signaling.

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Depletion of B Cells in Murine Lupus: Efficacy and Resistance

Ahuja

et al. 2007

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In mice, genetic deletion of B cells strongly suppresses systemic autoimmunity, providing a rationale for depleting B cells to treat autoimmunity. In fact, B cell depletion with rituximab is approved for rhematoid arthritis patients, and clinical trials are underway for systemic lupus erythematosus. Yet, basic questions concerning mechanism, pathologic effect, and extent of B cell depletion cannot be easily studied in humans. To better understand how B cell depletion affects autoimmunity, we have generated a transgenic mouse expressing human CD20 on B cells in an autoimmune-prone MRL/MpJ-Faslpr (MRL/lpr) background. Using high doses of a murine anti-human CD20 mAb, we were able to achieve significant depletion of B cells, which in turn markedly ameliorated clinical and histologic disease as well as antinuclear Ab and serum autoantibody levels. However, we also found that B cells were quite refractory to depletion in autoimmune-prone strains compared with nonautoimmune-prone strains. This was true with multiple anti-CD20 Abs, including a new anti-mouse CD20 Ab, and in several different autoimmune-prone strains. Thus, whereas successful B cell depletion is a promising therapy for lupus, at least some patients might be resistant to the therapy as a byproduct of the autoimmune condition itself.

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Crystallographic analysis of CD40 recognition and signaling by human TRAF2

McWhirter

Pullen

Holton

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

188

154

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Tumor necrosis factor receptor superfamily members convey signals that promote diverse cellular responses. Receptor trimerization by extracellular ligands initiates signaling by recruiting members of the tumor necrosis factor receptor-associated factor (TRAF) family of adapter proteins to the receptor cytoplasmic domains. We report the 2.4-Å crystal structure of a 22-kDa, receptor-binding fragment of TRAF2 complexed with a functionally defined peptide from the cytoplasmic domain of the CD40 receptor. TRAF2 forms a mushroom-shaped trimer consisting of a coiled coil and a unique ␤-sandwich domain. Both domains mediate trimerization. The CD40 peptide binds in an extended conformation with every side chain in contact with a complementary groove on the rim of each TRAF monomer. The spacing between the CD40 binding sites on TRAF2 supports an elegant signaling mechanism in which trimeric, extracellular ligands preorganize the receptors to simultaneously recognize three sites on the TRAF trimer.

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The CD40-TRAF6 axis controls affinity maturation and the generation of long-lived plasma cells

et al. 2002

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Affinity maturation of the immune response and the generation of long-lived bone marrow (BM) plasma cells are hallmarks of CD40-dependent, thymus-dependent (TD) humoral immunity. Through disruption of the tumor necrosis factor receptor (TNFR)-associated factor 6 (TRAF6)-binding site within the CD40 cytoplasmic domain, we selectively ablated affinity maturation and the generation of plasma cells after immunization. Mutagenesis of both the TRAF6 and TRAF2-TRAF3 sites was essential for arresting germinal center formation in response to immunization. CD40-induced B cell proliferation and early immunoglobulin production occurred even when all TRAF sites were ablated. These studies show that specific CD40-TRAF associations control well defined aspects of humoral immunity. In addition, they define the roles that TRAF-dependent and TRAF-independent pathways play in regulating antigen-driven B cell differentiation.

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Marilyn R. Kehry

CD40−Tumor Necrosis Factor Receptor-Associated Factor (TRAF) Interactions: Regulation of CD40 Signaling through Multiple TRAF Binding Sites and TRAF Hetero-Oligomerization

Depletion of B Cells in Murine Lupus: Efficacy and Resistance

Crystallographic analysis of CD40 recognition and signaling by human TRAF2

The CD40-TRAF6 axis controls affinity maturation and the generation of long-lived plasma cells

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