Enforced Bcl-2 expression inhibits antigen-mediated clonal elimination of peripheral B cells in an antigen dose-dependent manner and promotes receptor editing in autoreactive, immature B cells

The mechanisms that establish immune tolerance in immature and mature B cells appear to be distinct. Membrane-bound autoantigen is thought to induce developmental arrest and receptor editing in immature B cells, whereas mature B cells have shortened lifespans when exposed to the same stimulus. In this study, we used Emu-bcl-2-22 transgenic (Tg) mice to test the prediction that enforced expression of the Bcl-2 apoptotic inhibitor in B cells would rescue mature, but not immature, B cells from tolerance induction. To monitor tolerance to the natural membrane autoantigen H-2Kb, we bred 3-83mudelta (anti-Kk,b) Ig Tg mice to H-2(b) mice or to mice expressing transgene-driven Kb in the periphery. In 3-83mudelta/bcl-2 Tg mice, deletion of autoreactive B cells induced by peripheral Kb antigen expression in the liver (MT-Kb Tg) or epithelia (KerIV-Kb Tg), was partly or completely inhibited, respectively. Furthermore, Bcl-2 protected peritoneal B-2 B cells from deletion mediated by acute antigen exposure, but this protection could be overcome by higher antigen dose. In contrast to its ability to block peripheral self-tolerance, Bcl-2 overexpression failed to inhibit central tolerance induced by bone marrow antigen expression, but instead, enhanced the receptor editing process. These studies indicate that apoptosis plays distinct roles in central and peripheral B cell tolerance.     

Biochemistry of antigen receptor signaling in mature and developing B lymphocytes

The function of the surface antigen receptor of B cells (BCR) has been extensively studied with respect to the activation of mature B lymphocytes. B cells at other points of development (e.g., pre-B cells, immature B cells, and germinal center B cells) also express forms of the BCR, and for cells at these developmental timepoints, signaling through the BCR in some cases may lead to outcomes other than B-cell activation. Understanding the molecular events that are initiated by BCR crosslinking would enhance our understanding of the regulation and functional results of BCR signaling throughout B-cell development. In this article we review the current understanding of BCR signal transduction from initiation of the signal through changes in expression of genes that regulate the activation state. Costimulatory and modulatory molecules are considered with regard to their ability to affect the sensitivity or outcome of the BCR signal. Finally, we discuss how BCR signal transduction and the results of BCR signaling may differ at distinct stages in B-cell development.     

In vivo ablation of surface immunoglobulin on mature B cells by inducible gene targeting results in rapid cell death

Gene targeting experiments have demonstrated that the expression of immunoglobulin heavy chain in the pre-B cell receptor (pBCR) and of heavy and light chains in the B cell antigen receptor (BCR) marks checkpoints in early B cell development that the cells have to pass to survive. To investigate whether the persistence of mature B cells in the peripheral immune system also depends on BCR expression, we have generated a transgenic mouse in which the BCR can be inducibly ablated through V region gene deletion. Ablation leads to rapid death of mature B lymphocytes, which is preceded by down-regulation of MHC antigens and up-regulation of CD95 (Fas) and can be delayed by constitutive bcl-2 expression.     

The in vivo balance between B cell clonal expansion and elimination is regulated by CD95 both on B cells and in their micro-environment

In congenital nephrogenic diabetes insipidus, the renal collecting ducts are resistant to the antidiuretic action of arginine vasopressin or to its antidiuretic analog 1-deamino[8-D-arginine] vasopressin (dDAVP). This is a rare, but now well described entity secondary to either mutations in the AVPR2 gene that codes for the vasopressin antidiuretic (V2) receptor or to mutations in the AQP2 gene that codes for the vasopressin-dependent water channel. A majority (> 90%) of congenital nephrogenic diabetes insipidus patients have AVPR2 mutations: Of 115 families with congenital nephrogenic diabetes insipidus, 105 families had AVPR2 mutations, and 10 had AQP2 mutations. When studied in vitro, most AVPR2 mutations lead to receptors that are trapped intracellularly and are unable to reach the plasma membrane. A minority of the mutant receptors reach the cell surface but are unable to bind vasopressin or to trigger an intracellular adenosine 3:5-cyclic phosphate signal properly. Most of the reported mutations are secondary to a complete loss of function of the receptor, and only a few mutations have been associated with a mild phenotype. These advances provide diagnostic tools for physicians caring for these patients because, when the disease causing mutation has been identified, carrier and perinatal testing could be done by mutation analysis.     

Activation of the Rap1 GTPase by the B cell antigen receptor

The B cell antigen receptor (BCR) activates Ras, a GTPase that promotes cell proliferation by activating the Raf-1/MEK/ERK signaling module and other signaling enzymes. In its active GTP-bound form, the Rap1 GTPase may act as a negative regulator of Ras-mediated signaling by sequestering Ras effectors (e.g., Raf-1) and preventing their activation. In this report, we show that BCR engagement activates Rap1 and that this is dependent on production of diacylglycerol (DAG) by phospholipase C-gamma. Activation of Rap1 by the BCR was greatly reduced in phospholipase C-gamma-deficient B cells, whereas both a synthetic DAG and phorbol dibutyrate could activate Rap1 in B cells. We had previously shown that C3G, an activator of Rap1, associates with the Crk adaptor proteins in B cells and that BCR engagement causes Crk to bind to the Cas and Cbl docking proteins. However, the DAG-dependent pathway by which the BCR activates Rap1 apparently does not involve Crk signaling complexes since phorbol dibutyrate could activate Rap1 without inducing the formation of these complexes. Thus, the BCR activates Rap1 via a novel DAG-dependent pathway.     

Triple check for antigen specificity of B cells during germinal centre reactions

Somatic hypermutation of the immunoglobulin variable genes during germinal reactions might permit the expansion of B-cell clones with unwanted (e.g. autoreactive) specificity. Here, Ernst Lindhout and colleagues propose three antigen-specific checkpoints that ensure the appropriate antigen specificity of activated B cells is maintained by regulating the activation, selection and further differentiation of B cells.     

Rescue of self-reactive B cells by provision of T cell help in vivo

We have previously demonstrated that antigen-specific T cell help can rescue mature Ig transgenic (Tg) hen egg lysozyme (HEL)-specific B cells from tolerance induction upon transfer into soluble HEL-expressing Tg hosts. Here we extend these findings by showing that T cell help could also rescue both immature and mature self-reactive B cells from rapid deletion in response to high-avidity membrane-bound HEL. Moreover, although short-lived anergic peripheral B cells that had matured in the presence of soluble self antigen could not be rescued by provision of T cell help, a proportion of immature anergic IgM+ IgD- CD23- B cells from the bone marrow of the same donors survived and proliferated when given help following transfer to a soluble or membrane HEL-expressing host. In other words, T cell help must be available relatively soon after the antigen signal to prevent induction of tolerance. Consistent with this interpretation, the stronger stimulus provided by membrane-bound antigen, which deletes immature B cells before they leave the bone marrow, did not afford an opportunity for T cell help to rescue tolerant immature bone marrow-derived B cells upon transfer in vivo. Nevertheless, these B cells were capable of responding to T cell help in vitro, which speaks against an immutable susceptibility of immature B cells to tolerance induction. Taken together, these data indicate that the strength of the antigen signal and availability of T cell help are the primary determinants of the fate of both immature and mature B cells, consistent with the model proposed by Bretscher and Cohn more than 25 years ago.     

B cell antigen receptor desensitization: disruption of receptor coupling to tyrosine kinase activation

Antigen binding to the B cell receptor (BCR) induces receptor desensitization, a condition characterized by cellular unresponsiveness to subsequent Ag stimulation despite the continued ability to bind Ag. To better understand the molecular mechanism of this unresponsiveness, we have used complementary lymphoma (K46 mu) and Ig transgenic (3-83 mu delta) mouse models to study regulation of BCR signaling. Our findings in the lymphoma model show that an initial Ag encounter renders receptors unresponsive to subsequent Ag challenge, as measured by their inability to mobilize Ca2+ and to mediate phosphorylation of receptor-proximal kinases, including Lyn, Blk, and Syk. Most importantly, the Ig alpha and Ig beta components of desensitized receptors are not phosphorylated, and receptor-associated kinases are not activated upon Ag challenge. The molecular defect does not appear to result from Lyn inactivation, sequestration, or repression, since Lyn from desensitized cell lysates is activated in vitro by synthetic doubly phosphorylated immunoreceptor tyrosine-based activation motif peptides. A similar deficit in Ag-induced receptor phosphorylation was observed in desensitized B cells from 3-83 mu delta transgenic mice. These studies indicate that Ag receptor desensitization reflects an inability to initiate activation of receptor-associated kinases that normally phosphorylate receptor Ig alphabeta subunits, leading to signal propagation.     

Molecular dissection of B cell antigen receptor signaling (review)

Metchnikowin is a recently discovered proline-rich peptide from Drosophila with antibacterial and antifungal properties. Like most other antimicrobial peptides from insects, its expression is immune-inducible. Here we present evidence that induction of metchnikowin gene expression can be mediated either by the TOLL pathway or by the imd gene product. We show that the gene remains inducible in Toll-deficient mutants, in which the antifungal response is blocked, as well as in imd mutants, which fail to mount an antibacterial response. However, in Toll-deficient;imd double mutants, metchnikowin gene expression can no longer be detected after immune challenge. Our results suggest that expression of this peptide with dual activity can be triggered by signals generated by either bacterial or fungal infection. Cloning of the metchnikowin gene revealed the presence in the 5' flanking region of several putative cis-regulatory motifs characterized in the promoters of insect immune genes: namely, Rel sites, GATA motifs, interferon consensus response elements and NF-IL6 response elements. Establishment of transgenic fly lines in which the GFP reporter gene was placed under the control of 1.5 kb of metchnikowin gene upstream sequences indicates that this fragment is able to confer full immune inducibility and tissue specificity of expression on the transgene.     

Involvement of MIIC-like late endosomes in B cell receptor-mediated antigen processing in murine B cells

Currently, the involvement of classical vs novel endocytic compartments in the phenomenon of B cell receptor (BCR)-mediated Ag processing is a matter of considerable debate. In murine B cells, class II vesicles (CIIV) represent a novel endocytic compartment involved in BCR-mediated Ag processing and class II peptide loading. Alternatively, in human B cells, the MHC class II-enriched compartment (MIIC) represents a lysosome (L)-like endocytic compartment that appears to be involved in this process. Presently, the relationship between CIIV, MIIC, and classical endosomes and L remains to be determined. Using density gradient centrifugation, a subcellular compartment morphologically and immunologically similar to human MIIC has been identified, isolated, and characterized in murine B cells. These MIIC-like vesicles represent a population of class II-positive late endosomes (LE) and are distinct from CIIV. MIIC-like LE are uniquely marked by the thiol protease cathepsin B, and along with mature L, appear to be the major repository of DM molecules in these cells. Importantly, both MIIC-like LE and CIIV isolated from Ag-pulsed B cells contain BCR-internalized Ag as well as antigenic peptide-class II complexes.     

Syk, but not Lyn, recruitment to B cell antigen receptor and activation following stimulation of CD45- B cells

B cell Ag receptor (BCR) signaling occurs via tyrosine phosphorylation of CD79a and CD79b ITAMs, leading to recruitment and activation of Lyn and Syk tyrosine kinases and subsequent downstream events. CD45 expression is required for BCR triggering of certain of these downstream events, such as calcium mobilization and p21ras activation. However, the site in the BCR signaling cascade at which CD45 impinges is poorly defined. To address this question, we have studied CD45 function in the CD45-deficient (CD45-) and CD45-reconstituted (CD45+) J558L mu m3 plasmacytoma. In both CD45+ and CD45- cells, Ag stimulation led to CD79a and CD79b tyrosine phosphorylation as well as Syk tyrosine phosphorylation, recruitment to the receptors, and activation. In contrast to CD45+ cells, Lyn exhibited high basal tyrosine phosphorylation in the CD45- cells and was not further phosphorylated upon Ag stimulation. Mapping studies indicated that the observed constitutive phosphorylation of Lyn reflects phosphorylation of its C-terminal tyrosine, Y508, at high stoichiometry. Constitutively Y508-phosphorylated Lyn was neither recruited to the BCR nor activated upon Ag stimulation. Moreover, CD79a-ITAM phosphopeptides failed to bind Lyn from the CD45- cells. Thus, Y508 phosphorylation of Lyn occurs in the absence of cellular CD45 expression and appears to render the kinase unable to associate with the phosphorylated receptor complex via its Src homology 2 domain and to participate in signal propagation. Surprisingly, in view of previous findings implicating Src family kinases in ITAM phosphorylation, the data indicate that Ag-induced CD79a and CD79b tyrosine phosphorylation and Syk recruitment and activation can occur in the absence of CD45 expression and, hence, Src-family kinase activation.     

Profound deletion of mature T cells in vivo by chronic exposure to exogenous superantigen

It has been noted previously that superantigens can under different circumstances stimulate activation, expansion, anergy, and/or deletion of reactive T cells in vivo and in vitro. Here, we present a detailed examination of the expansion and deletion of T cells in vivo in response to the superantigens staphylococcal enterotoxin A (SEA) in the B10.BR mouse. Mice were either acutely or chronically exposed to varying doses of SEA, and the relative level of T cells bearing SEA-reactive V beta elements was followed over time in lymphocytes purified from peripheral blood, lymph nodes, mesenteric lymph nodes, and spleen. In most cases, an initial sharp rise in the proportion of reactive T cells was followed by a dramatic decline. Cells of the CD4+ and CD8+ lineages displayed subtle differences in their kinetics of activation and deletion, as well as their sensitivity to different doses of SEA. Furthermore, cells bearing either of two V beta elements previously characterized as SEA-reactive showed some differences in their responses to SEA treatment. Acute exposure usually caused the disappearance of only 50% to 70% of reactive T cells; however, chronic exposure to SEA caused almost complete deletion of target T cells. Deletion was evident even in animals treated with very low doses of SEA, doses that were too small to cause any apparent T cell proliferation. Thus, proliferation does not appear to be a prerequisite for peripheral deletion of T cells.     

Tolerance sensitivity of immature-stage B cells: can developmentally regulated B cell antigen receptor (BCR) signal transduction play a role?

During development, B lymphocytes pass through a window in which self-reactive cells are eliminated. Elimination at this early stage of development occurs because immature-stage B cells are more sensitive to tolerance induction and negative selection than are mature-stage B cells. In this discussion, the author presents the arguments leading to the conclusion that the molecular basis for this differential sensitivity to negative selection is due to intrinsic differences in Ag receptor signal transduction between immature and mature B cells.     

Cross-linking the murine heat-stable antigen induces apoptosis in B cell precursors and suppresses the anti-CD40-induced proliferation of mature resting B lymphocytes

The murine heat-stable antigen (HSA) is a glycosyl-phosphatidylinositol-linked cell surface protein which has been implicated in cellular adhesion processes, the co-stimulation of CD4+ T cells, and B cell memory. We have recently demonstrated a significant reduction in pro-B and pre-B lymphocytes in transgenic mice that overexpress HSA. We now report that cross-linking HSA with the M1/69 monoclonal antibody induces the apoptosis of cultured B cell precursors in a stomal cell and cytokine-independent manner and that sensitivity to HSA-mediated cell death increases with developmental maturity. The cross-linking of HSA does not induce apoptosis in mature splenic B cells, but instead inhibits their ability to proliferate in response to anti-CD40 + IL-4. Taken together, these data implicate HSA as a potent negative regulator of B cell development and activation.     

Modulation of CD72 by ligation of B cell receptor complex molecules on CD5+ B cells

B cells expressing CD5 also carry its ligand, CD72. As an approach to understanding the role of CD5 and CD72 on B cells, we have examined the association of CD72 with CD5 and slgM by modulation/co-modulation and capping/co-capping following ligation of these surface molecules with specific antibodies. Modulation and co-modulation were measured after 24 h, whilst capping was measured after 1 h. CD5 and slgM co-modulated each other, CD72 co-modulated with slgM and CD5, but anti-CD72 did not affect either slgM or CD5. CD5 and slgM co-capped each other, whilst CD72 failed to co-cap with either slgM or CD5. The CD5-induced co-modulation of CD72 was partially blocked by specific protein tyrosine kinase inhibitor, but not the slgM-induced co-modulation, Protein kinase C (PKC) inhibitors abrogated the anti-mu- but not the anti-CD5-triggered modulation of CD72, whereas PKC activators prevented the CD5- but not the slgM-induced 24 h modulation of CD72. None of these drugs was able to modify the anti-CD72-induced modulation of CD72. Our data suggest that CD5 is physically associated with slgM in the B cell receptor complex but not with CD72. Furthermore, from the effect of drugs on modulation, there appears to be different associations of CD72 with slgM and CD5. These two pathways differed in some respects, consistent with a co-stimulatory function of CD72 and CD5 in B cell activation.     

Role of the B cell antigen receptor in antigen processing and presentation. Involvement of the transmembrane region in intracellular trafficking of receptor/ligand complexes

To study the role of the B cell Ag receptor (membrane-bound Ig [mIg]) in Ag processing and presentation, we have generated several Ig transfectants that express transfected TEPC-15 idiotype (T15-Id) mIgM with phosphorylcholine (PC)-binding specificity. The wild-type Ig transfectant is able to present a specific Ag (e.g., PC-conjugated hen egg-white lysozyme [PC-HEL]) more efficiently than a nonspecific Ag (HEL) to a T cell hybridoma recognizing an epitope on the HEL molecule. A substitution in the entire spacer, transmembrane, and cytoplasmic region of mIg with an equivalent region of I-A alpha chain completely abolishes this mIg-enhanced Ag presentation. Experiments with the wild-type and substituted variant Ig transfectants suggest that this substitution may interfere with normal intracellular trafficking of mIg after cross-linking with specific Ag or antibodies specific for the mIg (anti-T15-Id mAb). Prolonged treatment of the wild-type Ig transfectants with specific Ag or anti-T15-Id mAb reduces the surface expression of T15-Id mIgM and leads to an accumulation of T15-Id mIgM inside the cells. The reduced surface expression and the elevated cytoplasmic accumulation of T15-Id mIgM are not observed in the variant Ig transfectant. Despite the ability of the variant to endocytose ligands similarly to the wild-type Ig transfectant, this variant displays a higher rate of recycling of the mIg/ligand complexes back to the cell surface and a lower rate of degradation of the ligands. These abnormalities may be responsible for the deficiency in mIg-mediated enhancement of Ag presentation in the variant Ig transfectant. Therefore, our results suggest that the transmembrane region of mIg is involved in intracellular trafficking of receptor/ligand complexes and that proper delivery and handling of internalized Ag are required for the enhanced presentation of specific Ag by B cells.     

Expansion of autoreactive T cells in multiple sclerosis is independent of exogenous B7 costimulation

Multiple sclerosis (MS) is an inflammatory disease of the myelinated central nervous system that is postulated to be induced by myelin-reactive CD4 T cells. T cell activation requires an antigen-specific signal through the TCR and a costimulatory signal, which can be mediated by B7-1 or B7-2 engagement of CD28. To directly examine the activation state of myelin-reactive T cells in MS, the costimulation requirements necessary to activate myelin basic protein (MBP) or tetanus toxoid (TT)-reactive CD4 T cells were compared between normal controls and MS patients. Peripheral blood T cells were stimulated with Chinese hamster ovary (CHO) cells transfected either with DRB1*1501/DRA0101 chains (t-DR2) alone, or in combination with, B7-1 or B7-2. In the absence of costimulation, T cells from normal subjects stimulated with the recall antigen TT p830-843 were induced to expand and proliferate, but stimulation with MBP p85-99 did not have this effect. In marked contrast, T cells from patients with MS stimulated with MBP p85-99 in the absence of B7-1 or B7-2 signals expanded and proliferated. Thus, MBP-reactive CD4 T cells in patients with MS are costimulation independent and have been previously activated in vivo. These experiments provide further direct evidence for a role of activated MBP-specific CD4 T cells in the pathogenesis of MS.     

The Gab1 protein is a docking site for multiple proteins involved in signaling by the B cell antigen receptor

Gab1 is a member of the docking/scaffolding protein family which includes IRS-1, IRS-2, c-Cbl, p130(cas), and p62(dok). These proteins contain a variety of protein-protein interaction motifs including multiple tyrosine residues that when phosphorylated can act as binding sites for Src homology 2 (SH2) domain-containing signaling proteins. We show in the RAMOS human B cell line that Gab1 is tyrosine-phosphorylated in response to B cell antigen receptor (BCR) engagement. Moreover, tyrosine phosphorylation of Gab1 correlated with the binding of several SH2-containing signaling proteins to Gab1 including Shc, Grb2, phosphatidylinositol 3-kinase, and the SHP-2 tyrosine phosphatase. Far Western analysis showed that the SH2 domains of Shc, SHP-2, and the p85 subunit of phosphatidylinositol 3-kinase could bind directly to tyrosine-phosphorylated Gab1 isolated from activated RAMOS cells. In contrast, the Grb2 SH2 domain did not bind directly to Gab1 but instead to the Shc and SHP-2 associated with Gab1. We also show that Gab1 is present in the membrane-enriched particulate fraction of RAMOS cells and that Gab1/signaling protein complexes are found in this fraction after BCR engagement. Thus, tyrosine-phosphorylated Gab1 may recruit cytosolic signaling proteins to cellular membranes where they can act on membrane-bound targets. This may be a critical step in the activation of multiple BCR signaling pathways.     

CpG oligodeoxyribonucleotides rescue mature spleen B cells from spontaneous apoptosis and promote cell cycle entry

Isolated murine splenic B cells undergo spontaneous apoptosis. Motifs containing unmethylated CpG dinucleotides in bacterial DNA or in synthetic oligodeoxynucleotides (ODN) are known to activate murine B cells. Now we show that ODN that induce spleen B cell cycle entry also inhibit spontaneous apoptosis in a sequence-specific fashion. Reversal of the CG to GC abolished activity. Methylation of the central cytosine decreased activity. When CpG is preceded by a cytosine or followed by a guanine, activity was abolished. Other substitutions at the same positions had no effect. Dose-response curves for apoptosis protection and G1 entry suggested that a uniform population of ODN recognition sites controlled downstream ODN effects. A CpG ODN with a nuclease-resistant phosphorothioate backbone (S-ODN) was also active, and increased the levels of c-myc, egr-1, c-jun, bclXL, and bax mRNA and c-Myc, c-Jun, Bax, and BclXL protein in spleen B cells. Levels of c-myb, myn, c-Ki-ras, and bcl2 mRNA remained unchanged. When protein synthesis was inhibited, at 16 h ODN-induced cell cycle entry was abolished and apoptosis protection was partially preserved. Under these conditions, c-Myc was still present, but c-Jun and BclXL were not detected. Our results suggest that CpG containing ODN motifs provide signals for both survival and cell cycle entry. Single base changes determine whether this signal proceeds through a rate-limiting step governing at least two steps in apoptosis (plasma membrane transition, DNA cleavage) and two phases of the cell cycle (G1 and S phase entry). This biologic action is associated with increased c-Myc, c-Jun, and BclXL expression.