Emergence of a surface immunoglobulin recycling process during B lymphocyte differentiation

Internalization of lymphocyte membrane components

The functions of lymphocytes, in particular their participation in immune responses, depends on the expression and properties of several molecules that are present on their membranes at different steps in their development and activation. One way to probe this complex and various set of events is to follow the movement of the membrane molecules in different lymphocytes and in different functional conditions and, more specifically, to study their internalization and subsequent fate. In this article, Benvenuto Pernis summarizes the main facts concerning internalization of lymphocyte membrane components, either spontaneous or induced by cross-linking agents, and discusses what they tell us about the physiology of lymphocytes.

Cell type-dependent internalization of the Escherichia coli STb enterotoxin

Previous studies have suggested that internalization of the Escherichia coli STb enterotoxin in human and rat intestinal epithelial cells is involved in STb pathogenesis, but toxin uptake in porcine jejunum epithelium, the in vivo target tissue, still remains elusive. Using flow cytometry, we studied the internalization of fluorescein isothiocyanate-labelled STb in porcine intestinal epithelial IPEC-J2 and murine fibroblast NIH-3T3 cell lines. In contrast to the selective pronase resistance of STb in NIH-3T3 cells at 37 °C, but not at 4 °C, indicative of toxin internalization, most of the toxin was pronase-sensitive at both temperatures in IPEC-J2 cells, indicating reduced uptake, but significant cell surface binding. Actin reorganization is required for STb internalization by NIH-3T3 cells, confirming STb endocytosis in these cells. The toxin receptor, sulfatide, could not explain these internalization differences because both cell lines possessed surface sulfatide and internalized antisulfatide antibodies over time at 37 °C. Inhibition of lipid rafts endocytosis, known to contain sulfatide, with methyl-β-cyclodextrin or genistein, did not influence toxin uptake by either cell line. STb internalization is therefore differentially regulated depending on the cell type, possibly by factors other than sulfatide. Although a small STb fraction could be internalized by porcine intestinal epithelial cells, our findings suggest the ability of STb to induce, from the cell surface, intracellular signalling leading to fluid secretion in porcine intestinal epithelium.

Dissection of the role of CD3gamma chains in profound but reversible T-cell receptor down-regulation

T-lymphocyte activity in the immune system is regulated by the quantity of surface membrane T-cell antigen receptors (TCR). The amount of surface-bound TCR is dependent on the rate of [1] biosynthesis, assembly and intracellular transport of the individual chains composing the TCR/CD3 complex and [2] the internalization and recycling of the receptors. The TCR-ligand interaction augments receptor internalization. In the present paper, we have studied short- and long-term down-regulation of TCR/CD3 complexes with monoclonal anti-TCR/CD3 antibodies, and attempted to determine which component(s) of the TCR/CD3 complex are responsible for these two phenomena. Our data indicate that short- and long-term down-regulation is mediated by different mechanisms, and that the extracellular and/or transmembrane regions of CD3gamma molecules appear to play an important role in chronic TCR/CD3 down-regulation and subsequent deficient re-expression. These results may have important implications for the understanding of induction of T-cell tolerance or anergy.

Self Ig peptides that help anti-DNA antibody production: importance of charged residues

Young NZB/NZW F1 (BWF1) mice develop T cell repertoires that are spontaneously stimulated by peptides derived from the VH regions of BWF1 J558-encoded autoantibodies (autoAb) to DNA, but not to VH region peptides of a J558-encoded antibody to an exogenous antigen. Immunization of young BWF1 mice with selected Ig-derived peptides accelerates anti-DNA production and nephritis, and immune tolerance induction to a combination of these determinants delays anti-DNA production and disease onset. To further characterize this immunoregulatory circuitry, we asked whether this phenomenon of spontaneous T cell activation by VH region peptides is restricted to anti-DNA Ab of the VH J558 family, and what are the charge and structural attributes of these T cell determinants? We studied spontaneous T cell proliferative responses to peptides derived from an autoAb to DNA constructed from VH 7183 and found that it contains several T cell determinants. Both charge and size of certain amino acids (AA) within each peptide seemed to be important. Peptides containing arginine (R) or glutamic acid (E) were more likely to be T cell determinants than peptides without those AA; replacement of charged AA with uncharged AA abolished T cell recognition of a peptide. We previously reported that some Abs to DNA are enriched in R in their VH; pathogenic BWF1 IgG anti-DNA are enriched in positively and negatively charged AA in VH regions. Therefore, we speculate that peptides from natural IgM autoAb may initially activate BWF1 T cells, and as somatic mutations of Ig occur, charged AA introduced into V regions increase the number of T cell determinants, thus favoring upregulation of pathogenic Ab subsets. Therefore, in predisposed individuals, the ability of T cells to recognize more charged T cell determinants in autoAb may be one mechanism promoting development of disease.

A peptide derived from an autoantibody can stimulate T cells in the (NZB x NZW)F1 mouse model of systemic lupus erythematosus

OBJECTIVE

To assess the ability of peptides derived from anti-DNA to stimulate syngeneic T lymphocytes and influence lupus in (NZB x NZW)F1 (NZB/W) mice.

METHODS

We synthesized (by Geysen pin method) overlapping 12-mer peptides recapitulating the amino acid sequence of the VH region of a nephritogenic monoclonal IgG2a anti-DNA antibody (A6.1) from an NZB/W mouse. Splenic T cells were cultured with the peptides; multiple experiments assayed 12-mer and 16-mer peptides which contained a triple-base motif (KFKGK). We immunized 20-week-old NZB/W mice with the 12-mer and evaluated them for evidence of nephritis and for quantities of antibodies in plasma and glomeruli.

RESULTS

Three clusters of peptides caused proliferation of spleen cells from young, nonimmunized mice. Both the 12-mer FYNQKFKGKATL and the 16-mer GDTFYNQKFKGKATLT peptides stimulated purified T cells. The KXKXK motif occurs in 15% of murine Ig VH (NBRF protein database), compared with 100% (6 of 6) of NZB/W anti-DNA monoclonal antibody. Immunization with the 12-mer peptide increased plasma levels of IgG, anti-DNA, and immune complexes, and levels of anti-DNA in glomeruli; nephritis was accelerated.

CONCLUSION

NZB/W anti-DNA contain peptide sequences in their VH regions that stimulate self-T cells. At least one motif is frequent in NZB/W anti-DNA. If some activated T cells provide help, this mechanism may contribute to sustained up-regulation of autoantibodies in murine lupus.

Initiation of antigen receptor endocytosis and B lymphocyte activation lie on independent biochemical pathways

Peroxidase-conjugated anti-surface immunoglobulin (sIg) was used quantitatively to monitor endocytosis of crosslinked sIg on murine B lymphocytes. The role of biochemical second messengers in the initiation of endocytosis was assessed by employing several inhibitors. A novel peroxidase detection system was used and temperature-dependent decreases in sIg density on immunoperoxidase-labelled murine lymphocytes were monitored. Metabolic inhibitors as well as colchicine and cytochalasin D were utilized to confirm that the internalization of sIg could be blocked by classical inhibitors of the endocytosis process. The role of tyrosine kinase activity was established by the fact that endocytosis was significantly reduced with 100 micrograms/mL genistein. Experiments using EGTA or 1,2-bis(beta-aminophenoxy)ethane-N-N,N'-tetraacetic acid (BAPTA) to chelate Ca2+ indicated that Ca2+ plays little role in endocytosis. Likewise, protein kinase C (PKC) was not found to be involved in endocytosis, as activation of PKC with 50 ng/mL phorbol 12-myristate 13-acetate, or inhibition of the enzyme with 1 nmol/L or 5 nmol/L staurosporin, did not modulate endocytosis. Taken together, results suggested that ligand-induced endocytosis of antigen receptors is mediated primarily through localized membrane events and is not dependent upon the classical B lymphocyte activation signals, such as the biochemical events in the inositol phosphate cascade.

Intracellular routing rather than cross-linking or rate of internalization determines the potency of immunotoxins directed against different epitopes of sIgD on murine B cells

Several variables influence the potency of an immunotoxin (IT) prepared with a monoclonal antibody (mAb) and ricin A chain (IT-A). These include the affinity of the mAb, the nature and density of the target antigen (Ag), the epitope on the target Ag bound by the mAb, the type of cell target, and the rate of endocytosis and route of internalization of the bound IT-A. In a previous report, we demonstrated that anti-delta mAbs directed against epitopes which are putatively more proximal to the plasma membrane make more effective IT-As than those directed against epitopes that are putatively more distal from the plasma membrane. It is known that the latter mAbs cross-link sIgD less effectively than the former. Therefore, in the present study, we determined whether the differential cytotoxicity of IT-As directed against these epitopes is related to their ability to cross-link their specific surface antigen (sIgD). We further determined whether they were internalized at different rates by normal B cells. Our results show that neither cross-linking nor rate of internalization account for the different potencies of anti-Fc vs anti-Fd IT-As. However, when these IT-As were used in the presence of the lysosomotropic agent chloroquine, the less potent IT-A became 100-fold more potent and was as cytotoxic as the effective anti-Fc IT-A. Taken together with the results of other studies, these findings further support the hypothesis that the epitope specificity of a given mAb may be an important factor in determining the intracellular routing of an IT-A after internalization.

Endocytosis and recycling of specific antigen by human B cell lines

Human B cell lines expressing membrane immunoglobulin specific for tetanus toxoid/toxin were used to study the receptor-mediated endocytosis of antigen. Monovalent antigen, initially bound to cell surface immunoglobulin at 0 degree C, was rapidly endocytosed upon warming the cells to 37 degrees C. The kinetics of endocytosis of antigen were independent of the number of occupied binding sites and indicated a half-life for antigen on the cell surface of 8.5 min. Endocytosis of antigen apparently ceased after approximately 15 min at 37 degrees C, although some 40-50% remained on the cell surface at this time. We show, using biotinylated antigen and an avidin detection assay, that this is due to recycling of antigen to the cell surface. By labelling the antigen on the cell surface with Fabs against different epitopes we show that antigen continues to be endocytosed for at least 1 h after the initial rapid phase of endocytosis, again indicating that there must be recycling of immunoglobulin/antigen complexes. As a consequence of the stable interaction between antigen and membrane immunoglobulin, the capacity of the cells to accumulate antigen was limited when the synthesis of membrane immunoglobulin was blocked; under these conditions only 2-3 times as much antigen was endocytosed and degraded when antigen was supplied continuously over a 4-h period at 37 degrees C as could be bound to the cells at 0 degree C. These results reveal a rapid and efficient pathway for the endocytosis and recycling of monovalent antigen in B cells.

Alterations in plasma membrane lipid organization during lymphocyte differentiation

The fluorescent probe merocyanine 540, which binds preferentially to bilayers in which the lipids are loosely packed, was used to investigate changes in the organization of the lipids of the lymphocyte plasma membrane during primary and secondary lymphopoiesis. When mouse thymocytes were incubated with the dye, most immature cells stained, while most mature cells, about to enter the peripheral circulation, did not. Similarly, mature lymphocytes from both mouse and human peripheral blood did not stain, but these same cells did when activated by in vitro mitogenic stimulation. Freshly isolated splenic lymphocytes, presumably activated in vivo by antigen, also bound merocyanine 540, but after 48 hours of culture in the absence of stimulus they displayed only a low affinity for the dye, a phenotype that reverted to a high affinity upon mitogenic stimulation. These results suggest that changes in the organization of the lipids of the plasma membrane take place during lymphocyte differentiation: viz., immature cells possess a disordered membrane that becomes increasingly ordered as the cells mature and enter the peripheral circulation; then, upon antigen-induced differentiation, the plasma membrane again becomes disordered. These lipid organization changes are discussed in the context of their possible role in the regulation of lymphocyte circulation via intercellular interactions between lymphocytes and cells of the reticuloendothelial system.

Assembled and unassembled pools of clathrin: a quantitative study using an enzyme immunoassay

Using polyclonal antibodies raised against clathrin, we have developed an enzyme-linked immunoassay that can specifically measure the quantity of clathrin in crude cell extracts. We found that the quantity (weight percent of total protein) of clathrin was similar in cell types that exhibit large differences in their levels of endocytosis and exocytosis (lymphoid cells, 0.11%; liver cells, 0.07%, fibroblasts, 0.18%; myeloma cells, 0.16%). However, the quantity of clathrin was found to be significantly higher in brain cortex (0.75%). Cellular clathrin was separated by high-speed centrifugation into two fractions: an unassembled form present in high-speed supernatants and an assembled form (clathrin coats) present in the pellets. We show that the fraction of clathrin in the unassembled state varies considerably depending on the cell type studied (14% in brain cortex to 70% in lymphocytes). Our data support the view that the amount of clathrin (relative to total cell protein) in eucaryotic cells is not related to the extent of receptor-mediated endocytosis and intracellular membrane traffic. However, the fraction of assembled clathrin seems to be higher in endocytically and/or exocytically active cells.