Development of the natural response of immunoglobulin secreting cells in the pig as a function of organ, age and housing.

We analysed the development of the natural immunoglobulin-secreting cell (Ig-SC) response in systemic- and mucosal-lymphoid tissues of specified pathogen free pigs between 1 and 40 weeks of age. As antigen exposure may influence the development of the Ig-SC repertoire we also compared the frequencies of Ig-SC in various lymphoid tissues of 40 weeks old specified pathogen free pigs and conventional pigs. A procedure to isolate lamina propria cells from porcine intestine was adapted for this study. The frequencies of IgM-, IgG-, and IgA-secreting (spot forming) cells were determined with a reversed enzyme linked immunospot assay, which was also adapted for detection of Ig-SC in pigs. The Ig-SC frequencies were calculated as percentage of the mononuclear leukocytes isolated from the various organs. The observations till 40 weeks of age were as follows: Splenic IgM-SC predominated at all ages and reached a plateau of 0.1-0.2% of the mononuclear leukocytes already at 4 weeks of age. The IgM-SC of mesenteric lymph node (MLN) predominated up till 12 weeks of age and reached an optimum of 0.15% reached at 4 weeks of age. The frequencies of IgG-SC of spleen and MLN had dips around 4 weeks of age and increased thereafter till 40 weeks of age (spleen 0.025%, MLN 0.05% at 40 weeks of age). The frequencies of IgA-SC were low in the spleen (< or =0.003%) and moderate in the MLN (0.01-0.02%) at all ages tested. In peripheral lymph node (PLN) and bone marrow (BM), the frequencies of IgM-SC (0.03-0.05%) were much lower than in the spleen. The IgG-SC frequencies of BM and MLN also had dips around 4 weeks of age and increased thereafter. The IgG-SC frequency of BM reached a plateau at 12 weeks of age (0.15%) and for PLN the highest frequency was observed at 40 weeks of age (0.05%). The frequencies of IgA-SC were low in BM and PLN (<0.003%). High frequencies of IgA-SC were observed in mucosa associated tissue like Peyer's patches (PP) and intestinal lamina propria (till 20% of the mononuclear leukocytes in intestinal lamina propria of 12-40 weeks of age). IgM and IgA are both important isotypes in mucosal lymphoid organs in the pig. The shift from IgM to IgAas predominant, mucosal isotype was first observed in duodenum and jejunum (12 weeks) and later in ileum (40 weeks). The influence of ageing on the frequency of Ig-SC in PP was only observed in jejunal PP. whereas in ileal PP the frequencies of Ig-SC did not vary over time. We combined our data about the frequencies of IgM-, IgG-, and IgA-SC in various organs with data obtained by others about the distribution of lymphocytes over porcine lymphoid organs at about 12 weeks of age. Based on these calculations we concluded that the small intestine, with more than 80% of all Ig-SC, is fair most the major site of Ig production in the pig. We also concluded that the small intestine is the major site of IgA and IgM production cells in the pig. Although IgA becomes predominant along the intestine, the results demonstrated that in the pig IgM is more a mucosal isotype compared with other species. With 40% of all IgG-SC the porcine BM appeared to be the major site of IgG production. Unexpected results were obtained for IgG-SC in the systemic lymphoid organs. In these organs the frequencies of IgG-SC dropped firstly from 1 to 4 weeks of age and steadily increased thereafter till 40 weeks of age. This observation is discussed in relation to the possibility that systemic IgG-SC at one week of age were passively acquired from maternal colostrum. The influence of housing/antigenic load at 40 weeks of age was mainly expressed by an increase (2-8x) of the frequency of IgG-SC in spleen, PLN, BM, and intestinal lamina propria, whereas the typical mucosal IgA-SC frequencies in the lamina propria were hardly affected.     

A Novel Molecular Complex Expressed on Immature B Cells: A Possible Role in T Cell-Independent B Cell Development

To identify surface molecules that may play a role in regulating ileal Peyer''s patch (PP) B cell growth, we generated monoclonal antibodies (mAbs) and then selected them for a unique reactivity with ileal PP B cells. Flow cytometric analysis identified a mAb (SIC4.8R) that labeled 97% of ileal and 50–60% of jejunal PP sIgM⁺B cells. SIC4.8R also labeled a subpopulation of cortical thymocytes but few B or T cells in other lymphoid tissues, including bone marrow. Immunohistochemistry revealed intense SIC4.8R staining of B cells in the cortex of ileal PP follicles. SIC4.8R also labeled bovine PP B cells, a murine pro-B cell line, and pre-B cells in human bone marrow. Protein chemistry revealed that a structurally similar molecular complex was expressed on sheep ileal PP B cells and thymocytes and murine pro-B cells. Addition of soluble SIC4.8R to cultured ileal PP B cells reduced apoptotic cell death, elevated proliferative responses, partially inhibited anti-Ig-induced cell death, and induced IL-4 responsiveness. In contrast, soluble SIC4.8R had an antiproliferative effect on a mouse pro-B cell line. Finally, SIC4.8R labeling declined following the stimulation of ileal PP B cells with CD40 ligand. In conclusion, the present investigation determined that SIC4.8R identified a novel molecular complex that is expressed at several stages of T cell-independent B cell development in a variety of mammalian species. This observation confirmed that PP B cells are developmentally distinct from other B cell populations in sheep and suggested that the bone marrow may not be a site of B lymphopoiesis in young lambs.     

Enhanced immunological tolerance against allograft rejection by oral administration of allogeneic antigen linked to cholera toxin B subunit

A single oral intragastric administration of cholera toxin B subunit (CTB) conjugated to allogeneic thymocytes (ATC, 4 x 10(7) cells) under conditions allowing the CTB to bind the complex to GM1 ganglioside receptors was shown to be efficacious in inducing peripheral T cell tolerance associated with significant suppression of both primary and secondary accelerated rejection of heart allografts when tested in mice. Allogeneic in vivo delayed-type hypersensitivity (DTH), in vitro cytotoxicity responses, and mixed lymphocyte reactions (MLR) by T cells from mesenteric lymph nodes (MLN), popliteal lymph nodes (PLN), and spleen were significantly reduced in mice treated with the CTB-ATC conjugate, as were also the numbers of cells in these organs producing IL-2, IFN-gamma, or IL-4. In contrast, a marked increase in the production of IL-4 in Peyer's patches (PP) and of TGF-beta(1) in PLN was observed. The suppressive potential of T cells from PP and/or MLN after oral treatment with CTB-ATC was further evident by intraperitoneal transfer of such cells from CTB-ATC-treated animals to primed recipients, which led to marked suppression of both allogen-specific DTH and MLR responses. A critical role for PP in inducing peripheral tolerance after oral CTB-ATC treatment was indicated by the absence of tolerance induction in animals whose PP had been destroyed before treatment with CTB-ATC. The results indicate that the protection against allograft rejection by oral treatment with CTB-ATC is mediated by T cells and associated with a strong induction of IL-4 production at mucosal sites and TGF-beta(1) at the effector sites.     

Terminally Differentiated Human Intestinal B Cells

The relative distribution of IgA and IgG subclass-producing immunocytes was examined by two-colour immunohistochemistry in normal human distal ileum including Peyer's patches (PP), regional mesenteric lymph nodes (MLN), and peripheral lymph nodes. IgA2 cells predominated slightly over IgA1 cells in the PP dome area. There was a decreasing median proportion of IgA2 cells in the order of PP (52%), distant ileal lamina propria (40%), MLN (32%), and peripheral lymph nodes (11%). The reverse was true for IgA1 cells in independent enumerations. These results support the notion that PP-derived B cells after stimulation are seeded mainly to the lamina propria of the distal gut, but that there is a substantial retention and terminal differentiation of this migrating population in regional MLN. The median subclass proportions of IgG-producing cells in the PP dome area were in independent determinations 68% IgG1, 23% IgG2, 8% IgG3, and 9% IgG4. This distribution was fairly similar to that seen in other tissue categories, except for a trend towards increased IgG1 and reduced IgG2 proportions in peripheral lymph nodes and reduced IgG1 along with increased IgG3 in normal palatine tonsils. The data suggested an association between the expression of IgG2 (and possibly IgG4) and IgA2 in intestinal mucosal immune responses.     

The induction and migration of antigen-specific helper cells for IgA responses in the intestine.

The distribution of keyhole limpet haemocyanin (KLH)-specific helper cells for antibody responses of IgA, IgM and IgG isotypes in Peyer's patch (PP), mesenteric lymph node (MLN) and peripheral lymph node (PLN) was examined following oral, intraduodenal (ID), intraperitoneal (IP), intra-Peyer's patch (IPP) or subcutaneous (SC) immunization with KLH. Oral or ID immunization gave little or no response in any tissue studied. IP immunization with or without a subsequent ID challenge gave rise to a modest IgA and IgM helper response in MLN but a small IgA and IgM helper response in PP and PLN. IP immunization alone did not stimulate IgG-specific help in any tissues studied, but a small IgG helper response occurred in MLN and PLN after subsequent ID challenge. IPP was the most effective route of immunization, giving rise to a large helper response for IgA, IgM and IgG isotypes in PP, a smaller response in MLN and no response in PLN. The helper response following IPP immunization was not augmented by subsequent ID challenge. SC immunization gave a small but significant helper response for all isotypes in PLN but no response in PP or MLN. The kinetics of the helper response were examined in PP, MLN, PLN and thoracic duct lymph (TDL) following IPP immunization. The helper response for all isotypes in PP was maximal at 2 weeks and then declined. Similar kinetics but of lower magnitude were observed in MLN and TDL. The presence of IgA-specific helper cells in TDL demonstrates that these cells migrate, presumably from GALT, and may constitute an important component of mucosal responses at extraintestinal sites.     

Human Peyer's Patches: Lympho-Epithelial Relationships and Characteristics of Immunoglobulin-Producing Cells

Human Peyers patches (PP) were studied by immunohisto-chemistry to characterize functional properties of the follicle-associated epithelium (FAE) including the “membrane” (M) cells. The FAE had no transporting capacity for polymeric IgA (pIgA) because it did not express the secretory component (SC) which acts as a pIgA receptor. However, it expressed MHC class II (HLA-DR) determinants, except for the M cells (which were tentatively identified by absence of brush border alkaline phosphatase). It is possible, therefore, that the FAE generally performes class II-restricted transport and presentation to T cells of antigens which have been adequately processed in the gut lumen. The function of M cells may be limited to transport of particulate or undegraded antigens to subjacent macrophages for processing and subsequent presentation. There were significantly more intra-and subepithelial T cells in PP than in distant villi, and the T cells were concentrated adjacent to M cells. The proportion of the CD4⁺ phenotype (putative helper T cells) was much higher in FAE (～40%) than in villous epithelium where the CD8⁺ (putative suppressor) phenotype predominated strikingly (～90%). This disparity might reflect differences in capacity for positive and negative immune regulation at the two sites. The B cells terminating with Ig production in PP and adjacent to solitary lymphoid follicles apparently belonged to relatively mature memory clones as they showed a large proportion of IgG immunocytes and reduced J-chain expression. Conversely, both IgG and IgA immunocytes in lamina propria (LP) showed a high percentage of J-chain positivity (80–100%); such positivity was also considerable (45–60%) in mesentric lymph nodes (MLN) in contrast to peripheral lymph nodes (PLN) and palatine tonsils (PT). Moreover, there was a decreasing percentage of IgA2 immunocytes in the order of PP (52%), distant ileal LP (40%), MLN (32%), PLN (11%), and PT (5%). Taken together, our results suggested that dissemination of relatively immature memory B-cell clones with high J-chain expression takes place from PP through MLN and that preferential settlement of such clones occurs in LP.     

Human Peyer's patches: lympho-epithelial relationships and characteristics of immunoglobulin-producing cells

Human Peyers patches (PP) were studied by immunohistochemistry to characterize functional properties of the follicle-associated epithelium (FAE) including the "membrane" (M) cells. The FAE had no transporting capacity for polymeric IgA (pIgA) because it did not express the secretory component (SC) which acts as a pIgA receptor. However, it expressed MHC class II (HLA-DR) determinants, except for the M cells (which were tentatively identified by absence of brush border alkaline phosphatase). It is possible, therefore, that the FAE generally performs class II-restricted transport and presentation to T cells of antigens which have been adequately processed in the gut lumen. The function of M cells may be limited to transport of particulate or undegraded antigens to subjacent macrophages for processing and subsequent presentation. There were significantly more intra- and subepithelial T cells in PP than in distant villi, and the T cells were concentrated adjacent to M cells. The proportion of the CD4+ phenotype (putative helper T cells) was much higher in FAE (approximately 40%) than in villous epithelium where the CD8+ (putative suppressor) phenotype predominated strikingly (approximately 90%). This disparity might reflect differences in capacity for positive and negative immune regulation at the two sites. The B cells terminating with Ig production in PP and adjacent to solitary lymphoid follicles apparently belonged to relatively mature memory clones as they showed a large proportion of IgG immunocytes and reduced J-chain expression. Conversely, both IgG and IgA immunocytes in lamina propria (LP) showed a high percentage of J-chain positivity (80-100%); such positivity was also considerable (45-60%) in mesenteric lymph nodes (MLN) in contrast to peripheral lymph nodes (PLN) and palatine tonsils (PT). Moreover, there was a decreasing percentage of IgA2 immunocytes in the order of PP (52%), distant ileal LP (40%), MLN (32%), PLN (11%), and PT (5%). Taken together, our results suggested that dissemination of relatively immature memory B-cell clones with high J-chain expression takes place from PP through MLN and that preferential settlement of such clones occurs in LP.     

Comparison of immunoglobulin heavy chain isotype expression in Peyer's patch and splenic B-cells

Past work has shown that B lymphocytes from Peyer's patches (PP) and from spleen differ from each other in the following ways: (1) PP are enriched for IgA-producing precursor cells while splenic B-cells are a rich source of IgM-precursor cells; and (2) PP are a poor source of antibody-secreting cells when compared to the spleen. The reasons for these differences are unclear. In this work B-cells have been examined expressing newly regenerated surface immunoglobulin heavy chains in murine PP and spleens for immunoglobulin isotype expression. Dual color immunofluorescence demonstrated higher levels of B-cells regenerating two surface isotypes in the PP (IgM+ IgG+ = 14.9%; IgM+ IgA+ = 9.4%) than in the spleen (IgM+ IgG+ = 0.4%; IgM+ IgA+ = 0.2%). Poly A+ RNA was purified from these B-cells and compared for immunoglobulin heavy chain isotype expression by DNA-excess slot blot hybridization. Splenic B-cells contained higher amounts (at least two-fold) of Ig heavy chain-specific mRNA per microgram of polysomal RNA than did PP B-cells. Peyer's patches B-cells demonstrated slightly lower mu:alpha ratios than splenic B-cells. In vitro translation of the RNAs suggested higher levels of translatable alpha-specific Poly A+ RNA in PP B-cells than in B-cells from MLN or spleen; furthermore, splenic B-cell RNA contained higher levels of translatable mu-RNA than did the other tissues examined. Northern blot analysis of RNA derived from these tissues identified major mu-, gamma 2b-, and alpha-hybridizing sequences, though PP-derived B-cell preparations were shown to be enriched for the membrane forms of mRNA for gamma 2b and alpha when compared to the spleen-derived B-cell preparations. These results suggest that the level of differentiation of PP B-cells (that are capable of regeneration of surface Ig) may differ significantly from that of splenic B-cells.     

Apoptosis is associated with the extensive B cell death in the sheep ileal Peyer's patch and the chicken bursa of Fabricius: a possible role in B cell selection

The ileal Peyer's patch (PP) and the bursa of Fabricius have major roles in populating the B cell system in sheep and chickens, respectively. These tissues contain greater than 90% B cells and possess a massive proliferation index with greater than 5% of B cells entering mitosis per hour. Paradoxically, almost all of the B cells produced in these sites rapidly die in situ. Here we show that the extensive B cell death occurring in the ileal PP and bursa is associated with apoptosis. Gel electrophoresis of ileal PP cell DNA from 7-14 week-old lambs and bursal cell DNA from 4-week-old chickens demonstrated a laddering of DNA in multiples of approximately 200 bp, a pattern indicative of apoptosis. In sheep, the intensity of the laddering pattern seen after agarose gel electrophoresis was always greater with ileal PP cell DNA compared with thymocyte DNA, and usually greater than jejunal PP cell DNA. Likewise, DNA isolated from chicken bursal cells and mouse PP cells always exhibited a more intense laddering pattern than chicken or mouse thymocytes, respectively. When placed in culture ileal PP cells died rapidly less than 40% viable cells were recovered after 24 h. Within 6 h of culture many ileal PP cells exhibited an apoptotic appearance in that they contained condensed chromatin and fragmented nuclei. Moreover, greater than 55% of total cellular DNA was fragmented. Compared with thymocytes, ileal PP cells underwent DNA fragmentation to a much greater extent and with a faster time course in short-term culture. We propose that cell death by apoptosis may make an important contribution to B cell development in the lamb ileal PP and the chicken bursa. Apoptosis may provide a mechanism for the diversification of the B cell immune repertoire and/or the selection of non-self reactive B cells.     

Genetic defect in T lymphocyte-specific homing into peripheral lymph nodes

Lymphocytes circulating in the bloodstream home into lymph nodes (LN). T cells predominate in peripheral LN (PLN) and B cells in spleen or mucosal tissue, e.g. Peyer's patches (PP). DDD/1 mice are unique in marked paucity of LN cells, especially T cells. T cell frequency in PLN was 20–40% in this strain, compared to 60–80% in others. Immunohistochemistry confirmed the low density of T cells in the subcortical area but normal colonization of B cells in cortical area in PLN of DDD/1. In contrast, the T cell content of peripheral blood and spleen was higher in DDD/1 but that in PP was not significantly different compared to other strains. It was thus concluded that this abnormality in DDD/1 results from a homing defect of T cells into PLN but not from lymphopenia. Genetical analysis showed that the defect in T cell-specific homing was regulated by a single autosomal recessive gene, tentatively designated plt (p aucity of l ymph node T cells). Reciprocal bone marrow transplantation indicated that the plt phenotype may arise from some defect in PLN stroma but not in lymphocytes. An in vivo homing assay using fluorescence-labeled lymphocytes demonstrated that the homing defect was specific for T cells but not for B cells. A Stamper-Woodruff assay revealed that the binding between lymphocytes and PLN high endothelial venules was normal and that L-selectin and its ligand, peripheral node vascular addressin (PNAd), were expressed and functioned normally in DDD/1. These results taken together indicate that the T cell-specific homing into PLN is disturbed at a post-adhesion stage in DDD/1. The product of the plt locus may play a pivotal role at this stage.     

Numbers and phenotype of lymphocytes emigrating from sheep bone marrow after in situ labelling with fluorescein isothiocyanate

In normal young lambs the bone marrow was selectively labelled with fluorescein isothiocyanate by a temporary perfusion of one hind-leg. One day later, the incidence of bone marrow emigrants in different lymph nodes, spleen, Peyer's patches, thymus, non-perfused bone marrow and blood was determined. The emigrants were also phenotyped by the use of monoclonal antibodies and classified into monocytes or lymphocyte subsets. Large numbers of lymphocytes left the bone marrow of the perfused leg during 1 day. Considerable numbers of cells migrated to other bone marrow compartments. Varying numbers of mononuclear emigrants were found in peripheral lymphoid organs, with labelling indices ranging from 1.06% in the blood to 0.004% in the thymus. In the spleen, comparable numbers of B- and T-lymphocyte emigrants from the bone marrow were found, whereas in the blood, lymph nodes and jejunal Peyer's patches many more emigrants were T lymphocytes than B lymphocytes. In the prescapular lymph nodes, for instance, 90.4% of emigrants were T cells but only 9.6% were B cells. Based on the large numbers of lymphocytes emigrating from the bone marrow, their phenotypes and their entry into other bone marrow compartments, it it can be concluded that the bone marrow of young lambs is an integral part of the migratory route of lymphocytes.     

Anatomic location defines antigen presentation by dendritic cells to T cells in response to intravenous soluble antigens

In the spleen, exogenous antigen is preferentially presented by CD8alpha+CD11b- DC to CD8 T cells and by CD8alpha-CD11b+ DC to CD4 T cells. However, it is not yet clear whether the same rule applies to other secondary lymphoid organs. To address this issue, we first classified secondary lymphoid tissues into three categories based on the expression pattern of CD8alpha and CD11b in C57BL/6 and BALB/c mice: (a) spleen, (b) mesenteric lymph node (MLN) and (c) other peripheral lymph nodes (PLN). We then analyzed the OVA-specific T cell-stimulating capacity of each DC subset after intravenous injection with soluble OVA. Our results show that, regardless of tissue origin, CD8alpha-CD11b+ DC generally present OVA to CD4 T cells, a finding that held true as well for CD8alpha+CD11b+ DC in PLN. In striking contrast, CD8alpha+CD11b- DC in spleen, CD8alpha-CD11b+ DC in MLN and CD8alpha+CD11b+ DC in PLN mainly cross-present OVA to CD8 T cells in their respective tissues. Of note, CD8alpha-CD11b+ DC in MLN and CD8alpha+CD11b+ DC in PLN present OVA to both CD4 T and CD8 T cells. Therefore, the antigen-presenting capacity of each distinct DC subset is determined by its anatomic environment in combination with its surface phenotype.     

A comparative study of gut‐associated lymphoid tissue in calf and chicken

The calf contains two types of Peyer's patches (PPs): jejunal and ileal. The ileal PP has been thought to be equivalent to the bursa of Fabricius (BF) as a central lymphoid organ. The morphologies of ileal and jejunal PPs in the calf were compared with those of the BF and the caecal tonsil (CT) in the chicken. Immunoglobulin G–positive (IgG⁺) cells appear in the follicles of them all and exhibited a dendritic appearance after birth. We investigated whether the IgG in these follicles was produced in situ. IgG‐producing cells were detected in the follicular medullas of the jejunal PP and the CT, but not in those of the ileal PP and the BF. CD4⁺ cells were distributed in the follicular medullas of the jejunal PP and the CT, but not in those of the ileal PP and the BF. The data suggest that Ig class switching occurs in both jejunal PP follicles and CT follicles, but does not occur in either the ileal PP follicles or the bursal follicles. Because CD4⁺ T cells would be prerequisite for Ig class switching in these follicles, IgG⁺ cells of the follicular medullas in the ileal PP and the BF would trap immune complexes from the gut lumen. The primary B‐cell repertoire might be selected by gut‐derived antigens in the ileal PP and the BF before seeding the periphery. Anat Rec 266:207–217, 2002. © 2002 Wiley‐Liss, Inc.     

In vivo tracking and protective properties of Yersinia-specific intestinal T cells

After invasion via M cells enteropathogenic Yersinia enterocolitica subsequently establish an infection at three different sites: (i) Peyer's patches (PP), (ii) mesenteric lymph nodes (MLN), and after systemic dissemination in (iii) spleen, liver and lung. In order to characterize protective properties of intestinal T cells at the different sites of Y. enterocolitica infection, PP and MLN T cells were isolated from Y. enterocolitica-infected C57Bl/6 mice and Yersinia-specific T cell lines were generated. These T cells exhibited the phenotype of CD4 Th1 cells. The adoptive transfer of Yersinia-specific Th1 cells from PP and MLN conferred protection against a lethal orogastric inoculum with Y. enterocolitica as revealed by survival post-infection. However, determination of bacterial counts in infected organs revealed that the transfer of PP T cells conferred protection in spleen but not in MLN and PP, whereas the transfer of T cells from MLN reduced bacterial counts in both spleen and MLN but not in PP. To elucidate the different protection pattern we wanted to track the transferred cells in vivo. For this purpose the cells were labelled with the stable green fluorescent cell linker PKH2-GL prior to the adoptive transfer. In vivo tracking of these cells revealed that the distribution pattern of transferred T cells in spleen, MLN and PP correlated closely with the protection pattern observed after Yersinia infection. Thus, most cells were recovered from the spleen, while only few cells were recovered from MLN and PP. In keeping with these results a rapid and significant increase in interferon-gamma (IFN-γ) production in the spleen of mice after adoptive transfer of T cell lines was observed. Taken together, the present results demonstrate that intestinal CD4 Th1 cells from PP and MLN may be involved in the defence against Y. enterocolitica at different sites of the infection, and that PKH2-GL labelling is a suitable tool to characterize T cell functions in vivo.     

T cell regulation of IgA immunoglobulin production in gut-associated lymphoid tissues

To explore mechanisms of gut-mucosal IgA immune response, we have established Con A-induced cloned T cell lines originating from PP and spleen. These cloned cells expressed Thy-1.2+, Lyt-1+2-, Ia (I-A and I-E) and H-2 (K/D) surface antigens. Cloned T cells derived from PP were found to suppress LPS-induced IgM and IgG synthesis and secretion of co-cultured PP B cells; in addition, whereas the PP cloned T cells did not bring about IgA production, they did cause the appearance of large numbers of cells expressing sIgA. In contrast, cloned T cells derived from spleen had little or no effect on LPS-induced IgM synthesis and secretion by PP B cells; in addition, whereas they did suppress IgG production, they neither brought about IgA production nor the appearance of cells expressing sIgA. These studies provide evidence for the existence of a new type of T cell in PP, a switch T cell, which is able to induce B cells to undergo class-specific switches from IgM to IgA; the PP switch T cells appear to govern the pathway of DNA recombination (or RNA splicing) rather than cellular events resulting in terminal differentiation. Thus, these switch T cells are probably responsible for the fact that PP are a major source of mucosal IgA B cells. In additional studies, we show that post-switch IgA B cells, i.e. cells precultured with PP cloned T cells, have the capacity to undergo terminal differentiation into IgA producing plasma cells. provided they are exposed to helper T cells (uncloned) and an appropriate mitogenic stimulus (staphylococcal protein A). We can conclude, therefore, that the development of PP B cells into IgA-producing plasma cells in gut-associated lymphoid tissues (GALT) appears to require at least two steps: one which involves heavy chain switching to IgA and which is governed by IgA class-specific switch T cells in PP, and one which involves differentiation of post-switch B cells and which is governed by helper T cells in lymphoid tissues outside of PP (such as MLN and spleen).     

IgE antibody production is associated with suppressed interferon-gamma levels in mesenteric lymph nodes of rats infected with the nematode Nippostrongylus brasiliensis.

IgE and IgG2a antibody production and interferon (IFN)-gamma secretion were studied in rats infected with the gut nematode Nippostrongylus brasiliensis by in vitro cultivation of mononuclear cells obtained from spleen (SPL), mesenteric lymph nodes (MLN) and pulmonary hilar lymph nodes (PLN). The highest levels of IgE were detected in the culture supernatants of MLN cells after infection: IgE levels were modest in PLN and negligible in SPL. In contrast, the highest levels of IgG2a were produced by PLN cells, followed by MLN and SPL cells. These results indicate that the MLN is the most significant site for IgE production in nematode infection, while IgG2a production is more marked in PLN. In naive rats, the spontaneous secretion of IFN-gamma was highest in PLN cells, followed by MLN and SPL cells. After the infection, IFN-gamma levels were significantly decreased in MLN and PLN. Suppression of IFN-gamma secretion was also observed in concanavalin A (ConA)-stimulated MLN and PLN cells from infected rats. In MLN, the ratio of CD4+ to CD8+ T cells was increased after the infection. Stimulation with an allergen-rich, excretory-secretory (ES) substance of the nematode enhanced ongoing IgE production, and suppressed IFN-gamma secretion by MLN and PLN cells. In contrast, an allergen-poor, adult worm extract potentiated IFN-gamma secretion. These results show that nematode-induced IgE antibody response is associated with the suppressed production and/or secretion of IFN-gamma, particularly in the MLN, and that some molecules in the ES substance may trigger these immune responses.     

Negative signaling by surface IgM on B cells isolated from ileal Peyer's patch follicles of sheep

Lymphoid follicles from the sheep ileal Peyer's patch (PP) were used to prepare a cell suspension consisting of 98% surface IgM-positive (sIgM+) B cells and 1% T cells. Co-stimulation of follicular cells with pokeweed mitogen and either recombinant bovine interleukin 1 (IL 1) or IL 2 resulted in a marked proliferative response. In contrast, the addition of soluble F(ab')2 rabbit anti-sheep Ig completely inhibited the proliferative response induced by pokeweed mitogen and IL 1 or IL 2 co-stimulation. Anti-Ig inhibition of B cell proliferation was specific for ileal PP follicular cells and was not observed with mesenteric lymph node cells or splenocytes. Furthermore, suppression of ileal PP follicular B cell proliferation required at most divalent cross-linking of sIg was independent of Fc receptors, but was dependent on the concentration of anti-Ig and required 48 h for maximal effect. Negative signaling by sIgM indicates that ileal PP follicular B cells are functionally distinct from B cells in other secondary lymphoid tissues. Also, the present observations are consistent with previous reports indicating that B cell proliferation in ileal PP follicles is antigen independent.     

Fetal lambs are depleted of IgM+ cells following a single injection of an anti-IgM antibody early in gestation.

B-cell depleted fetal sheep were created following a single injection of an anti-IgM monoclonal antibody early in gestation. Six sheep fetuses were given a single intraperitoneal injection of a monoclonal antibody directed against IgM at 63 days of gestation (gestation in sheep = 150 days). The fetuses were killed at 138-142 days of gestation and lymphoid tissues were collected for subsequent light microscopy and immunohistochemical examination. The ileal and jejunal Peyer's patch (PP) follicles in four of the six injected fetuses were markedly reduced in size. Cells in the rudimentary follicles of the ileal PP of these animals showed no reactivity for IgM and most were negative for CD45. The dome regions contained many T cells, which were predominantly CD8+ cells and included gamma delta T cells. The interfollicular areas of the PP of the markedly affected fetuses contained large populations of T cells. The spleen and lymph nodes were also markedly depleted of IgM+ cells and these tissues contained only a small, scattered population of weakly IgM+ cells. Follicular accumulations of IgM+ cells were absent. Large populations of T cells were present in the white pulp of the spleen and cortex of the lymph nodes. The liver did not contain IgM+ cells and the medulla of the thymus was depleted of IgM+ cells. The results of this study suggest that a surface IgM+ B-cell population is present in the sheep fetus at 63 days of gestation, which is essential for the colonization of the ileal PP and subsequent B-cell development.     

Aging effect on the immune functions of murine gut-associated lymphoid tissues

Immune functions generally decline with aging. However, the onset and the rate of the functional decline may be different in each lymphoid compartment. We studied the effect of aging on the murine Peyer's patch (PP) cells, and mesenteric lymph node (MLN) cells, which are a part of gut-associated lymphoid tissues (GALT). The capacity of proliferative responses to mitogens of lymphoid cells from GALT decreased with aging. However, the rate of the decrease was much slower than that in the spleen cells. Production of interleukin-2 (IL-2) and interleukin-3 (IL-3) in aged T cells was also studied. IL-2 production of T cells from PP, MLN, spleen cells decreased with age. The age-related decrease was observed at 21 months of age in spleen and at 24 months of age in PP and MLN cells. In contrast, IL-3 production of PP, MLN, spleen cells didn't decrease at 21 months of age, but decreased only in spleen cells at 24 months of age. Therefore, it is suggested that the onset and the rate of age-related functional decline of GALT are much later and slower than those of systemic immune system. GALT seems to maintain the immune functions longer than systemic immune system.