B and CD4+ T‐cell expression of TLR2 is critical for optimal induction of a T‐cell‐dependent humoral immune response to intact Streptococcus pneumoniae

TLR2^?/? mice immunized with Streptococcus pneumoniae (Pn) elicit normal IgM, but defective CD4⁺ T‐cell‐dependent type 1 IgG isotype production, associated with a largely intact innate immune response. We studied the T‐cell‐dependent phosphorylcholine (PC)‐specific IgG3 versus the T‐cell‐independent IgM response to Pn to determine whether TLR2 signals directly via the adaptive immune system. Pn‐activated TLR2^?/? BMDC have only a modest defect in cytokine secretion, undergo normal maturation, and when transferred into naïve WT mice elicit a normal IgM and IgG3 anti‐PC response, relative to WT BMDC. Pn synergizes with BCR and TCR signaling for DNA synthesis in purified WT B and CD4⁺T cells, respectively, but is defective in cells lacking TLR2. Pn primes TLR2^?/? mice for a normal CD4⁺ T‐cell IFN‐γ recall response. Notably, TLR2^?/? B cells transferred into RAG‐2^?/? mice with WT CD4⁺T cells, or TLR2^?/? CD4⁺T cells transferred into athymic nude mice, each elicit a defective IgG3, in contrast to normal IgM, anti‐PC response relative to WT cells. These data are the first to demonstrate a major role for B‐cell and CD4⁺ T‐cell expression of TLR2 for eliciting an anti‐bacterial humoral immune response.     

Age‐associated B cells expanded in autoimmune mice are memory cells sharing H‐CDR3‐selected repertoires

Age‐associated B cells (ABCs) represent a distinct cell population expressing low levels of CD21 (CD21^?/low). The Ig repertoire expressed by ABCs in aged mice is diverse and exhibits signs of somatic hypermutation (SHM). A CD21^?/low B‐cell population is expanded in autoimmune diseases, e.g. systemic lupus erythematosus, as well as in lupus‐prone NZB/W mice and in mice lacking a pre‐B cell receptor (SLC^?/?). However, the nature of the CD21^?/low B cells (hereafter ABCs) in autoimmunity is not well understood. Here we show that in young SLC^?/? mice, the vast majority of the ABCs express memory B‐cell (MBC) markers in contrast to wild‐type controls. A similar population is present in lupus‐prone MRL mice before and at disease onset. In SLC^?/? mice, a majority of the ABCs are IgM⁺, their V_H genes have undergone SHM, show clonal diversification and clonal restriction at the H‐CDR3 level. ABC hybridomas, established from SLC^?/? mice, secrete typical lupus autoantibodies, e.g. anti‐Smith antigen, and some of those that bind to DNA comprise a H‐CDR3 that is identical to previously described IgM anti‐DNA antibodies from lupus‐prone mice. Together, these results reveal that ABCs in autoimmune mice are comprised of autoreactive MBCs expressing highly restricted H‐CDR3 repertoires.     

Immunoglobulins of the non-galliform birds: antibody expression and repertoire in the duck

Galliform and non-galliform birds express three immunoglobulin isotypes, IgM, IgA and IgY. Beyond this we should not generalize because differences in gene organization may have functional consequences reflected in the immune response. At present, studies on non-galliform birds are largely restricted to ducks. Ducks express an alternatively spliced form of their IgY heavy chain (upsilon) gene, the IgY(DeltaFc), that lacks the Fc region and Fc-associated secondary effector functions. It is not known how common the expression of the IgY(DeltaFc) is among birds, nor the functional consequences. It is also not known whether the unusual organization of the duck IgH locus, also shared with the chicken, having the gene order of mu, alpha and upsilon, with alpha inverted in the locus, is unique to the galloanseriform lineage. Ducks, like chickens, have a single immunoglobulin light chain of the lambda (lambda) type. Evidence suggests that ducks, like chickens, generate their immunoglobulin repertoire through a single functional rearrangement of the variable (V) region, and generate diversity through gene conversion from a pool of pseudogenes. In Southern blots of germline and rearranged bursal DNA, both the heavy and light chain loci of ducks appear to each undergo one major rearrangement event. For both heavy and light chains, the functional V region element and the pseudogenes appear to consist of a single gene family. Further analysis of 26 heavy chain joining (JH) and 27 light chain JL segments shows there is use of a single J segment in ducks, which is diversified presumably through somatic mutations and gene conversion events. Despite this limitation on the rearrangement of immunoglobulin genes, analysis of 26 DH and 122 VL sequences suggests that extensive sequence diversity is generated.     

Expression of activation‐induced cytidine deaminase enhances the clearance of pneumococcal pneumonia: evidence of a subpopulation of protective anti‐pneumococcal B1a cells

We describe a protective early acquired immune response to pneumococcal pneumonia that is mediated by a subset of B1a cells. Mice deficient in B1 cells (xid), or activation‐induced cytidine deaminase (AID^?/?), or invariant natural killer T (iNKT) cells (Jα18^?/?), or interleukin‐13 (IL‐13^?/?) had impaired early clearance of pneumococci in the lung, compared with wild‐type mice. In contrast, AID^?/? mice adoptively transferred with AID^+/+ B1a cells, significantly cleared bacteria from the lungs as early as 3 days post infection. We show that this early bacterial clearance corresponds to an allergic contact sensitivity‐like cutaneous response, probably due to a subpopulation of initiating B1a cells. In the pneumonia model, these B1a cells were found to secrete higher affinity antigen‐specific IgM. In addition, as in contact sensitivity, iNKT cells were required for the anti‐pneumococcal B1a cell initiating response, probably through early production of IL‐13, given that IL‐13^?/? mice also failed to clear infection. Our study is the first to demonstrate the importance of AID in generating an appropriate B1a cell response to pathogenic bacteria. Given the antibody affinity and pneumonia resistance data, natural IgM produced by conventional B1a cells are not responsible for pneumonia clearance compared with the AID‐dependent subset.     

NF‐κB2/p100 deficiency impairs immune responses to T‐cell‐independent type 2 antigens

Formation of the splenic marginal zone (MZ) depends on the alternative NF‐κB signaling pathway. Recently, we reported that unrestricted activation of this pathway in NF‐κB2/p100‐deficient (p100^?/?) knock‐in mice alters the phenotype of MZ stroma and B cells. Here, we show that lack of the p100 inhibitor resulted in an expansion of both MZ B and peritoneal B‐1 cells. However, these cells failed to generate proliferating blasts in response to T‐cell‐independent type 2 (TI‐2) Ags, correlating with dampened IgM and absent IgG3 responses. This phenotype was in part due to increased activity of the NF‐κB subunit RelB. Moreover, p100^?/?→B6 BM chimeras were more susceptible to infection by encapsulated Streptococcus pneumoniae bacteria, pathogens that induce TI‐2 responses. In contrast to the TI‐2 defect, p100 deficiency did not impair immune responses to the TI‐1 Ag LPS and p100^?/? MZ B cells showed normal Ag transportation into B‐cell follicles. Furthermore, p100^?/? MZ B and B‐1 cells failed to respond to TI‐2 Ags in the presence of WT accessory cells. Thus, NF‐κB2/p100 deficiency caused a predominant B‐cell‐intrinsic TI‐2 defect that could largely be attributed to impaired proliferation of plasmablasts. Importantly, p100 was also necessary for efficient defense against clinically relevant TI‐2 pathogens.     

Intrinsic T‐ and B‐cell defects impair T‐cell‐dependent antibody responses in mice lacking the actin‐bundling protein L‐plastin

Germinal center development, critical for long‐term humoral immunity, requires the trafficking of T and B lymphocytes to defined tissues and locations after antigenic challenge. The molecular mechanisms that support lymphocyte trafficking through the linkage of extracellular chemotactic and adhesive cues to the actin cytoskeleton are not yet fully defined. We have previously identified the actin‐bundling protein L‐plastin (LPL) as a requisite intermediary in both naive B and T lymphocyte migration and in T‐cell activation. We tested the hypothesis that humoral immunity would require LPL. We show that mice lacking LPL demonstrated defective germinal center formation and reduced production of T‐cell‐dependent antibodies. T cells from LPL^?/? mice exhibited defective expansion of the follicular helper T population. Reduced expansion of LPL^?/? follicular helper T cells correlated with impaired trafficking to or retention of cells in the spleen following challenge, highlighting the importance of initial lymphocyte recruitment to the eventual success of the immune response. Furthermore, LPL^?/? B cells demonstrated cell‐intrinsic defects in population expansion and in differentiation into germinal center B cells. LPL thus modulates both T‐ and B‐cell function during the germinal center reaction and the production of T‐cell‐dependent antibody responses.     

KLRG1 impairs regulatory T‐cell competitive fitness in the gut

Immune homeostasis requires the tight, tissue‐specific control of the different CD4⁺ Foxp3⁺ regulatory T (Treg) cell populations. The cadherin‐binding inhibitory receptor killer cell lectin‐like receptor G1 (KLRG1) is expressed by a subpopulation of Treg cells with GATA3⁺ effector phenotype. Although such Treg cells are important for the immune balance, especially in the gut, the role of KLRG1 in Treg cells has not been assessed. Using KLRG1 knockout mice, we found that KLRG1 deficiency does not affect Treg cell frequencies in spleen, mesenteric lymph nodes or intestine, or frequencies of GATA3⁺ Treg cells in the gut. KLRG1‐deficient Treg cells were also protective in a T‐cell transfer model of colitis. Hence, KLRG1 is not essential for the development or activity of the general Treg cell population. We then checked the effects of KLRG1 on Treg cell activation. In line with KLRG1's reported inhibitory activity, in vitro KLRG1 cross‐linking dampened the Treg cell T‐cell receptor response. Consistently, lack of KLRG1 on Treg cells conferred on them a competitive advantage in the gut, but not in lymphoid organs. Hence, although absence of KLRG1 is not enough to increase intestinal Treg cells in KLRG1 knockout mice, KLRG1 ligation reduces T‐cell receptor signals and the competitive fitness of individual Treg cells in the intestine.     

Accelerated thymopoiesis and improved T‐cell responses in HLA‐A2/‐DR2 transgenic BRGS‐based human immune system mice

Human immune system (HIS) mouse models provide a robust in vivo platform to study human immunity. Nevertheless, the signals that guide human lymphocyte differentiation in HIS mice remain poorly understood. Here, we have developed a novel Balb/c Rag2^?/? Il2rg^?/? Sirpa^NOD (BRGS) HIS mouse model expressing human HLA‐A2 and ‐DR2 transgenes (BRGSA2DR2). When comparing BRGS and BRGSA2DR2 HIS mice engrafted with human CD34⁺ stem cells, a more rapid emergence of T cells in the circulation of hosts bearing human HLA was shown, which may reflect a more efficient human T‐cell development in the mouse thymus. Development of CD4⁺ and CD8⁺ T cells was accelerated in BRGSA2DR2 HIS mice and generated more balanced B and T‐cell compartments in peripheral lymphoid organs. Both B‐ and T‐cell function appeared enhanced in the presence of human HLA transgenes with higher levels of class switched Ig, increased percentages of polyfunctional T cells and clear evidence for antigen‐specific T‐cell responses following immunization. Taken together, the presence of human HLA class I and II molecules can improve multiple aspects of human B‐ and T‐cell homeostasis and function in the BRGS‐based HIS mouse model.     

Mucosal B cells: phenotypic characteristics, transcriptional regulation, and homing properties

Summary: Mucosal antibody defense depends on a complex cooperation between local B cells and secretory epithelia. Mucosa‐associated lymphoid tissue gives rise to B cells with striking J‐chain expression that are seeded to secretory effector sites. Such preferential homing constitutes the biological basis for local production of polymeric immunoglobulin A (pIgA) and pentameric IgM with high affinity to the epithelial pIg receptor that readily can export these antibodies to the mucosal surface. This ultimate functional goal of mucosal B‐cell differentiation appears to explain why the J chain is also expressed by IgG‐ and IgD‐producing plasma cells (PCs) occurring at secretory tissue sites; these immunocytes may be considered as ‘spin‐offs’ from early effector clones that through class switch are on their way to pIgA production. Abundant evidence supports the notion that intestinal PCs are largely derived from B cells initially activated in gut‐associated lymphoid tissue (GALT). Nevertheless, insufficient knowledge exists concerning the relative importance of M cells, major histocompatibility complex class II‐expressing epithelial cells, and professional antigen‐presenting cells for the uptake, processing, and presentation of luminal antigens in GALT to accomplish the extensive and sustained priming and expansion of mucosal B cells. Likewise, it is unclear how the germinal center reaction in GALT so strikingly can promote class switch to IgA and expression of J chain. Although B‐cell migration from GALT to the intestinal lamina propria is guided by rather well‐defined adhesion molecules and chemokines/chemokine receptors, the cues directing preferential homing to different segments of the gut require better definition. This is even more so for the molecules involved in homing of mucosal B cells to secretory effector sites beyond the gut, and in this respect, the role of Waldever's ring (including the palatine tonsils and adenoids) as a regional inductive tissue needs further characterization. Data suggest a remarkable compartmentalization of the mucosal immune system that must be taken into account in the development of effective local vaccines to protect specifically the airways, eyes, oral cavity, small and large intestines, and urogenital tract.     

Enterocolitis causes profound lymphoid depletion in endothelin receptor B‐ and endothelin 3‐null mouse models of Hirschsprung‐associated enterocolitis

Potentially life‐threatening enterocolitis is the most frequent complication in children with colonic aganglionosis (Hirschsprung disease, HSCR), and little is known about the mechanisms leading to enterocolitis. Splenic lymphopenia has been reported in the Endothelin Receptor B (Ednrb)‐null mouse model of HSCR that develops enterocolitis. In this study, we sought to identify molecular mechanisms underlying this immune phenotype. We employed the Ednrb^?/? mouse, and the knockout of its ligand, Edn3 (Edn3^?/?). The major finding is that enterocolitis in the Ednrb^?/? and Edn3^?/? mice lead to thymic involution, splenic lymphopenia, and suppression of B lymphopoiesis as a consequence of colonic aganglionosis, not an intrinsic Edn3‐Ednrb signaling defect directly affecting the lymphoid organs. We showed that adoptive transfer of Ednrb^?/? marrow repopulated the RAG2‐null mice marrow, thymus and spleen without development of enterocolitis. We identified the glucocorticoid corticosterone, as a potential mediator of the immune phenotype. This previously unrecognized pattern of immune abnormalities in mouse is nearly identical to lymphoid depletion in neonatal sepsis during severe physiological stress, suggesting that the mouse model used here could be also used for sepsis studies.     

Dendritic cell homeostasis is maintained by nonhematopoietic and T‐cell‐produced Flt3‐ligand in steady state and during immune responses

Lymphoid‐tissue dendritic cells (DCs) are short‐lived and need to be continuously replenished from bone marrow‐derived DC progenitor cells. Fms‐related tyrosine kinase 3 is expressed during cellular development from hematopoietic progenitors to lymphoid‐tissue DCs. Fms‐related tyrosine kinase 3 ligand (Flt3L) is an essential, nonredundant cytokine for DC progenitor to lymphoid tissue DC differentiation and maintenance. However, which cells contribute to Flt3L production and how Flt3L cytokine levels are regulated in steady state and during immune reactions remains to be determined. Here we demonstrate that besides nonhematopoietic cells, WT T cells produce Flt3L and contribute to the generation of both classical DCs (cDCs) and plasmacytoid DCs in Flt3L^?/? mice. Upon stimulation in vitro, CD4⁺ T cells produce more Flt3L than CD8⁺ T cells. Moreover, in vivo stimulation of naïve OT‐II CD4⁺ T cells with OVA leads to increase of pre‐cDCs and cDCs in draining lymph nodes of Flt3L^?/? mice in a partially Flt3L‐dependent manner. Thus, Flt3L‐mediated lymphoid tissue DC homeostasis is regulated by steady‐state T cells as well as by proliferative T cells, fostering local development of lymphoid organ resident DCs.     

Identification of dendritic cells,B cell and T cell subsets in Tasmanian devil lymphoid tissue; evidence for poor immune cell infiltration into devil facial tumors

The Tasmanian devil is under threat of extinction due to the transmissible devil facial tumor disease (DFTD). This fatal tumor is an allograft that does not induce an immune response, raising questions about the activity of Tasmanian devil immune cells. T and B cell analysis has been limited by a lack of antibodies, hence the need to produce such reagents. Amino acid sequence analysis revealed that CD4, CD8, IgM, and IgG were closely related to other marsupials. Monoclonal antibodies were produced against CD4, CD8, IgM, and IgG by generating bacterial fusion proteins. These, and commercial antibodies against CD1a and CD83, identified T cells, B cells and dendritic cells by immunohistochemistry. CD4⁺ and CD8⁺ T cells were identified in pouch young thymus, adult lymph nodes, spleen, bronchus‐ and gut‐associated lymphoid tissue. Their anatomical distribution was characteristic of mammalian lymphoid tissues with more CD4⁺ than CD8⁺ cells in lymph nodes and splenic white pulp. IgM⁺ and IgG⁺ B cells were identified in adult lymph nodes, spleen, bronchus‐associated lymphoid tissue and gut‐associated lymphoid tissue, with more IgM⁺ than IgG⁺ cells. Dendritic cells were identified in lymph node, spleen and skin. This distribution is consistent with eutherian mammals and other marsupials, indicating they have the immune cell subsets for an anti‐tumor immunity. Devil facial tumor disease tumors contained more CD8⁺ than CD4⁺ cells, but in low numbers. There were also low numbers of CD1a⁺ and MHC class II⁺ cells, but no CD83⁺ IgM⁺ or IgG⁺ B cells, consistent with poor immune cell infiltration. Anat Rec, 297:925–938, 2014. © 2014 The Authors. The Anatomical Record: Advances in Integrative Anatomy and Evolutionary Biology Published by Wiley Periodicals, Inc.     

Flow cytometric analysis of immunoglobulin heavy chain expression in B-cell lymphoma and reactive lymphoid hyperplasia

The diagnosis of B-cell lymphoma (BCL) is often dependent on the detection of clonal immunoglobulin (Ig) light chain expression. In some BCLs, the determination of clonality based on Ig light chain restriction may be difficult. The aim of our study was to assess the utility of flow cytometric analysis of surface Ig heavy chain (HC) expression in lymphoid tissues in distinguishing lymphoid hyperplasias from BCLs, and also differentiating various BCL subtypes. HC expression on B-cells varied among different types of hyperplasias. In follicular hyperplasia, IgM and IgD expression was high in mantle cells while germinal center cells showed poor HC expression. In other hyperplasias, B cell compartments were blurred but generally showed high IgD and IgM expression. Compared to hyperplasias, BCLs varied in IgM expression. Small lymphocytic lymphomas had lower IgM expression than mantle cell lymphomas. Of importance, IgD expression was significantly lower in BCLs than in hyperplasias, a finding that can be useful in differentiating lymphoma from reactive processes.     

Natural killer cell‐mediated contact sensitivity develops rapidly and depends on interferon‐α, interferon‐γ and interleukin‐12

Natural killer (NK) cell‐mediated contact sensitivity was recently described in mice. Here, we confirm NK cell‐mediated contact sensitivity (CS) in SCID and RAG1^?/? mice but not in SCID_beige mice, which have non‐functional NK cells that lack NK cell granules. NK cell‐mediated CS was transferred by liver mononuclear cells and the DX5⁺ fraction of liver cells, confirming that NK cells mediate CS in the absence of T and B cells. Participation of NKT cells and B‐1 cells was ruled out using Jα18^?/? and JH^?/? mice, respectively. Remarkably, NK cell‐mediated CS was observed just 1 hr after immunization and was detectable as early as 30 min after challenge. Further, we examined cytokine requirements for NK cell‐mediated CS, and found that liver mononuclear cells from interleukin‐12^?/?, interferon‐γ^?/? and interferon‐α receptor^?/? donors fail to transfer NK cell‐mediated CS to naive hosts. Our studies clearly show that dinitrofluorobenzene sensitized NK cells mediate very rapid, antigen‐specific cell‐mediated immunity, with features of both innate and acquired immune responses.     

Distinct roles for lymphotoxin-α and tumor necrosis factor in organogenesis and spatial organization of lymphoid tissue

Specialized roles for the pro-inflammatory cytokines tumor necrosis factor (TNF) and lymphotoxin (LT) were characterized in TNF/LTα^?/? and TNF^?/? mice established by direct gene targeting of C57BL/6 ES cells. The requirement for LT early in lymphoid tissue organogenesis is shown to be distinct from the more subtle and varied role of TNF in promoting correct microarchitectural organization of leukocytes in LN and spleen. Development of normal Peyer's patch (PP) structure, in contrast, is substantially dependent on TNF. Only mice lacking LT exhibit retarded B cell maturation in vivo and serum immunoglobulin deficiencies. A temporal hierarchy in lymphoid tissue development can now be defined, with LT being an essential participant in general lymphoid tissue organogenesis, developmentally preceeding TNF that has a more varied and subtle role in promotion of correct spatial organization of leukocytes in LN and spleen. PP development in TNF^?/? mice is unusual, indicating that TNF is a more critical participant for this structure than it is for other lymphoid tissues.     

Immunoglobulin classes in the garden lizard,

Two classes of immunoglobulins have been purified from lizard serum using a combination of ion-exchange chromatography on DEAE-cellulose and gel filtration on Sephadex G-200 or on Sepharose 6B. Lizard IgM is 2-ME sensitive and has an intact molecular weight similar to human IgM. On SDS-PAGE, reduced IgM dissociates into heavy and light chains of molecular weight 70,000 and 23,500 daltons respectively. Lizards also possess a 2-ME resistant, low molecular weight immunoglobulin designated as IgY similar to avian and amphibian IgY. IgY dissociates on SDS-PAGE to yield 59,500 dalton heavy and 26,000 dalton light chains. Antisera raised in rabbits to each of the two Ig classes could be made class-specific by cross-absorption, thus indicating that IgM and IgY represent distinct isotypes.     

Co‐expression of HLA‐B7 and HLA‐B27 alleles is associated with B7‐restricted immunodominant responses following influenza infection

It is recognized that host response following viral infection is characterized by immunodominance, but deciphering the different factors contributing to immunodominance has proved a challenge due to concurrent expression of multiple MHC class I alleles. To address this, we generated H2‐K^?/?/D^?/? double‐knockout transgenic mice expressing either one or two human MHC‐I alleles. We hypothesized that co‐expression of different allele combinations figures critically in immunodominance and examined this in influenza‐infected, double Tg MHC‐I mice. In A2/B7 or A2/B27 mice, using ELISpot assays with the A2‐restricted matrix I.58–66, the B7‐restricted NP418–426 or the B27‐restricted NP383–391 influenza A (flu) epitopes, we observed the expected recognition of both peptides for both alleles. In contrast, in flu‐infected B7/B27 mice, a significantly reduced level of B27/NP383‐restricted CTL response was detected while there was no change in the B7/NP418‐restricted CTL response. Flu‐specific tetramer studies revealed a partial deletion of Vβ8.1⁺ NP383/B27‐restricted CD8⁺ T cells, and a diminished Vβ12⁺ CD8⁺ T‐cell expansion in B7/B27 Tg mice. Using HLA Tg chimeric mice, we confirmed these findings. These findings shed light on the immune consequences of co‐dominant expression of MHC‐I alleles for host immune response to pathogens.     

Immunoglobulin classes in the garden lizard,Calotesversicolor

Two classes of immunoglobulins have been purified from lizard serum using a combination of ion-exchange chromatography on DEAE-cellulose and gel filtration on Sephadex G-200 or on Sepharose 6B. Lizard IgM is 2-ME sensitive and has an intact molecular weight similar to human IgM. On SDS-PAGE, reduced IgM dissociates into heavy and light chains of molecular weight 70,000 and 23,500 daltons respectively. Lizards also possess a 2-ME resistant, low molecular weight immunoglobulin designated as IgY similar to avian and amphibian IgY. IgY dissociates on SDS-PAGE to yield 59,500 dalton heavy and 26,000 dalton light chains. Antisera raised in rabbits to each of the two Ig classes could be made class-specific by cross-absorption, thus indicating that IgM and IgY represent distinct isotypes.