Mycoplasma contamination of membrane associated measles antigens. Inability to demonstrate in vitro lymphocyte responsiveness to measles.

A marked suppression of protein synthesis including IgA was demonstrated in BALB/c mouse thymocytes incubated in short-term tissue culture in the presence of anti-mouse α chain antibodies. In C57BL mouse thymocytes a suppression of protein synthesis including IgM was obtained by incubating the cells in tissue culture containing anti-mouse μ chain antibodies. The association of anti-α chain antibodies or anti-κ chain antibodies, at 4 °, to the Ig subunits on the surface of BALB/c mouse thymocytes was demonstrated following radioiodination of the antibody treated cells. The anti-mouse Ig antibodies attached to the surface α chains or κ chains at 4 ° were radioiodinated on the cell surface, rendering the corresponding surface mouse Ig subunits inaccessible to radioiodination by lactoperoxidase. The α chains or κ chains complexed with their specific antibodies were independently removed from the cell surface upon heating to 37 °. However, it was found that each of the antibodies attached first to its Ig subunit on the cell surface interferes with the subsequent binding of antibodies to the second subunit. The antibody-surface Ig complexes, although cleared from the cell membrane at 37 °, were not released into the culture medium, leading to the conclusion that these complexes were endocytosed.     

T-cell neoplasm induced by subcutaneous transplantation of a plasmacytoma: characterization of tumor cells.

Thymocytes, isolated 6 days following subcutaneous (sc) transplantation of BALB/c MOPC-315 plasmacytoma into F₁ (BALB/c × C57BL) hybrid mice, when injected sc into normal syngeneic mice, caused the development of a solid sc tumor. The cells of the newly developed tumor were of a mixed population of θ⁺F₁ (BALB/c × C57BL) and θ^? BALB/c cells (approximately 1:1), which represents a new type of mixed T cell-plasma cell neoplasm. Efforts were made to isolate the transformed thymocytes (θ⁺) from the plasmacytoma (θ^?) cells in the new tumor, exploiting differences in their surface properties. Treatment of the mixed tumor cell population with peanut agglutinin (PNA) revealed that only the T tumor cells were agglutinated. The agglutinated cells were recovered after dispersing the clumps with d-galactose (0.15 M) and consisted of 95% θ⁺ cells. The PNA-agglutinated cells were found to induce a similar tumor (85% θ⁺ cells) when injected sc into F₁ (BALB/c × C57BL) mice.     

Foxp3+ Regulatory T Cells Delay Expulsion of Intestinal Nematodes by Suppression of IL-9-Driven Mast Cell Activation in BALB/c but Not in C57BL/6 Mice

Accumulating evidence suggests that IL-9-mediated immunity plays a fundamental role in control of intestinal nematode infection. Here we report a different impact of Foxp3⁺ regulatory T cells (Treg) in nematode-induced evasion of IL-9-mediated immunity in BALB/c and C57BL/6 mice. Infection with Strongyloides ratti induced Treg expansion with similar kinetics and phenotype in both strains. Strikingly, Treg depletion reduced parasite burden selectively in BALB/c but not in C57BL/6 mice. Treg function was apparent in both strains as Treg depletion increased nematode-specific humoral and cellular Th2 response in BALB/c and C57BL/6 mice to the same extent. Improved resistance in Treg-depleted BALB/c mice was accompanied by increased production of IL-9 and accelerated degranulation of mast cells. In contrast, IL-9 production was not significantly elevated and kinetics of mast cell degranulation were unaffected by Treg depletion in C57BL/6 mice. By in vivo neutralization, we demonstrate that increased IL-9 production during the first days of infection caused accelerated mast cell degranulation and rapid expulsion of S. ratti adults from the small intestine of Treg-depleted BALB/c mice. In genetically mast cell-deficient (Cpa3-Cre) BALB/c mice, Treg depletion still resulted in increased IL-9 production but resistance to S. ratti infection was lost, suggesting that IL-9-driven mast cell activation mediated accelerated expulsion of S. ratti in Treg-depleted BALB/c mice. This IL-9-driven mast cell degranulation is a central mechanism of S. ratti expulsion in both, BALB/c and C57BL/6 mice, because IL-9 injection reduced and IL-9 neutralization increased parasite burden in the presence of Treg in both strains. Therefore our results suggest that Foxp3⁺ Treg suppress sufficient IL-9 production for subsequent mast cell degranulation during S. ratti infection in a non-redundant manner in BALB/c mice, whereas additional regulatory pathways are functional in Treg-depleted C57BL/6 mice.     

Functional,Non-Clonal IgMa-Restricted B Cell Receptor Interactions with the HIV-1 Envelope gp41 Membrane Proximal External Region

The membrane proximal external region (MPER) of HIV-1 gp41 has several features that make it an attractive antibody-based vaccine target, but eliciting an effective gp41 MPER-specific protective antibody response remains elusive. One fundamental issue is whether the failure to make gp41 MPER-specific broadly neutralizing antibodies like 2F5 and 4E10 is due to structural constraints with the gp41 MPER, or alternatively, if gp41 MPER epitope-specific B cells are lost to immunological tolerance. An equally important question is how B cells interact with, and respond to, the gp41 MPER epitope, including whether they engage this epitope in a non-canonical manner i.e., by non-paratopic recognition via B cell receptors (BCR). To begin understanding how B cells engage the gp41 MPER, we characterized B cell-gp41 MPER interactions in BALB/c and C57BL/6 mice. Surprisingly, we found that a significant (∼7%) fraction of splenic B cells from BALB/c, but not C57BL/6 mice, bound the gp41 MPER via their BCRs. This strain-specific binding was concentrated in IgM^hi subsets, including marginal zone and peritoneal B1 B cells, and correlated with enriched fractions (∼15%) of gp41 MPER-specific IgM secreted by in vitro-activated splenic B cells. Analysis of Igh^a (BALB/c) and Igh^b (C57BL/6) congenic mice demonstrated that gp41 MPER binding was controlled by determinants of the Igh^a locus. Mapping of MPER gp41 interactions with IgM^a identified MPER residues distinct from those to which mAb 2F5 binds and demonstrated the requirement of Fc C_H regions. Importantly, gp41 MPER ligation produced detectable BCR-proximal signaling events, suggesting that interactions between gp41 MPER and IgM^a determinants may elicit partial B cell activation. These data suggest that low avidity, non-paratopic interactions between the gp41 MPER and membrane Ig on naïve B cells may interfere with or divert bnAb responses.     

Regulatory T cells enhance susceptibility to experimental trypanosoma congolense infection independent of mouse genetic background

Background

BALB/c mice are highly susceptible while C57BL/6 are relatively resistant to experimental Trypanosoma congolense infection. Although regulatory T cells (Tregs) have been shown to regulate the pathogenesis of experimental T. congolense infection, their exact role remains controversial. We wished to determine whether Tregs contribute to distinct phenotypic outcomes in BALB/c and C57BL/6 mice and if so how they operate with respect to control of parasitemia and production of disease-exacerbating proinflammatory cytokines.

Methodology/Findings

BALB/c and C57BL/6 mice were infected intraperitoneally (i.p) with 10³ T. congolense clone TC13 and both the kinetics of Tregs expansion and intracellular cytokine profiles in the spleens and livers were monitored directly ex vivo by flow cytometry. In some experiments, mice were injected with anti-CD25 mAb prior or post T. congolense infection or adoptively (by intravenous route) given highly enriched naïve CD25⁺ T lymphocytes prior to T. congolense infection and the inflammatory cytokine/chemokine levels and survival were monitored. In contrast to a transient and non significant increase in the percentages and absolute numbers of CD4⁺CD25⁺Foxp3⁺ T cells (Tregs) in C57BL/6 mouse spleens and livers, a significant increase in the percentage and absolute numbers of Tregs was observed in spleens of infected BALB/c mice. Ablation or increasing the number of CD25⁺ cells in the relatively resistant C57BL/6 mice by anti-CD25 mAb treatment or by adoptive transfer of CD25⁺ T cells, respectively, ameliorates or exacerbates parasitemia and production of proinflammatory cytokines.

Conclusion

Collectively, our results show that regulatory T cells contribute to susceptibility in experimental murine trypanosomiasis in both the highly susceptible BALB/c and relatively resistant C57BL/6 mice.     

Natural regulatory T cells mediate the development of cerebral malaria by modifying the pro-inflammatory response

Cerebral malaria (CM) is a severe neurologic complication that arises predominantly in children and non-immune adults infected with Plasmodium falciparum. In the current study, the dynamics of CD4⁺CD25⁺Foxp3⁺ regulatory T cells (Tregs) and pro- and anti-inflammatory cytokines were analyzed in P. berghei ANKA (P.bANKA)-infected C57BL/6, BALB/c, and DBA/2 mice. We showed that C57BL/6 mice were susceptible to CM, while BALB/c and DBA/2 mice were resistant to CM and succumbed to hyperparasitemia and severe anemia. The proportion and absolute numbers of Tregs in BALB/c and DBA/2 mice were significantly higher than in C57BL/6 mice. The levels of pro-inflammatory cytokines, such as IFN-γ, TNF-α, IL-6, IL-17 and NO in CM-susceptible C57BL/6 mice were obviously higher than in CM-resistant BALB/c and DBA/2 mice, while the level of the anti-inflammatory cytokine IL-10 was the opposite to that of pro-inflammatory cytokines, confirming that an appropriate balance between pro- and anti-inflammatory immune responses is essential to control the pathogenesis of severe malaria, and Tregs are important regulators if this balance is to be maintained. In vivo depletion of Tregs significantly protected C57BL/6 mice from experimental CM and the production of pro- and anti-inflammatory cytokines was reversed, indicating that this cell population contributes to pathogenesis by modulating the balance of pro- and anti-inflammatory responses. Our data demonstrate that Tregs mediate the incidence and outcome of CM in P.bANKA-infected mice by modifying the pro-inflammatory response.     

The Contribution of Natural Killer Complex Loci to the Development of Experimental Cerebral Malaria

Background

The Natural Killer Complex (NKC) is a genetic region of highly linked genes encoding several receptors involved in the control of NK cell function. The NKC is highly polymorphic and allelic variability of various NKC loci has been demonstrated in inbred mice, providing evidence for NKC haplotypes. Using BALB.B6-Cmv1^r congenic mice, in which NKC genes from C57BL/6 mice were introduced into the BALB/c background, we have previously shown that the NKC is a genetic determinant of malarial pathogenesis. C57BL/6 alleles are associated with increased disease-susceptibility as BALB.B6-Cmv1^r congenic mice had increased cerebral pathology and death rates during P. berghei ANKA infection than cerebral malaria-resistant BALB/c controls.

Methods

To investigate which regions of the NKC are involved in susceptibility to experimental cerebral malaria (ECM), intra-NKC congenic mice generated by backcrossing recombinant F2 progeny from a (BALB/c x BALB.B6-Cmv1^r) F1 intercross to BALB/c mice were infected with P. berghei ANKA.

Results

Our results revealed that C57BL/6 alleles at two locations in the NKC contribute to the development of ECM. The increased severity to severe disease in intra-NKC congenic mice was not associated with higher parasite burdens but correlated with a significantly enhanced systemic IFN-γ response to infection and an increased recruitment of CD8⁺ T cells to the brain of infected animals.

Conclusions

Polymorphisms within the NKC modulate malarial pathogenesis and acquired immune responses to infection.     

Comparison of the ease of tolerance induction in thymus and bone marrow of three strains of mice

Three strains of mice which vary in their susceptibility to induction of immune tolerance with human gamma-globulin were studied to evaluate the cellular basis for their sensitivity to induction of the unresponsive state. Tolerance induction in BALB/c mice was difficult to establish, while tolerance induction was easily achieved in C57BL/6 and CBF₁ (BALB/c × C57BL/6) mice. The degree of unresponsiveness obtained with various tolerogen doses in intact C57BL/6 and CBF₁ mice was reflected in the sensitivity of their thymocytes to the production of the unresponsive state. In the BALB/c mouse strain slight immune suppression observed at low tolerogen doses was correlated with bone marrow cell unresponsiveness while significant levels of tolerance observed at a high tolerogen dose was due to suppression of thymus cells. It was apparent that CBF₁ mice had inherited both thymus cells and bone marrow cells which exhibited the sensitivity to induction of immune tolerance characteristic of those same cells of their C57BL/6 parent.     

Selective depletion and enrichment of alloreactive cytolytic effector lymphocytes using anti-fluorescein affinity columns

Peritoneal exudates from BALB/c mice rejecting C57BL ascites lymphoma EL4 are a rich source of cytolytic effector lymphocytes (CL); however, these preparations are still contaminated even after removal of adherent cells with other mononuclear cells which do not appear to be cytolytic. The relationship of the cytolytic and “non-cytolytic” cells to graft rejection in vivo is not completely understood. We have used anti-fluorescein (α-FL) columns to separate sensitized lymphoid populations into fractions enriched or depleted in cytolytic activity. EL4 were directly labeled with fluorescein isothiocyanate (FL-EL4), centrifuged with CL and the mixture was applied to a column of horse α-FL antibody conjugated to Sepharose 4B. FL-EL4 and lymphocytes bound to them were retained on the column, while non-bound lymphocytes were collected in a medium wash (passed cells). CL bound to FL-EL4 were then eluted with EDTA (eluted cells). Cytolytic activity of the two fractions was compared to that of the unfractionated population in an in vitro⁵¹Cr release assay. Passed cells were consistently depleted in cytolytic activity compared to unfractionated cells or manipulation controls reaching 100% depletion in some experiments. Enrichment of cytolytic activity in eluted populations was frequently but not invariably observed. Rate of cytolysis was used as a measure of cytolytic activity in fractionated populations. Specificity of binding was investigated in reciprocal experiments using CS7BL/6J effectors raised against BALB/c lymphoma RL♂ 1. Viability of recovered cells was high and the procedure was rapid, efficient and versatile. In contrast to monolayer cellular immunoabsorbents, contamination of fractions with absorbing cells was consistently less than 5%. Both enriched and depleted populations are available for further study of surface markers and function.     

SH2D2A Modulates T Cell Mediated Protection to a B Cell Derived Tumor in Transgenic Mice

Background

T cell specific adapter protein (TSAd), encoded by the SH2D2A gene, modulates signaling downstream of the T cell receptor (TCR). Young, unchallenged SH2D2A-deficient C57BL/6 mice exhibit a relatively normal immune phenotype. To address whether SH2D2A regulates physiologic immune responses, SH2D2A-deficient TCR-transgenic BALB/c mice were generated. The transgenic TCR recognizes a myeloma-derived idiotypic (Id) peptide in the context of the major histocompatibility complex (MHC) class II molecule I-E^d, and confers T cell mediated resistance to transplanted multiple myeloma development in vivo.

Principal Findings

The immune phenotype of SH2D2A-deficient C57BL/6 and BALB/c mice did not reveal major differences compared to the corresponding wild type mice. When challenged with myeloma cells, Id-specific TCR-transgenic BALB/c mice lacking SH2D2A displayed increased resistance towards tumor development. Tumor free TCR-transgenic SH2D2A-deficient mice had higher numbers of Id-specific single positive CD4+ thymocytes compared to TCR-transgenic wild-type mice.

Conclusion

Our results suggest a modulatory role for SH2D2A in T cell mediated immune surveillance of cancer. However, it remains to be established whether its effect is T-cell intrinsic. Further studies are required to determine whether targeting SH2D2A function in T cells may be a potential adjuvant in cancer immunotherapy.     

Deficiency in indoleamine-2, 3-dioxygenase induces upregulation of guanylate binding protein 1 and inducible nitric oxide synthase expression in the brain during cerebral infection with Toxoplasma gondii in genetically resistant BALB/c mice but not in genetically susceptible C57BL/6 mice

We examined the roles of indoleamine-2, 3-dioxygenase 1 (IDO1) in controlling cerebral Toxoplasma gondii infection in both genetically resistant and susceptible strains of mice. In susceptible C57BL/6 mice, IDO expression was immunohistochemically detected only in a minority (22.5%) of tachyzoite-infected cells in their brains during the later stage of infection. When C57BL-6-background IDO1-deficient (IDO1^?/?) mice were infected, their cerebral tachyzoite burden was equivalent to those of wild-type (WT) animals. In contrast, in resistant BALB/c mice, IDO expression was detected in a majority (84.0%) of tachyzoite-infected cerebral cells. However, tachyzoite burden in BALB/c-background IDO1^?/? mice remained as low as that of WT mice, which was 78 times less than those of C57BL/6 mice. Of interest, IDO1^?/? mice of only resistant BALB/c-background had markedly greater cerebral expressions of two other IFN-γ-mediated effector molecules, guanylate binding protein 1 (Gbp1) and nitric oxide synthase 2 (NOS2), than their WT mice. Therefore, it would be possible that IDO1 deficiency was effectively compensated by the upregulated expression of Gbp1 and NOS2 to control cerebral tachyzoite growth in genetically resistant BALB/c mice, whereas IDO1 did not significantly contribute to controlling cerebral tachyzoite growth in genetically susceptible C57BL/6 mice because of its suppressed expression in infected cells.     

Influence of the immunoglobulin heavy chain locus on expression of the VK1GAC light chain

The VK1GAC light chain represents the dominant V kappa structure employed in the antibody response of A/J mice to streptococcal group A carbohydrate ( GAC ). Two anti-idiotypic antisera, anti- Id5 and anti- Id20 , with specificity for the VK1GAC light chain were used to examine anti- GAC antibody responses in a series of inbred mouse strains that differ at the heavy chain constant region ( IgCH ) allotype locus. Both idiotypes were expressed in normal and immune sera from mice of most IgCH allotypes, except IgCHb (C57BL/6J) and IgCHf (CE/J). C57BL/6J mice expressed Id5 , but not Id20 , whereas CE/J mice did not express either idiotype. Testing of recombinant inbred strains between BALB/c and C57BL/6 indicated that the pattern of idiotype expression did not correlate with IgCH allotype. The C X B recombinants expressed all three idiotype patterns that were observed in the panel of inbred strains. Testing of allotype congenic mice between BALB/c and C57BL/6 showed that CB.20 and BC.8 mice were Id20 -, whereas BAB-14 mice were Id20 +, indicating that both VH and background (V kappa or regulatory) loci must be derived from BALB/c to obtain Id20 expression. The difference in the frequency of idiotype expression observed between BALB/c and BAB-14 mice indicates that the IgCH locus may exert a quantitative influence on the expression of this light chain. To examine the Id20 -, Id5 + antibodies of C57BL/6 mice, anti- GAC hybridomas were prepared. Of 16 C57BL/6-derived anti- GAC monoclonal antibodies, six were reactive with anti- Id5 and not with anti- Id20 . Isoelectric focusing of the purified kappa light chains from three of these antibodies revealed two distinct spectrotypes that co-migrated with the two known VK1GAC spectrotypes observed with A/J anti- GAC light chains. Idiotypic analysis of in vitro recombinants between the heavy and light chains of A/J and C57BL/6 monoclonal antibodies demonstrated that the C57BL/6 light chains were idiotypically similar to A/J light chains when they were free in solution or paired with A/J heavy chains. These results demonstrate that C57BL/6 mice can express a light chain that is very similar, if not identical, to the VK1GAC light chain, although the light chain is expressed in lower frequency and is paired with a distinct VH structure, which can mask expression of one of the VK1GAC idiotypes. These effects on V kappa expression map to at least three genetic loci: VH, CH, and an unlinked locus.     

Ontogeny of B lymphocytes. I. In vitro appearance of Ig-bearing lymphocytes

During the immediate postnatal period, a striking increase in the fraction and number of splenic lymphocytes which bear easily detectable surface immunoglobulin (Ig) occurs in BALB/c and CDF₁ mice. Thus, in mice < 8 hr of age, approximately 4% of splenic lymphoid cells bear surface Ig whereas 17% of splenic lymphocytes of mice 24 hr of age are positive for surface Ig. This increase in Ig-bearing lymphocytes can be obtained in vitro. Thus, cultures of spleen or liver cells from neonatal mice display a substantial increase in the percent and in the absolute number of cells with easily detectable surface Ig. The in vitro increase in Ig-bearing cells is largely inhibited by mitomycin C or puromycin treatment of neonatal cells. Interestingly, pretreatment of these cells with anti-κ antibody, with or without complement, inhibited the increase in Ig-bearing cells. These results indicate that a substantial portion of Ig-bearing lymphoid cells present at 24 hr of age derive from cells already present in the spleens and livers of neonatal mice. Many of these “precursor” cells appear to bear some surface Ig.     

The CTLA-4 and PD-1/PD-L1 Inhibitory Pathways Independently Regulate Host Resistance to Plasmodium-induced Acute Immune Pathology

The balance between pro-inflammatory and regulatory immune responses in determining optimal T cell activation is vital for the successful resolution of microbial infections. This balance is maintained in part by the negative regulators of T cell activation, CTLA-4 and PD-1/PD-L, which dampen effector responses during chronic infections. However, their role in acute infections, such as malaria, remains less clear. In this study, we determined the contribution of CTLA-4 and PD-1/PD-L to the regulation of T cell responses during Plasmodium berghei ANKA (PbA)-induced experimental cerebral malaria (ECM) in susceptible (C57BL/6) and resistant (BALB/c) mice. We found that the expression of CTLA-4 and PD-1 on T cells correlates with the extent of pro-inflammatory responses induced during PbA infection, being higher in C57BL/6 than in BALB/c mice. Thus, ECM develops despite high levels of expression of these inhibitory receptors. However, antibody-mediated blockade of either the CTLA-4 or PD-1/PD-L1, but not the PD-1/PD-L2, pathways during PbA-infection in ECM-resistant BALB/c mice resulted in higher levels of T cell activation, enhanced IFN-γ production, increased intravascular arrest of both parasitised erythrocytes and CD8⁺ T cells to the brain, and augmented incidence of ECM. Thus, in ECM-resistant BALB/c mice, CTLA-4 and PD-1/PD-L1 represent essential, independent and non-redundant pathways for maintaining T cell homeostasis during a virulent malaria infection. Moreover, neutralisation of IFN-γ or depletion of CD8⁺ T cells during PbA infection was shown to reverse the pathologic effects of regulatory pathway blockade, highlighting that the aetiology of ECM in the BALB/c mice is similar to that in C57BL/6 mice. In summary, our results underscore the differential and complex regulation that governs immune responses to malaria parasites.     

Defective T helper activity in the spleen of BALB/c mice immune to a syngeneic fibrosarcoma

Summary BALB/c mice were immunized with the syngeneic 3-methylcholanthrene-induced fibrosarcoma CA-2 by the growth and excision method. When lymphoid cells from different organs of these tumor-free mice were tested in a direct ⁵¹Cr-release assay, peritoneal exudate cells but not spleen cells displayed specific cytotoxicity against the syngeneic tumor target. A cytotoxic response could be obtained by tumor-immune spleen cells when cultured in a mixed lymphocyte tumor cell culture (MLTC) at high but not low density although at the same effector/stimulator ratio. Lack of cytotoxic activity in low density MLTC was not due to an impairment of cytotoxic precursors since cytotoxicity was rescued by adding exogenous interleukin-2 in experimental conditions in which no lymphokine-activated killer cells could develop relevant anti-CA-2 lysis. When low density MLTC were supplemented with either 800 R-irradiated cells or nonirradiated, negatively selected Lyt 1⁺ cells from the same immune mice, induction of a cytotoxic response against CA-2 occurred and interleukin-2 production became detectable. Additional studies indicated that spleen cells of CA-2-immune mice were also impaired in their ability to provide help to syngeneic thymocytes for the generation of cytotoxic T lymphocytes against C57BL/6J alloantigens. Dilution effect of helper cells due to immunization procedures was excluded since spleen cells of mice immunized against another BALB/c tumor, the YC8 lymphoma, or against DBA/2 minor histocompatibility antigens provided good help to thymocytes against the same alloantigens. These results indicate that tumor-immune animals may also have selective T helper defects in an important lymphoid organ like spleen.     

Generation of monoclonal antibodies against non-structural protein 3AB of foot-and-mouth disease virus

To identify linear epitopes on the non-structural protein 3AB of foot-and-mouth disease virus (FMDV), BABL/c mice were immunized with the 3AB protein and splenocytes of BALB/c mice were fused with myeloma Sp2/0 cells. Two hybridoma monoclonal antibodies (mAbs) cell lines against the 3AB protein of foot-and-mouth disease virus (FMDV) were obtained, named C6 and E7 respectively. The microneutralization titer was 1:1024 for mAb C6, and 1:512 for E7. Both mAbs contain kappa light chains, and were of subclass IgG2b. In order to define the mAbs binding epitopes, the reactivity of these mAbs against FMDV were examined by indirect ELISA. The results showed that both mAbs can react with FMDV, but had no cross-reactivity with Swine Vesicular Disease (SVD) antigens. The titers in abdomen liquor were 1:5×10⁶ for C6 and 1:2×10⁶ for E7. In conclusion, the mAbs obtained from this study are specific for the detection of FMDV, can be used for etiological and immunological researches on FMDV, and have potential use in diagnosis and future vaccine designs.     

BCG-mediated protection against Mycobacterium ulcerans infection in the mouse

Background

Vaccination with Mycobacterium bovis bacille Calmette-Guérin (BCG) is widely used to reduce the risk of childhood tuberculosis and has been reported to have efficacy against two other mycobacterial diseases, leprosy and Buruli ulcer caused by M. ulcerans (Mu). Studies in experimental models have also shown some efficacy against infection caused by Mu. In mice, most studies use the C57BL/6 strain that is known to develop good cell-mediated protective immunity. We hypothesized that there may be differences in vaccination efficacy between C57BL/6 and the less resistant BALB/c strain.

Methods

We evaluated BCG vaccine efficacy against challenge with ∼3×10⁵ M. ulcerans in the right hind footpad using three strains: initially, the Australian type strain, designated Mu1617, then, a Malaysian strain, Mu1615, and a recent Ghanaian isolate, Mu1059. The latter two strains both produce mycolactone while the Australian strain has lost that capacity. CFU of both BCG and Mu and splenocyte cytokine production were determined at intervals after infection. Time to footpad swelling was assessed weekly.

Principal Findings

BCG injection induced visible scars in 95.5% of BALB/c mice but only 43.4% of C57BL/6 mice. BCG persisted at higher levels in spleens of BALB/c than C57BL/6 mice. Vaccination delayed swelling and reduced Mu CFU in BALB/c mice, regardless of challenge strain. However, vaccination was only protective against Mu1615 and Mu1617 in C57BL/6 mice. Possible correlates of the better protection of BALB/c mice included 1) the near universal development of BCG scars in these mice compared to less frequent and smaller scars observed in C57BL/6 mice and 2) the induction of sustained cytokine, e.g., IL17, production as detected in the spleens of BALB/c mice whereas cytokine production was significantly reduced, e.g., IL17, or transient, e.g., Ifnγ, in the spleens of C57BL/6 mice.

Conclusions

The efficacy of BCG against M. ulcerans, in particular, and possibly mycobacteria in general, may vary due to differences in both host and pathogen.     

Defective thymic T cell activation by concanavalin A and anti-CD3 in autoimmune nonobese diabetic mice. Evidence for thymic T cell anergy that correlates with the onset of insulitis.

In nonobese diabetic (NOD) mice, T cells play a major role in mediating autoimmunity against pancreatic islet beta-cells. We and others previously reported that age-related alterations in the thymic and peripheral T cell repertoire and function occur in prediabetic NOD mice. To study the mechanism responsible for these T cell alterations, we examined whether a defect exists in the thymus of NOD mice at the level of TCR-mediated signaling after activation by Con A and anti-CD3. We found that thymocytes from NOD mice respond weakly to Con A- and anti-CD3-induced proliferation, compared with thymocytes from control BALB/c, BALB.B, (BALB.B x BALB.K)F1, C57BL/6, and nonobese non-diabetic mice. This defect correlates with the onset of insulitis, because it can be detected at 7 to 8 weeks of age, whereas younger mice displayed a normal T cell responsiveness. Thymic T cells from (NOD x BALB/c)F1 mice, which are insulitis- and diabetes-free, exhibit an intermediate stage of unresponsiveness. This T cell defect is not due to a difference in the level of CD3 and IL-2R expression by NOD and BALB/c thymocytes, and both NOD CD4+ CD8- and CD4- CD8+ mature thymic T cells respond poorly to Con A. BALB/c but not NOD thymic T cells respond to Con A in the presence of either BALB/c or NOD thymic APC, suggesting that the thymic T cell defect in NOD mice is intrinsic to NOD thymic T cells and is not due to an inability of NOD APC to provide a costimulatory signal. The defect can be partially reversed by the addition of rIL-2 to NOD thymocytes. To determine whether a defect in signal transduction mediates this NOD thymic T cell unresponsiveness, we tested whether these cells elevate their intracellular free Ca2+ ion concentration in response to Con A. An equivalent Con A-induced increase in Ca2+ ion concentration in both NOD and BALB/c thymocytes was observed, suggesting a normal coupling between the CD3 complex and phospholipase C in NOD thymocytes. In contrast to their low proliferative response to Con A or anti-CD3, NOD thymocytes respond normally (i.e., as do BALB/c thymocytes) to the combinations of PMA plus the Ca2+ ionophore ionomycin and PMA plus Con A but weakly to Con A plus ionomycin. Our data suggest that the age-related NOD thymocyte unresponsiveness to Con A and anti-CD3 results from a defect in the signaling pathway of T cell activation that occurs upstream of protein kinase C activation.     

Suppression of mixed lymphocyte reactions by alloantigen-activated spleen-localizing thymocytes.

Heavily irradiated BALB/c and C57BL/6 mice were injected intravenously with BALB/c thymocytes. At varying times thereafter spleen and lymph node cell suspensions from these animals were treated with mitomycin C and added as regulator populations to mixed lymphocyte reactions (MLR) with syngeneic responder cells. Alloantigen-activated spleen-localizing thymocytes suppressed MLR responses 40 to 95%. Suppressor activitity, manifested as a quantitative reduction in peak proliferative responses, was maximal 4 days after cell transfer. Antigenic specificity for the stimulator cell strain in MLR was not demonstrated. The effect of lymph nodelocalizing thymocytes as regulators in MLR was variable, but in most experiments these cells slightly enhanced responses. We conclude that splenic localization is an intrinsic property of the thymocyte subpopulation capable of suppressing MLR responses, and that the suppressor activity of this subpopulation is substantially enhanced by activation in allogeneic hosts.     

Immune Modulating Effects of NKT Cells in a Physiologically Low Dose Leishmania major Infection Model after αGalCer Analog PBS57 Stimulation

Leishmaniasis is a parasitic infection affecting ∼12 million people worldwide, mostly in developing countries. Treatment options are limited and no effective vaccines exist to date. Natural Killer T (NKT) cells are a conserved innate-like lymphocyte population with immunomodulating effects in various settings. A number of reports state a role of NKT cells in different models of Leishmania infection. Here, we investigated the effect of NKT cells in a physiologically relevant, intradermal low dose infection model. After inoculation of 10³ infectious-stage L. major, comparable numbers of skin-immigrating NKT cells in both susceptible BALB/c mice and resistant C57BL/6 mice were noted. Compared to their wild type counterparts, NKT cell-deficient mice on a C57BL/6 background were better able to contain infection with L. major and showed decreased IL-4 production in cytokine analysis performed 5 and 8 weeks after infection. Low doses of the NKT cell stimulating αGalCer analog PBS57 applied at the time of infection led to disease exacerbation in C57BL/6 wild-type, but not NKT-deficient mice. The effect was dependent both on the timing and amount of PBS57 administered. The effect of NKT cell stimulation by PBS57 proved to be IL-4 dependent, as it was neutralized in IL-4-deficient C57BL/6 or anti-IL-4 antibody-treated wild-type mice. In contrast to C57BL/6 mice, administration of PBS57 in susceptible BALB/c mice resulted in an improved course of disease. Our results reveal a strain- and cytokine-dependent regulatory role of NKT cells in the development of immunity to low dose L. major infections. These effects, probably masked in previous studies using higher parasite inocula, should be considered in future therapy and immunization approaches.