Impaired clearance of primary but not secondary Brugia infections in IL-5 deficient mice

Eosinophilia in blood and tissues has been strongly associated with helminth infections for over a century. In vivo depletion of IL-5, a cytokine crucially involved in eosinophilopoiesis with an antibody or through genetic manipulation, reproducibly abrogates helminth-induced eosinophilia, but renders mice permissive only in some models of parasite infection. In the current study, we compared the ability of IL-5(-/-) and B6(+/+) mice to clear intraperitoneal infections with Brugia pahangi L3. IL-5(-/-) mice had statistically significantly higher worm burdens than B6(+/+). This was true for primary infections, in young as well as old mice, suggesting that IL-5 deficient mice are more permissive to Brugian infections. This increase in permissiveness seemed to correlate well with the drastically reduced eosinophil numbers in the peritoneal cavity, the site of infection. In secondary infections, primed IL-5(-/-) mice cleared infections in an accelerated manner, comparable with B6(+/+) mice. These observations suggest that IL-5 induced eosinophilia is more important in the control of a primary infection in na?ve mice than a secondary infection in primed mice.     

Isotype-specific immunoregulation. Systemic antigen induces splenic T contrasuppressor cells which support IgM and IgG subclass but not IgA responses

In the present study, we have isolated and characterized the Lyt-1+, -2- T contrasuppressor (Tcs) cells from mice systemically primed with SRBC. Adoptive transfer of splenic Tcs cells from these mice abrogates oral tolerance and supports IgM and IgG anti-SRBC plaque-forming cell (PFC) responses; however, unlike the responses seen after transfer of Tcs cells derived from orally primed mice, low IgA responses were seen. Mice systemically primed with lower SRBC doses (0.01 to 1%) exhibited contrasuppression only within the L3T4- T cell subset, whereas mice primed with a high dose of SRBC (10%), harbored Lyt-1+, -2- Tcs cells in both the L3T4+ and L3T4- subsets. Both the L3T4- and L3T4+ Tcs cell subsets supported IgM and IgG responses when adoptively transferred to orally tolerized mice, and when added to tolerized spleen cell cultures. Splenic Tcs cells from systemically primed mice supported mainly IgG1 and IgG2b subclass anti-SRBC PFC responses, a pattern also seen with Tcs cells derived from orally primed mice. Both L3T4+ and L3T4- Tcs cells from systemically primed mice exhibited well established characteristics of contrasuppressor cells including binding to Vicia villosa lectin and expression of I-J. The splenic effector Tcs cells which support IgM, IgG1 and IgG2b anti-SRBC PFC responses are antigen-specific, since both L3T4- and L3T4+ Tcs cells from spleens of mice primed with 10% SRBC reverse tolerance to SRBC, but not to horse erythrocytes (HRBC). Further, both L3T4- and L3T4+ Tcs cells from HRBC-primed mice reverse tolerance to IgM and IgG anti-HRBC, but not to anti-SRBC responses. Isolation of T3-positive Lyt-1+, -2- and L3T4- Tcs cell subsets by flow cytometry followed by adoptive transfer, showed that effector Tcs cells express T3 and presumably contain an Ag-R (TCR-T3 complex). These studies show that systemic priming with heterologous RBC induces splenic Ag specific Tcs cells in a dose-dependent manner, which support IgM and IgG subclass responses, but not IgA responses.     

Antigen-specific B cells are required as APCs and autoantibody-producing cells for induction of severe autoimmune arthritis

B cells play an important role in rheumatoid arthritis, but whether they are required as autoantibody-producing cells as well as APCs has not been determined. We assessed B cell autoantibody and APC functions in a murine model of autoimmune arthritis, proteoglycan (PG)-induced arthritis, using both B cell-deficient mice and Ig-deficient mice (mIgM) mice that express an H chain transgene encoding for membrane-bound, but not secreted, IgM. The IgH transgene, when paired with endogenous lambda L chain, recognizes the hapten 4-hydroxy-3-nitro-phenyl acetyl and is expressed on 1-4% of B cells. B cell-deficient and mIgM mice do not develop arthritis after immunization with PG. In adoptive transfer of PG-induced arthritis into SCID mice, T cells from mIgM mice immunized with PG were unable to transfer disease even when B cells from PG-immunized wild-type mice were provided, suggesting that the T cells were not adequately primed and that Ag-specific B cells may be required. In fact, when PG was directly targeted to the B cell Ig receptor through a conjugate of 4-hydroxy-3-nitrophenyl acetyl-PG, T cells in mIgM mice were activated and competent to transfer arthritis. Such T cells caused mild arthritis in the absence of autoantibody, demonstrating a direct pathogenic role for T cells activated by Ag-specific B cells. Transfer of arthritic serum alone induced only mild and transient arthritis. However, both autoreactive T cells and autoantibody are required to cause severe arthritis, indicating that both B cell-mediated effector pathways contribute synergistically to autoimmune disease.     

Negative selection by IgM superantigen defines a B cell central tolerance compartment and reveals mutations allowing escape

To analyze B lymphocyte central tolerance in a polyclonal immune system, mice were engineered to express a superantigen reactive to IgM of allotype b (IgM(b)). IgM(b/b) mice carrying superantigen were severely B cell lymphopenic, but small numbers of B cells matured. Their sera contained low levels of IgG and occasionally high levels of IgA. In bone marrow, immature B cells were normal in number, but internalized IgM and had a unique gene expression profile, compared with those expressing high levels of surface IgM, including elevated recombinase activator gene expression. A comparable B cell population was defined in wild-type bone marrows, with an abundance suggesting that at steady state ～20% of normal developing B cells are constantly encountering autoantigens in situ. In superantigen-expressing mice, as well as in mice carrying the 3H9 anti-DNA IgH transgene, or 3H9 H along with mutation in the murine κ-deleting element RS, IgM internalization was correlated with CD19 downmodulation. CD19(low) bone marrow cells from 3H9;RS(-/-) mice were enriched in L chains that promote DNA binding. Our results suggest that central tolerance and attendant L chain receptor editing affect a large fraction of normal developing B cells. IgH(a/b) mice carrying the superantigen had a ～50% loss in follicular B cell numbers, suggesting that escape from central tolerance by receptor editing from one IgH allele to another was not a major mechanism. IgM(b) superantigen hosts reconstituted with experimental bone marrow were demonstrated to be useful in revealing pathways involved in central tolerance.     

Effect of antigen priming on T-cell suppression. I. Activity of Ly 1+2+ feedback suppressor T-cell precursors after isolation from competing Ly 2-T cells

Previous experiments have demonstrated that feedback suppression of murine antibody responses occurs in vitro after exposure of unprimed T-cell subsets to suppression-inducing signals from primed cells, resulting in suppression of primary and secondary IgM as well as IgG anti-SRBC responses. However, following priming with antigen when cells appear which are capable of inducing feedback suppression, the ability of unfractionated splenic T-cell populations to mediate detectable feedback suppression in vitro rapidly disappears, suggesting that priming alters the expression of feedback suppression at the same time as providing for its induction. In the present study, we have succeeded in isolating active feedback suppressor T-cell precursors (preTs) in the Ly 1+2+ and L3T4- T-cell populations from SRBC-primed as well as from unprimed mice, demonstrating that preTs are not lost after priming. The preTs isolated from primed mice resemble those isolated from unprimed mice in Ly and L3T4 phenotype, cell dose requirements, kinetics, level of suppression, and requirement for in vitro activation by primed cells. These results imply that antigen priming neither significantly depresses nor enhances the ability of Ly 1+2+ preTs to participate in feedback suppression and that activated suppressor effector cells are not detectable in the Ly 1+2+ splenic T-cell subset. Priming does, however, induce an enhancing activity in Ly 2-, L3T4+ T cells which appears to compete with feedback suppression and thus may account for the absence of detectable feedback suppression when unfractionated T cells from primed mice are the only source of preTs.     

Selective suppression by auto-anti-idiotypic antibody of B-cell idiotype repertoires generated after stimulation with the same hapten on T-dependent and T-independent carriers

In the present study, we investigated whether auto-anti-idiotypic antibody in the immune sera from old mice could recognize antitrinitrophenyl (TNP) plaque-forming cells (PFC) generated after stimulation with the T-dependent and T-independent forms of the hapten, TNP. Young and old C57BL/6J male mice were immunized with a variety of T-dependent (TNP-bovine gamma-globulin, TNP-BGG; TNP-keyhole Limpet hemocyanin, TNP-KLH; ovalbumin, OVA; bovine serum albumin, BSA; BGG) and T-independent (TNP-Brucella abortus, TNP-BA; TBP-Ficoll; TNP-polyacrylamide beads, TNP-PAA) antigens either in complete Freund's adjuvant (CFA) or in soluble form. Splenic anti-TNP or antiprotein PFC responses were assayed for anti-idiotype-blocked, hapten- or protein-augmentable IgM, IgG and IgA PFC, 1-2 weeks after immunization. It was found that 8-month-old mice produced significantly a higher percentage of hapten augmentable (26-42%) IgM PFC response to T-independent antigens as compared with the 2-month-old mice (3-6% augmentation). Similarly, old mice produced a significantly higher percentage of hapten or protein augmentable (25-129%) IgG PFC response to T-dependent antigens as compared with the 2-month-old group (2-6% augmentation). The data support the view that age-related regulation of auto-anti-idiotypic antibody is a general phenomenon for immune responses to T-dependent and T-independent antigens. Hapten-reversible inhibition of plaque formation was used to determine whether anti-idiotypic antibody containing antisera from old mice could inhibit B-cell idiotype repertoires generated after stimulation with the same hapten, TNP, on T-dependent and T-independent carriers. Pools of immune sera from 8-month-old mice primed with T-dependent TNP-BGG or TNP-KLH antigens but not with T-independent TNP-PAA or TNP-BA antigens, or with the proteins OVA, BSA, or BGG selectively inhibited IgM, IgG, and IgA anti-TNP PFC from 2-month-old mice that were previously primed with either TNP-BGG or TNP-KLH. In contrast, immune sera from old mice primed with TNP on either T-dependent or T-independent carriers inhibited anti-TNP PFC from mice primed with T-independent TNP-PAA or TNP-BA antigens. Immune sera from old mice primed with OVA or BSA only inhibited the respective antiprotein PFC. The immune sera from young mice did not show any appreciable inhibition of PFC generated after stimulation by any of the antigens studied.(ABSTRACT TRUNCATED AT 400 WORDS)     

Functional differentiation in the genetic control of murine T lymphocyte responses to human fibrinopeptide B

The ability to generate proliferative and helper T lymphocyte responses in mice was compared by using the 14 amino acid peptide, human fibrinopeptide B (hFPB). Lymph node or peritoneal exudate T cells from mice immunized with hFPB were assessed for in vitro proliferation to soluble hFPB as determined by the uptake of 3H-thymidine. The T cell proliferative response to hFPB was found to be under MHC-linked Ir gene control; mice possessing the H-2a,k haplotypes were responders, whereas H-2b,d,q,s mice were nonresponders. The influence of non-H-2 genes on these responses was not investigated, so exclusive regulation by H-2 is provisional. The absence of a detectable lymph node and peritoneal exudate T cell proliferative response persisted in H-2b,d,q,s mice after immunization and boosting with several doses of hFPB. In addition, the capacity to produce a T cell proliferative response was inherited in an autosomal dominant manner and gene(s) controlling responsiveness to hFPB mapped to the I-A subregion of the H-2 complex. To measure peptide-specific helper T cell activity, an in vitro microculture assay in which hFPB-primed lymph node T cells and normal spleen B cells and macrophages were used was developed measuring anti-fluorescein isothiocyanate (FITC) IgM and IgG plaque-forming cell (PFC) responses after culture with FITC-conjugated peptide. Immunization of B10.BR, C57BL/10, B10.D2, and B6AF mice with hFPB primed for significant helper T cell activity as assessed by the ability to augment a primary in vitro IgM response to FITC. The normal B cell IgM responses were completely dependent on hFPB-primed T cells and required that hapten (FITC) and carrier (peptide) be linked. In addition, immunization with FITC-conjugated peptide elicited positive in vivo PFC responses to FITC in B10.BR and C57BL/10 mice, indicating similar genetic control of helper activity in both the intact animals and the in vitro microcultures. Thus, B10.BR mice show both T help and T proliferative responses to hFPB, whereas C57BL/10 mice show only T help and no T proliferative responses. In contrast to B10.BR mice, C3H and CBA mice immunized with hFPB were completely unresponsive when assayed for helper T cell activity in vitro despite their ability to generate positive lymph node T cell proliferative responses. These results indicate responsiveness to hFPB by T helper and proliferating cells is different and is under separate genetic control.     

Studies on primed precursors of effector T cells involved in delayed-type hypersensitivity to sheep red blood cells in mice

The nature of primed precursor T cells (primed pre-TD), capable of differentiating into effector T cells (TD) that mediate delayed-type hypersensitivity (DTH), was investigated in B10 mice which were primed by intravenous (iv) injection of various doses of sheep red blood cells (SRBC). The presence of primed pre-TD was detected by the ability of T cells in the spleens from primed mice, which were treated in vitro with pertussis toxin and then transferred into naive recipient mice, to generate DTH in the recipient mice 14 days after transfer. The primed pre-TD were induced antigen specifically 1 day after mice were primed by iv injection of a suboptimal (10(3)), an optimal (10(5)), or supraoptimal (10(9)) dose of SRBC. They were replaced by TD 4 days after priming in optimally sensitized mice, while they were maintained without generating TD for at least 5 weeks after priming in mice primed with either a suboptimal or a supraoptimal dose of SRBC. They were L3T4-positive and dense cells, fractionated in the high-density layers on a discontinuous Percoll density gradient, and capable of transforming into less dense TD, fractionated in the low-density layers. These results indicate that primed pre-TD, which are induced by an antigen signal and then can be activated by a nonspecific stimulus, are present not only in responsive mice but also in unresponsive mice, suggesting that either the generation of TD from primed pre-TD or primed pre-TD alone is the decisive factor for either responsiveness or unresponsiveness.     

Cutting edge: the spirochetemia of murine relapsing fever is cleared by complement-independent bactericidal antibodies.

Abs are the major effectors of host defense against infections with BORRELIA: Bactericidal murine mAbs and their Fabs destroy B. burgdorferi, the agent of Lyme disease, and relapsing fever Borrelia in the absence of complement. These in vitro observations led to the expansion of a search for functionally similar Abs in vivo. In this study, we demonstrate that functionally unique IgM Abs develop in vivo and are responsible for the elimination of spirochetemia in murine models of relapsing fever, without the assistance of complement. Mice deficient in the fifth or third component of complement can clear the spirochetemia, whereas B cell-deficient mice cannot. The B cell-deficient mice developed spirochetemia that was an order of magnitude higher and persisted for a longer period of time in comparison to the wild-type mice. Additionally, B cell-deficient mice passively immunized with immune IgM and with immune serum were protected from challenge.     

Ontogeny of B cells expressing IgM in embryonic and larval tissues of the American grass frog, Rana pipiens

Affinity-purified, fluorochrome-tagged F(ab')(2) antibody fragments specific for heavy (mu) chains of Rana pipiens IgM were prepared from hyperimmune rabbit sera. By using two-color immunofluorescent procedures we observed that (1) the first cells expressing IgM, termed pre-B cells, lack detectable quantities of membrane or surface IgM but contain detectable quantities of cytoplasmic IgM (smu(-)/cmu(+)), (2) sIgM(+) B cells were the second type of IgM containing cell to appear in development, and (3) plasma cells, which contain copious quantities of cIgM, were the final phenotype to appear in the development of B cells expressing IgM. These cells were first observed in the pronephros of the developing urogenital system. Shortly after their appearance in the pronephros, cells in B lineages were observed in the liver. These observations (1) are consistent with recent studies of B lymphopoiesis in the aorta-gonad-mesonephros (AGM) region in endothermic vertebrates, including mice, (2) suggest that there are fundamental ontogenetic and phylogenetic similarities between cells and tissues of developing vertebrate immune systems, and (3) evoke questions concerning the possible function(s) of lymphocytes in developing anurans up to metamorphosis and beyond.     

Carrier-specific immune memory to a thymus-independent antigen in congenitally athymic mice.

Immune memory to the DNP epitope coupled to a nonmitogenic thymus-independent carrier, Ficoll, was demonstrated in congenitally athymic outbred Swiss mice. Strong IgM and modest IgG components of this memory were detected. Moreover, this memory was carrier specific since it was elicitable only when DNP-Ficoll primed mice were challenged with DNP-Ficoll and not when similarly primed mice were challenged with DNP coupled to pneumococcal polysaccharide or to keyhole limpet hemocyanin. Ficoll primed mice also demonstrated a memory response when challenged with DNP-Ficoll. These findings indicate that a non-T cell, presumably a B cell, is capable of recognizing the carrier epitopes of this thymus-independent hapten-carrier complex. Unlike their athymic counterparts, euthymic mice of the same genetic background failed to demonstrate the IgM component of this memory, but they did demonstrate modest carrier-specific IgG memory. These results strongly suggest that suppressor T cells are either directly or indirectly important in regulating the IgM memory response of these mice to DNP-Ficoll. Indirect regulation could possibly occur via an antibody-mediated specific immune suppression mechanism.     

Infection-induced marginal zone B cell production of Borrelia hermsii-specific antibody is impaired in the absence of CD1d

Ab that arise in the absence of T cell help are a critical host defense against infection with the spirochetes Borrelia burgdorferi and Borrelia hermsii. We have previously shown that CD1d-deficient (CD1d(-/-)) mice have impaired resistance to infection with B. burgdorferi. In mice, CD1d expression is highest on marginal zone B (MZB) cells, which produce Ab to blood-borne Ag. In this study we examined MZB cell activation and Ab production in mice infected with B. hermsii, which achieve high levels of bacteremia. We show by flow cytometry that MZB cells associate with B. hermsii and up-regulate the activation markers syndecan I and B7.1 within 16 h of infection. By 24 h, MZB cells secrete B. hermsii-specific IgM, coinciding with the loss of activation marker expression and the reduction in spirochete burden. In contrast, MZB cells from CD1d(-/-) mice remain activated for at least 96 h of infection, but produce only minimal B. hermsii-specific IgM in vivo and ex vivo; pathogen burden in the blood also remains elevated. Wild-type mice depleted of MZB cells using mAb to LFA-1 and alpha(4)beta(1) integrin have reduced serum levels of B. hermsii-specific IgM and increased pathogen burden, similar to B. hermsii-infected CD1d(-/-) mice. Passive transfer of immune mouse serum, but not naive mouse serum, into infected CD1d(-/-) mice leads to down-regulation of activation markers and clearance of B. hermsii from the MZB cells. These results demonstrate that blood-borne spirochetes activate MZB cells to produce pathogen-specific IgM and reveal a role for CD1d in this process.     

Keyhole limpet hemocyanin-propagated Peyer's patch T cell clones that help IgA responses

Four T cell clones, isolated from Peyer's patches of keyhole limpet hemocyanin (KLH)-primed BALB/c mice, were selected on the basis of their ability to help IgA responses by TNP-KLH-primed BALB/c mouse B cells. Two were KLH-dependent both in terms of their own proliferative response and in terms of their help for that of B cells. The other two were autoreactive and helped B cells proliferate independently of the presence of Ag. Both primed and unprimed B cells proliferated to some extent when helped by the KLH-reactive clones in the presence of high concentrations of either KLH or TNP-KLH. Much higher proliferation was, however, induced when primed, but not unprimed, B cells were exposed to the T cells in the presence of low concentrations of TNP-KLH but not KLH, i.e., under conditions favoring direct, cognate interaction between the T and B cells. Only modest IgM, and no IgG or IgA plaque-forming cell (PFC) responses were generated by TNP-primed B cells upon interaction with either autoreactive T cells in the absence of Ag or KLH-reactive T cells in the presence of high concentrations of KLH. For high IgM responses as well as for the appearance of IgG and IgA PFC responses, TNP-KLH was required whatever the source of the T cell help. The isotype ratios depended on the TNP-KLH concentration; IgA responses were highest and IgM responses lowest at the lowest TNP-KLH concentrations suggesting that the precursors of the IgA PFC have higher average affinity for TNP than the precursors of IgM PFC. Overall, the results are compatible with the idea that the precursors of IgA and IgG PFC and many of the precursors of IgM PFC in the long term primed B cell populations used in these experiments require engagement of their Ag-receptors before they express sufficient class II Ag and/or receptors for "switch" and differentiation factors for cognate interaction with T cells leading to PFC responses.     

Time-dependent mode of immunization augments suppressed antibody responses in spleen cell cultures from mice experimentally infected with Trypanosoma cruzi

Mice infected with Trypanosoma cruzi develop immunosuppressed responses to heterologous antigens. Experiments were performed using infected mice in the acute stage of infection to assess immunoregulatory activities during induction of direct plaque-forming cells (DPFC) to sheep erythrocytes (SRBC). After normal or infected mice were primed with SRBC, their spleen cells were restimulated 4 days later with SRBC in Mishell-Dutton cultures and found to mount hyperaugmented IgM anti-SRBC responses. It was also demonstrated that T-cells derived from normal mice primed in vivo 4 days previously with SRBC, and subsequently added to cultures of spleen cells from T. cruzi-infected mice, enhanced anti-SRBC DPFC responses in a dose-dependent fashion. These results show that functional help provided by T-cells activated during an in vivo priming and exposed to an in vitro challenge dose of antigen (SRBC) in a time-dependent mode can overcome the effect of immunosuppression in the spleen cell cultures from T. cruzi-infected mice.     

In vitro activation of specific helper and suppressor T cells by the type 2 antigen polyvinylpyrrolidone (PVP)

Although type 2 antigens, such as PVP, generally do not activate specific TH, previous studies have established that low doses of PVP (0.0025 microgram) can activate TH in vivo which provide help in primed B cells for PVP-specific IgG responses. Doses of PVP that are optimally immunogenic for IgM antibody production (0.25 to 25 micrograms) preferentially activate PVP-specific TS, which suppress IgG antibody production. In the studies reported here, TH and TS that regulate PVP-specific IgG antibody responses were activated in vitro by culturing normal spleen cells for 4 days with PVP. Induction of the TH and TS is dependent upon the amount of PVP in culture: 10(-4) micrograms PVP activates TH, whereas 10(-2) micrograms PVP preferentially activates TS. TH induced in vitro express Thy-1, L3T4, and I-A determinants and help provided by these TH is similar in magnitude to that provided by TH from mice primed with 0.0025 microgram PVP in vivo. TH can also be activated in vitro if donor mice are treated with Cy before culture of their spleen cells with 10(-2) micrograms PVP. Cy pretreatment prevents TS activation, and TH are then induced in these cultures. The presence of TS does not prevent activation of TH by 10(-2) micrograms PVP, because removal of TS by treatment of T cells with anti-Lyt-2 + complement at the end of culture uncovers TH activity. This TH activity is comparable with that of TH obtained after culture with 10(-4) micrograms PVP. The ability to activate PVP-specific TH and TS in vitro should allow determination of the mechanisms involved in activation of T cells by type 2 antigens and the mechanisms by which TS and TH interact with one another.     

Natural IgM anti-leukocyte autoantibodies attenuate excess inflammation mediated by innate and adaptive immune mechanisms involving Th-17

Little is known about the function of natural IgM autoantibodies, especially that of IgM anti-leukocyte autoantibodies (IgM-ALA). Natural IgM-ALA are present at birth and characteristically increase during inflammatory and infective conditions. Our prior clinical observations and those of other investigators showing fewer rejections in renal and cardiac allografts transplanted into recipients with high levels of IgM-ALA led us to investigate whether IgM-ALA regulate the inflammatory response. In this article, we show that IgM, in physiologic doses, inhibit proinflammatory cells from proliferating and producing IFN-γ and IL-17 in response to alloantigens (MLR), anti-CD3, and the glycolipid α-galactosyl ceramide. We showed in an IgM knockout murine model, with intact B cells and regulatory T cells, that there was more severe inflammation and loss of function in the absence of IgM after renal ischemia reperfusion injury and cardiac allograft rejection. Replenishing IgM in IgM knockout mice or increasing the levels of IgM-ALA in wild-type B6 mice significantly attenuated the inflammation in both of these inflammatory models that involve IFN-γ and IL-17. The protective effect on renal ischemia reperfusion injury was not observed using IgM preadsorbed with leukocytes to remove IgM-ALA. We provide data to show that the anti-inflammatory effect of IgM is mediated, in part, by inhibiting TLR-4-induced NF-κB translocation into the nucleus and inhibiting differentiation of activated T cells into Th-1 and Th-17 cells. These observations highlight the importance of IgM-ALA in regulating excess inflammation mediated by both innate and adaptive immune mechanisms and where the inflammatory response involves Th-17 cells that are not effectively regulated by regulatory T cells.     

Ala-1: murine alloantigen of activated lymphocytes. II. T and B effector cells express ala-1.

Ala-1 (activated lymphocyte antigen-1) is a murine alloantigen expressed only on activated peripheral T and B lymphocytes. The presence or absence of Ala-1 on specific functional lymphocyte subsets was determined by treating the relevant cell population with anti-Ala-1 and complement, and assaying for residual functional activity. By this method, Ala-1 was shown to be on in vivo primed killer T cells cytotoxic for allogeneic tumor cells. It was also found on helper T cells generated in vivo to sheep red blood cells, and on IgM and IgG plaque-forming cells (PFC) to sheep red blood cells. In contrast, splenic precursors of helper cells and of IgM PFC to sheep red blood cells were completely resistant to treatment with anti-Ala-1 and complement. These findings indicate that effector cells can be distinguished from their nonactivated precursors by their expression of Ala-1.     

Regulation of IgG responses by helper and suppressor T cells activated by pneumococcal capsular polysaccharides

Type 2 antigens are usually unable to prime the helper T cells (TH) required for secondary IgG antibody responses. However, previous results from this laboratory indicated that low doses of the type 2 antigen polyvinylpyrrolidone (PVP) could activate T cells which provided help to PVP-primed B cells for the production of PVP-specific IgG antibody. Therefore, it was of interest to determine if other type 2 antigens may also be able to activate TH. Low doses of S19 or S3 (subimmunogenic for a primary IgM response) activated TH capable of providing help to S19- or S3-CRBC-primed B cells for a secondary IgG response. Higher doses of these antigens (optimally immunogenic for a primary IgM response) activated suppressor T cells (TS). Removal of these TS prior to transfer of T cells to recipient mice resulted in expression of TH function. Therefore, the preferential activation of TH versus TS was dependent on the dose of antigen used for priming. TH activated by low doses of S19 expressed Thy 1 and L3T4 and were antigen specific. In contrast to the ability of low doses of PVP to prime B cells for secondary IgG responses, low doses of S3 and S19 did not prime capsular polysaccharide-specific IgG memory B cells. High doses of S3 were able to prime B cells if TS precursors were first removed by treatment of mice with cyclophosphamide (Cy), whereas high doses of S19 did not prime B cells for secondary IgG responses in either Cy-treated or control mice. These results are discussed in relation to the general observations that type 2 antigens may not activate antigen-specific TH.     

Hepatitis B Virus Core Antigen Binds and Activates Naive Human B Cells In Vivo: Studies with a Human PBL-NOD/SCID Mouse Model

The hepatitis B virus (HBV) core (HBc) antigen (HBcAg) is a highly immunogenic subviral particle. Studies with mice have shown that HBcAg can bind and activate B cells in a T-cell-independent fashion. By using a human peripheral blood leukocyte (hu-PBL)-Nod/LtSz-Prkdc(scid)/Prkdc(scid) (NOD/SCID) mouse model, we show here that HBcAg also activates human B cells in vivo in a T-cell-independent way. HBcAg was capable of inducing the secretion of HBcAg-binding human immunoglobulin M (IgM) in naive human B cells derived from adult human and neonatal (cord blood) donors when these hu-PBL were transferred directly into the spleens of optimally conditioned NOD/SCID mice. No such responses were found in chimeric mice that were given hu-PBL plus HBV e antigen or hu-PBL plus phosphate-buffered saline. In addition, HBcAg activated purified human B cells to produce anti-HBc IgM in the chimeric mice, thus providing evidence that HBcAg behaves as a T-cell-independent antigen in humans. However, HBcAg-activated hu-PBL from naive donors were unable to switch from IgM to IgG production, even after a booster dose of HBcAg. Production of HBcAg-specific IgG could only be induced when hu-PBL from subjects who had recovered from or had an ongoing chronic HBV infection were transferred into NOD/SCID mice. Our data suggest that humans also have a population of naive B cells that can bind HBcAg and is subsequently activated to produce HBcAg-binding IgM.