Isotype restriction during infection of mice with the cestode Mesocestoides corti: role of immune suppression

Mice infected with the parasite Mesocestoides corti produce a vigorous antibody response that is restricted to the IgM and IgG1 heavy chain classes. The isotypic restriction observed is apparently associated with active infection and is not a unique characteristic of responses to M. corti antigens. Thus, animals immunized with intact but nonviable parasites respond with the production of a variety of antibody isotypes in addition to IgM and IgG1. To delineate immunoregulatory mechanisms involved in the isotypic restriction of antibody responses to M. corti, an in vitro lymphocyte suspension culture was established. The data indicate that there are two cell subsets in the spleens of infected mice that contribute to an overall suppression of the in vitro antibody response. Thus, both Lyt-2+ cells and G-10-adherent cells must be removed to maximize antibody production. However, the anti-parasite response obtained in vitro after depletion of Lyt-2+ cells and G-10-adherent cells is restricted to the IgM and IgG1 isotypes as observed in vivo, indicating that suppression is not actively involved in the IgM, IgG1 dominance of the response. The cellular regulation associated with this restriction was then studied by using isolated helper T cells derived from parasite-infected animals to stimulate B cells from uninfected animals. The antibody produced was again restricted to IgM and IgG1, indicating that the helper T cells were regulating the preferential expression of the IgM and IgG1 antibody classes.     

The use of specific helper T cell clones to study the regulation of isotype expression by antigen-stimulated B cell clones

In order to determine the mechanism by which helper T cells regulate the production of the various immunoglobulin (Ig) classes, a number of helper T cell clones specific for keyhole limpet hemocyanin (KLH) were generated. These helper T cell clones then were used in a modified splenic fragment system whereby cloned helper T cells and a source of B cells were limit-diluted into naive, lethally irradiated recipients. The B cell clones that were subsequently stimulated in such an assay system by the addition of the antigen 2,4-dinitrophenol (DNP)-KLH then were tested for the various isotypes produced. The results of these studies indicate that the use of a single helper T cell clone could result in the production of all known Ig isotypes including IgE. Moreover, the use of a single helper T cell clone could result in multiple isotype production by a single B cell clone. However, a comparison of the isotypes secreted by a number of different B cell clones that were stimulated with the same helper T cell clone indicated that a variety of isotypic patterns could be obtained. In addition, it was found that the majority of B cell clones produced in the presence of T cell clones secrete fewer numbers of different isotypes compared with B cell clones generated with a heterogeneous population of T cells. Finally, no evidence could be found for isotype-specific helper T cell clones, although a few of the T cell clones appeared to induce a somewhat restricted isotype pattern in which only two or three different isotypes were observed.     

The isotype potential of B cells present in BALB/c mice chronically infected with Mesocestoides corti

Infection of BALB/c mice with Mesocestoides corti results in a chronic infection with a pronounced splenomegaly and hypergammaglobulinemia. A prominent feature of this infection is that the vast majority of serum immunoglobulin produced is restricted to IgG1 and IgM. As much as 30-fold increases in serum IgG1 levels have been noted. To ascertain whether, as a result of infection, the resident B cell pool is committed to IgG1, B cells from infected animals were tested for their ability to produce various isotypes after stimulation. In one series of experiments, B cells from normal and infected animals were used as donor cells in the splenic fragment assay. The results show that the frequency of 2,4-dinitrophenyl-specific and phosphorylcholine-specific B cells remains unaltered in infected animals compared to controls. Importantly, the hapten-specific B cell clones induced were found to express multiple isotypes. These results demonstrate that the nonactivated B cell pool in spleens of infected mice is not committed to IgG1 and IgM production.     

Generation and characterization of cloned T helper cell lines for anti-DNA responses in NZB.H-2bm12 mice.

We have previously demonstrated that the introduction of the bm12 mutation into NZB mice results in animals that spontaneously produce high titer IgG autoantibodies to dsDNA. The observation that NZB.H-2bm12 develop lupus although NZB.H-2b control mice do not, provides a unique system to study the role of Th cells in the production of antibodies to dsDNA. We have isolated, in the absence of a known stimulating autoantigen, a series of seven autoreactive T cell clones that provide help in vitro for the production of IgG anti-dsDNA antibodies by syngeneic B cells. The data on these seven cloned T cell lines was compared to two cloned T cell lines specific for keyhole limpet hemocyanin. The seven cloned T cell lines, coined clones 19D, 23G, 410F, 410H, C1, C15, and C52 all show significant help in vitro for production of IgM and IgG antibodies to ssDNA and dsDNA; antibody levels increased 7- to 30-fold compared to cultures without T cells. Clones C1, C15, and C52 were furthered studied and were shown to provide help for IgM antihistone and anti-OVA responses but provided significantly less help for IgG antibodies. In contrast, keyhole limpet hemocyanin-specific cloned T cell lines TK2 and TK5 provided help for IgM antibodies to ssDNA, dsDNA, and histone, but failed to significantly increase IgG antibodies to ssDNA, dsDNA, or histone. The cloned T cell lines were restricted to H-2bm12 and proliferated only in response to APC from NZB.H-2bm12 and B6.C-H-2bm12 but not NZB.H-2b or NZB.H-2d mice; their in vitro helper activity was inhibited by antibodies to class II. All cloned T cell lines expressed Thy-1, CD5, and TCR-alpha/beta. Three of the seven clones used TCR-V beta 4. However, the V beta expression of the four remaining autoreactive T cell clones could not be determined. All of the autoreactive cloned T cell lines produce significant IL-4 but no detectable IL-2 or IFN-gamma. We believe that HPLC-purified peptides eluted from I-Abm12 molecules from APC can potentially provide insight on the putative autoantigen.     

Induction of IgG and IgE synthesis in normal B cells by autoreactive T cell clones

During the course of generating tetanus toxoid (TT)-specific T cell clones frm an HLA-DR2,7 donor, four clones were obtained which proliferated in the presence of autologous monocytes alone without the addition of TT antigen. This proliferation was specifically inhibited by anti-HLA-DR framework mouse monoclonal antibody, and appeared to be HLA-DR-restricted. Two of the clones proliferated in response to HLA-DR2-bearing monocytes, and the other two clones proliferated in response to HLA-DR7-bearing monocytes. The capacity of these four autoreactive human T cell helper clones to induce IgE synthesis in B cells was studied. All four clones stimulated autologous peripheral blood B cells to synthesize IgE and IgG antibody. Induction of IgE synthesis in B cells by the autoreactive T cell clones followed the same pattern of HLA-DR restriction which governed the proliferative response of these clones. These results suggest that the interaction of autoreactive helper T cells with B cell HLA-DR antigens may be important in the activation of IgE immune responses in humans.     

Class-specific regulation of anti-DNA antibody synthesis and the age-associated changes in (NZB x NZW)F1 hybrid mice

Investigations of regulatory helper and suppressor T cells in the in vitro anti-DNA antibody synthesis in NZB x NZW (B/W) F1 hybrid mice were initiated by the development of an in vitro system in which G10-passed B cells from B/W F1 mice were cocultured with mitomycin C-treated T cells in the presence of Con A and either in the presence or in the absence of LPS. It was revealed that each IgG and IgM anti-DNA antibody synthesis was under the regulation of separate L3T4+ helper and Ly-2+ suppressor T cells. The function of these class-specific regulatory T cells was age-dependent. Although the helper effect of L3T4+ T cells on IgG antibody synthesis increased, the effect of L3T4+ T cells on IgM antibody production decreased in B/W F1 mice with aging. The IgG anti-DNA antibody production in the cocultures of L3T4+ T cells and B cells was suppressed by addition of Ly-2+ T cells from young but not aged B/W F1 mice, whereas the production of IgM anti-DNA antibodies was suppressed by Ly-2+ T cells from aged but not young B/W F1 mice. We also found that although IgM anti-DNA antibody-producing B cells were already present in 2-mo-old mice, B cells producing IgG antibodies under the influence of L3T4+ T cells appeared in mice at 7 mo of age. These data clearly indicate that separate class-specific regulatory T cells are involved in the production of IgM and IgG anti-DNA antibodies and that the total serum level of the antibodies is reflected by both their age-associated changes and the generation of antibody-forming B cells in B/W F1 mice.     

Restriction in IgM expression. III. Affinity analysis of monoclonal anti-lactose antibodies

A clonal analysis has been made of the murine BALB/C response to lactose-containing immunogens with respect to the affinity restriction in IgM expression. Monoclonal IgM and IgG antibodies were prepared from antilactosyl hybridomas generated from mice immunized with p-aminophenyl-beta-lactoside (PAPL) coupled to BGG or with a vaccine of Streptococcus faecalis (Strain N). Association constants for the binding of monovalent derivatives of PAPL were measured by quenching fluorescence. These derivatives carried a probe (2,4-dinitrophenyl or 1-dimethylaminonaphthalene-5-sulfonyl) that served to quench the protein fluorescence when the ligand was complexed with the protein. The central finding was that with both immunogens a restriction in the affinity of IgM was demonstrated since the highest values exhibited by IgG antibody exceeded by at least a factor of 50 the highest comparable values of the association constants for IgM antibody. It is suggested that the hypothesis of germ-line restriction, previously proposed as the basis for the affinity restriction of IgM, may also be applicable to the T cell receptor since its distinctive properties parallel those of IgM antibody.     

Induction of antigen-specific antibody responses in primed and unprimed B cells. Functional heterogeneity among Th1 and Th2 T cell clones

CD4+ T cells have been recently divided into two subsets. The functions of these subsets are thought to be distinct: one subset (Th1) is responsible for delayed type hypersensitivity responses and another (Th2) is primarily responsible for induction of antibody synthesis. To more precisely define the roles of both subsets in humoral immune responses, we examined the ability of a panel of nominal antigen specific Th1 and Th2 clones to induce anti-TNP specific antibody synthesis in TNP-primed or unprimed B cells. Four of nine Th1 clones induced little or no antibody synthesis with TNP-primed B cells. However, five other Th1 clones were very effective at inducing IgG anti-TNP plaque-forming cell (PFC) responses in primed B cells. One of these Th1 clones was analysed in detail and found to also provide helper function for unprimed B cells. Cognate B-T cell interaction was required for induction of both primary and secondary responses with this clone, indicating that a Th1 clone could function as a "classical" Th cell. The seven IL-4 producing Th2 clones examined were also heterogeneous in their ability to induce antibody secretion by TNP-primed B cells. Although four of the Th2 clones induced IgG and IgM anti-TNP PFC responses, two Th2 clones induced only IgM and no IgG antibody, and another clone failed to induce any anti-TNP PFC. All Th2 clones failed to induce any anti-TNP PFC. All Th2 clones produced high levels of IL-4, but "helper" Th2 clones produced significantly greater amounts of IL-5 than "non-helper" Th2 clones. These studies indicate that some IL-2- and some IL-4-producing T cell clones can induce TNP-specific antibody in cell clones can induce TNP-specific antibody in primed and unprimed B cells, and that Th1 and Th2 clones are heterogeneous in their ability to induce Ig synthesis. Therefore, although T cell clones can be classified as Th1 or Th2 types according to patterns of IL-2, IFN-gamma, or IL-4 synthesis, the functional capacity to induce antibody synthesis cannot be predicted solely by their ability to secrete these lymphokines.     

Regulation of T15 idiotype dominance. III. Phosphocholine-specific B-cell activation in vivo requires major histocompatibility complex-restricted T-cell help

We have examined the requirement for major histocompatibility complex (MHC)-restricted T-cell help in the secondary in vivo antibody response to phosphocholine (PC). The memory response to PC has been demonstrated previously to be comprised of T15-dominant IgM and IgG3 plaque-forming cells (PFC) derived primarily from the Lyb-5+ B-cell subset, and IgG1 and IgG2 PFC, few of which bear the T15 idiotype and are predominantly derived from the Lyb-5- B-cell subset. Using carrier-primed (A X B)F1 T cells which have matured in a parentA chimeric environment so that "self" recognition is of the MHC determinants of parentA but not parentB, we have found that parentA PC-primed B cells, but not parentB PC-primed B cells, are activated. Even in the presence of an ongoing parentA anti-PC response, parentB PC-primed B cells were not activated, indicating that the restriction was between the helper T cell and the B cell, not between T-helper and accessory cells. MHC-restricted T-cell help was required by B cells producing T15+ and T15- IgM, IgG3, IgG1, and IgG2 responses.     

Biochemical and functional analysis of extracellular stress proteins of Mesocestoides corti

Previous studies of the serum antibody response in mice to Mesocestoides corti infection indicated that molecules released by the parasite influenced the production of IgM and IgG1 to the exclusion of other isotypes. Two proteins isolated from M. corti culture supernatants were found to be homologous to the 70-kDa heat shock proteins (hsp70) and Escherichia coli GroEL families of stress proteins. The proliferative responses of splenic lymphocytes from infected mice were assessed to unfractionated M. corti supernatants as well as the 70- and 60-kDa stress protein homologs isolated from supernatants. Lymphocytes from infected mice respond to complete supernatant and both of the isolated p70 and p60 stress protein homologs. In addition, supernatant from M. corti cultures stimulates an in vitro antibody response restricted to IgM and IgG1; the same isotypes induced during infection. These results suggest that stress proteins play an integral part in the immune response to M. corti and the associated isotype restriction.     

The action of interleukin-4 on antigen-specific IgG1 and IgE production by interaction of in vivo primed B cells and carrier-specific cloned Th2 cells

The production of anti-trinitrophenyl (TNP) antibodies of different isotypes from in vivo primed B cells was studied using the plaque-forming cell method. It was shown that these B cells secrete anti-trinitrophenyl antibodies of different isotypes only in the presence of Th2 cells specific for keyhole limpet hemocyanin (KLH) and the hapten-carrier conjugate TNP-KLH. Lipopolysaccharide-stimulated primed B cells without cells from the Th2 clone did not produce anti-TNP-specific IgG1 or IgE antibodies even in the presence of the hapten-carrier antigen TNP-KLH. Supernatants from these Th2 clones cultured with antigen-presenting cells and the complete antigen were unable to activate primed B cells for antibody secretion. Cognate interaction between primed B cells and carrier-specific Th2 cells is a prerequisite for hapten-specific IgG1 or IgE production. Anti-IL-4 antibody inhibited secretion of anti-hapten IgE antibody. Therefore, for production of anti-hapten antibody of the IgE isotype IL-4 is also necessary.     

Genetic parameters for natural antibody isotype titers in milk of Dutch Holstein‐Friesians

The objective of the present study was to estimate genetic parameters for natural antibody isotypes immunoglobulin (Ig) A, IgG1 and IgM titers binding the bacterial antigens lipopolysaccharide, peptidoglycan and the model antigen keyhole limpet hemocyanin in Dutch Holstein‐Friesian cows (n = 1695). Further, this study included total natural antibody titers binding the antigens mentioned above, making no isotype distinction, as well as total natural antibody titers and natural antibody isotypes IgA, IgG1 and IgM binding lipoteichoic acid. The study showed that natural antibody isotype titers are heritable, ranging from 0.06 to 0.55, and that these heritabilities were generally higher than heritabilities for total natural antibody titers. Genetic correlations, the combinations of total natural antibody titers and natural antibody isotype titers, were nearly all positive and ranged from ?0.23 to 0.99. Strong genetic correlations were found between IgA and IgM. Genetic correlations were substantially weaker when they involved an IgG1 titer, indicating that IgA and IgM have a common genetic basis, but that the genetic basis for IgG1 differs from that for IgA or IgM. Results from this study indicate that natural antibody isotype titers show the potential for effective genetic selection. Further, natural antibody isotypes may provide a better characterization of different elements of the immune response or immune competence. As such, natural antibody isotypes may enable more effective decisions when breeding programs start to include innate immune parameters.     

Collaboration of Th1 and Th2 T cell clones in specific antibody responses: regulation of the IgM response to phosphorylcholine

Carrier (KLH)-specific type 1 T cell clones (Th1), which are defined by secretion of IL-2 and IFN-gamma but not IL-4, and type 2 (Th2) clones, which secrete IL-4, but not IL-2 or IFN-gamma, have been isolated and analyzed for their ability to collaborate in providing help for B cells to secrete phosphorylcholine-specific IgM antibodies. The resulting antibody responses exhibited a characteristic pattern suggesting two distinct regulatory interactions among the Th1, Th2, and B cells. At low doses of antigen, Th1 cells enhanced the helper function of the Th2 cells, an effect due primarily to IL-2. At high doses of antigen, Th1 cells or IFN-gamma inhibited Th2-dependent antibody responses. The inhibitory effect of Th1 or IFN-gamma affected primarily the hapten-carrier-linked portion of the response. The overall effect was a modulation of the antigen dose-response curve for antibody production, eliminating the sharp increases in dose response mediated by isolated T cell clones. The data suggest that collaborative interactions of Th1 and Th2 cells in antibody production may have important physiological consequences.     

B cell response to T helper cell subsets. II. Both the stage of T cell differentiation and the cytokines secreted determine the extent and nature of helper activity.

Helper activity of several murine CD4+ T cell subsets was examined. Effector Th, derived from naive cells after 4 days of in vitro stimulation with alloantigen, when generated in the presence of IL-4, secreted high levels of IL-4, IL-5, and IL-6, and low levels of IL-2 and IFN-gamma, and induced the secretion of all Ig isotypes particularly IgM, IgG1, IgA, and IgE from resting allogeneic B cells. Effectors generated with IL-6 secreted IL-2, IL-4, IL-5, IL-6, and IFN-gamma, and induced similar levels of total Ig, 25 to 35 micrograms/ml, but with IgM, IgG3, IgG1, and IgG2a isotypes predominating. Helper activity of these Th was significantly greater than that of effectors generated with IL-2 (10-15 micrograms/ml Ig) and of 24-h-activated naive and memory cells (2-4 micrograms/ml), both of which induced mainly IgM. Unlike other isotypes, IgE was induced only by effector Th generated with IL-4. Blocking studies showed that secretion of all isotypes in response to IL-6-primed effectors was dependent on IL-2, IL-5, and IL-6. IL-4 was required for optimal IgM, IgG1, and IgA secretion, but limited secretion of IgG2a, whereas IFN-gamma was required for optimal IgG2a secretion, and limited IgM, IgG1, and IgA. In contrast, secretion of all isotypes in response to IL-4-primed effectors was dependent on IL-5, although IL-4 and IFN-gamma were also essential for IgE and IgG2a, respectively. Addition of exogenous IL-5 to B cell cultures driven by IL-6-primed effectors did not obviate the requirement for IL-2, IL-4, and IL-6, suggesting that interaction of IL-4-primed effectors with B cells was qualitatively different from that of IL-6-primed effectors, driving B cells to a stage requiring only IL-5 for differentiation. Addition of exogenous factors to IL-2-primed effector Th, particularly IL-4 in the presence of anti-IFN-gamma, resulted in levels of Ig, including IgE, comparable to those induced with other effectors. These results show that functionally distinct Th cell subsets can be generated rapidly in vitro, under the influence of distinct cytokines, which vary dramatically in their levels of help for resting B cells. The cytokines involved in responses to distinct Th cells differ depending on the quality of interaction with the B cell, and the extent of help is strongly determined by the quantity and nature of cytokines secreted by the T cells.     

B cell response to fresh and effector T helper cells. Role of cognate T-B interaction and the cytokines IL-2, IL-4, and IL-6

The helper activity of resting T cells and in vitro generated effector T cells and the relative roles of cognate interaction, diffusible cytokines, and non-cognate T-B contact in B cell antibody responses were evaluated in a model in which normal murine CD4+ T cells (Th), activated with alloantigen-bearing APC, were used to support the growth and differentiation of unstimulated allogeneic B cells. Both "fresh" T cells, consisting of memory and naive cells, stimulated for 24 h, and "effector" T cells, derived from naive cells after 4 days of in vitro stimulation, induced the secretion of IgM, IgG3, IgG1, IgG2a, and IgA. Effector T cells were significantly better helpers of the response of small dense B cells, inducing Ig at lower numbers and inducing at optimal numbers 2- to 3-fold more Ig production than fresh T cells. The predominant isotype secreted was IgM. Supernatants derived from fresh T cell cultures contained moderate levels of IL-2, whereas those from effector cultures contained significant levels of IL-6 and IFN-gamma in addition to IL-2. The involvement of soluble factors in the B cell response was demonstrated by the ability of antibodies to the cytokines IL-2, IL-4, and IL-6 to each block Ig secretion. Antibodies to IL-5 and IFN-gamma had no effect on the T cell-induced response. Kinetic studies suggested that IL-4 acted during the initial stages of the response, whereas the inability of anti-IL-6 to block B cell proliferation suggested that IL-6 was involved in part in promoting differentiation of the B cells. The relative contributions of cognate (MHC-restricted) and bystander (MHC-unrestricted) T-B cell contact vs cytokine (non-contact)-mediated responses were assessed in a transwell culture system. The majority of the IgM, IgG3, IgG1, and IgG2a response induced by both fresh and effector T cells was dependent on cognate interaction with small, high density B cells. In contrast, a small proportion of these isotypes and most of the IgA secreted resulted from the action of IL-6 on large, presumably preactivated, B cells. The IgA response did not require cell contact or vary when fresh and effector cells were the helpers. The contribution of bystander contact in the overall antibody response to both T cell populations was minimal.(ABSTRACT TRUNCATED AT 400 WORDS)     

Mechanisms of T and B cell collaboration in the in vitro production of anti-DNA antibodies in the NZB/NZW F1 murine SLE model

B/W mice spontaneously develop IgG antibodies to DNA that cause lethal immune nephritis. T and B cell interactions in the in vitro anti-DNA antibody response of B/W mice were investigated, and two distinct families of helper T cells that drive these responses were defined. First, the anti-DNA antibody-forming cell (AFC) response was found to be increased in B/W mice with nephritis and was inhibited with the monoclonal antibody anti-L3T4, suggesting a major role for helper T cells. Purified splenic T cells from mice with nephritis were able to augment both the IgG and the IgM anti-DNA AFC response of young B/W B cells. T helper cells were cloned from spleens of NZB/W F female mice with high titer anti-DNA antibodies and nephritis. The cloned T cells augmented both IgG and IgM anti-DNA AFC responses of young B/W B cells. Four clones--27.9, 30.7, 30.8, and 30.10--were selected for further study. These cells proliferated, in the context of syngeneic (H2d/z) antigen-presenting cells (APC) but not to allogeneic APC. Analysis of the mechanism of T helper cell clone-mediated augmentation of anti-DNA AFC revealed two populations: "cognate" T helper cells, which specifically augment anti-DNA AFC (30.7 and 30.10), and non-antigen-specific T helper cells (27.9 and 30.8), which augment the response of B cells of differing specificity by a bystander mechanism, probably through increased release of B cell growth and differentiation factors.     

Antigen-specific, MHC-restricted B cell activation by cell-free Th2 cell products. Synergy between antigen-specific helper factors and IL-4

Ag-specific and MHC-restricted Th clones of different Ag specificities and MHC haplotypes were tested for their ability to produce soluble factors capable of providing the signals required for B cell activation and IgG antibody production. Each of five Th clones tested generated significant helper activity in supernatants derived from coculture of the T cell clone with specific Ag and syngeneic APC. The same helper activity was detected in supernatants of clones stimulated with immobilized anti-CD3 antibody in the absence of Ag or APC. The secreted helper activity resembled the activity of the intact Th cells in that it was Ag-specific, carrier-hapten-linked and MHC-restricted. These T cell products functioned to activate only those B cells expressing MHC products which corresponded to the specificity of each Th clone. Thus, the specificity of the cell-free T cell product mimicked precisely that expressed by the intact Th cell and presumably mediated by the cell surface TcR. In addition to the apparent presence of specific helper factor in Th clone supernatants, a role for nonspecific lymphokines was also identified in these preparations. Although recombinant or purified IL-4 alone was not sufficient to stimulate hapten-primed B cells to secrete hapten-specific IgG antibodies, mAb specific for IL-4 blocked the induction of antibody secretion by Th cell supernatant. These results indicate that stimulation of B cells to produce hapten-specific IgG antibody requires at least two distinct signals: an Ag-specific T cell signal which is restricted by MHC products expressed on the B cells, and a nonspecific signal mediated at least in part by the lymphokine IL-4.     

IgM induction in murine B hybridomas with Ia-restricted T cell clones: a monoclonal model for T and B cell interactions in antibody response

The mechanism of MHC-restricted T and B cell interactions in antibody response was studied with IgM-inducible B hybridomas and antigen-specific helper T cell clones. B hybridomas were prepared by fusion between splenic B cells from (CBA/N (H-2k) X BALB/c (H-2d)) F1 (NBF1) male mice and a B lymphoma cell line, M12.4.5. A B hybridoma clone, 1M70, which expressed I-Ad but not I-Ak determinants was chosen in the present study. IgM secretion was induced in 1M70 when it was cocultured with a "resting" KLH-specific and H-2d restricted helper T cell clone in the presence of KLH. A "resting" KLH-specific and H-2k restricted T cell clone did not induce IgM secretion in 1M70 even in the presence of KLH. However, when these KLH-specific T cell clones were activated by KLH and appropriate antigen presenting cells, both H-2d and H-2k restricted T cell clones induced IgM secretion in 1M70 even in the absence of KLH. A monoclonal anti-I-Ad antibody inhibited IgM secretion induced by a "resting" H-2d restricted T cell clone, but not by an "activated" T cell clone. These results indicated that T cell clones recognized antigens in the context of Ia molecules on B hybridomas in a MHC-restricted manner and were activated to produce B cell stimulatory factors which in turn acted on B hybridomas in a non-MHC-restricted manner and induced differentiation of B hybridomas into IgM secreting cells.     

IL-4-based helper activity of CD4 T cells is radiation sensitive

The capacity of CD4⁺ T cells to induce IgG synthesis in B cells has been known to be radioresistant for more than 20 years. However, the radiation sensitivity of helper T cells with regard to their ability to induce the synthesis of isotypes other than IgG has not been studied. We therefore irradiated KLH-primed lymph node T cells and examined their capacity to induce IgG, IgM, and IgE synthesis in hapten-primed B cells. We demonstrated that while the capacity of KLH-primed lymph node cells to induce IgG synthesis was not affected by irradiation, the capacity of such T cells to induce IgE synthesis was greatly reduced by γ-irradiation. This was consistent with our observations that IL-4 and IL-5 synthesis in such cells was greatly diminished by irradiation, whereas IL-2 synthesis was only minimally affected. A similar differential sensitivity to irradiation of the helper activity of Th1 and Th2 clones was observed with regard to their ability to induce IgE and IgG synthesis under cognate conditions. Irradiation greatly inhibited the capacity of Th2 clones to induce IgE synthesis, but only minimally affected the capacity of Th1 clones to induce IgG synthesis in primed B cells. The capacity of irradiated Th2 clones to induce IgE synthesis was restored by the addition of IL-4 and IL-5. These results taken together indicated that the sensitivity to irradiation of T helper cells with regard to the induction of IgE but not IgG synthesis was due to the sensitivity to irradiation of the production of IL-4 but not of IL-2. Thus, although some functions of CD4⁺ T cells are resistant to radiation, other functions, particularly those that depend on the production of IL-4 and IL-5, are greatly diminished by ionizing radiation.     

Anti-idiotype-induced, lipopolysaccharide-specific antibody response to Pseudomonas aeruginosa. II. Isotype and functional activity of the anti-idiotype-induced antibodies

We recently developed a murine anti-idiotypic mAb that functioned as a molecular mimic of the O-specific polysaccharide side chain (Ps) of Pseudomonas aeruginosa LPS in vitro, and which induced Ps-specific antibodies in syngeneic BALB/c ByJ mice. In the current studies, we demonstrate that these anti-Id-induced, Ps-specific antibodies fix complement to the bacterial cell surface, and protect neutropenic mice from fatal P. aeruginosa sepsis. The isotypic distribution of the anti-Id-induced antibodies, however, resembles the restricted pattern (IgM and IgG3) seen after administration of purified Ps to mice. The immunogenicity and number of isotypes of Ps-specific antibody produced could be enhanced by conjugating the anti-Id to keyhole limpet hemocyanin. Finally, the anti-Id administered before immunization with purified Ps, primed BALB/c ByJ mice for production of other Ps-specific antibody isotypes (IgG1). These studies show that this anti-Id induces functional anti-Ps antibodies in syngeneic mice, and when used in conjugate form or as a priming agent before Ps immunization, yields an antibody response consistent with "T cell dependence." These immunization strategies may be useful for the induction of polysaccharide-specific antibodies in man.