Idiotype-specific Ly-1 B cell-mediated helper activity: hybridomas that produce anti-idiotype antibody and nonimmunoglobulin lymphokine(s)1

Previous work has shown that the expression of a predominant family of idiotypic determinants (NPb) in the in vitro response to the 4-hydroxy-3-nitrophenyl acetyl (NP) hapten is dependent on helper activity provided by Ly-1- and Ig-bearing B cells called BH. The ability of these BH cells to perform this idiotype-specific, genetically controlled helper function is related to the NPb idiotype specificity of their cell surface receptors. However, the means by which BH cells communicate with and stimulate NPb idiotypic B cell subsets is unknown. In this paper, an Ly-1- and immunoglobulin-bearing B helper cell hybridoma is described. Supernatants from the hybridoma or its subclones were shown to specifically help the response of NPb idiotypic PFC to NP-Ficoll when added to responder cell cultures depleted of Thy-1 and Ly-1 regulatory cell populations. Under these experimental conditions hybridoma supernatants functioned in much the same fashion as populations of Ly-1- and Ig-bearing BH helper populations described previously. NPb idiotype-specific helper activity was mediated by two separable activities elaborated by the hybridoma, an anti-NPb idiotype antibody and a non-Ig (lymphokine) activity. It was shown that both the Ig and the lymphokine components were required for helper activity. Kinetics experiments showed that the anti-idiotype antibody must be added early in the response to NP-Ficoll, whereas the lymphokine fraction could be added at least as late as day 3 of a 4-day culture in order to observe NPb idiotype-specific help. The data suggest that Ly-1 B cell hybridomas may affect the responsiveness of B cell subsets initially by interaction of anti-idiotype antibody with NPb idiotypic B cell surface receptors, followed by growth or maturation signals mediated by non-Ig lymphokine(s). The possibility that the helper activity of these Ly-1 B cell hybridomas represents the combined effects of an idiotype-specific network system and nonspecific growth or maturation factor activity in direct B cell-B cell interactions is discussed.     

Interleukin 4 induces the maturation of idiotype-specific regulatory B cell populations.

CD5+ B cells have been shown to be disproportionately associated with autoimmune diseases and transformation. In many cases, their apparent ability to bypass self-tolerance is manifested by the production of autoantibodies. These observations, plus the hypothesis that CD5+ B cells represent a distinct B cell lineage, encourage studies into the conditions and factors that influence their development. In the present study, we employed a well-established assay for murine CD5+ B cell function, i.e., their ability to augment the responses of IgHb-linked idiotypic determinants on anti-(4-hydroxy-3-nitrophenyl) acetyl (NP) antibody (Nbb) idiotype-bearing CD5- B cells to a T-independent antigen, together with multiple methods of cell surface phenotyping, to evaluate the potential for interleukin (IL) 4 to effect maturation of CD5+ B cells, CD5+, IgM+, Thy-1-, and NPb idiotype-specific cells panned on antibody-coated petri dishes or sorted by flow cytometry from spleen were capable of augmenting NPb idiotypic responses of NP-KLH-primed responder cells to NP-Ficoll. Splenic B cell populations depleted of CD5+ B cells failed to affect idiotype expression even after 2 days in culture, a time when a small percentage of CD5+ B cells appeared to be regenerated. However, idiotype-specific regulatory activity could be restored in CD5- splenic B cell populations by culture for 2 days with recombinant IL-4. Cells responsible for idiotype-specific regulatory activity after culture with IL-4 were in fact CD5+, IgM+, and Thy-1.2- B cells, demonstrating that IL-4 can drive the functional, if not the phenotypic, maturation of splenic B cells associated with the CD5+ B cell lineage. The results illustrate one possible mechanism by which T cells could control the maturation of cells belonging to the CD5+ B cell lineage.     

Synthesis of abnormal immunoglobulins by hybridomas from autoimmune "viable motheaten" mutant mice.

Secretory defects in abnormal plasma cells, called Mott cells, that appear in lymphoid tissues of spontaneously autoimmune, "viable motheaten" (mev/mev) mice lead to deposition of immunoglobulin in RER-bound vesicles. Such vesicles have been termed Russel bodies. Cells with Russel bodies can also be observed rarely in normal animals, usually as a result of extreme antigenic loads or pathologic states. To understand why these abnormal cells appear commonly in mev/mev mice, we have established a panel of hybridomas that contain Russell bodies. Using immunochemical analysis and immunoelectron microscopy, we have characterized the secretory defects. Although these hybridoma cells synthesize a normal size heavy chain and it associates with light chain, the Russell bodies have many characteristics of inclusion bodies, which commonly appear in cells synthesizing mutant proteins and often are associated with incompletely or abnormally folded proteins. Pulse-chase experiments showed that immunoglobulins synthesized by these hybridomas accumulate rapidly into insoluble complexes and have an intracellular half life approximately 10 time greater than normal immunoglobulins. The defect affected only the immunoglobulin derived from the mev/mev mice and did not affect the secretion of normal immunoglobulin produced by an IgG1-secreting fusion partner. In addition to accumulating intracellular immunoglobulins, many mutant cell lines also secreted immunoglobulin. Endoglycosidase H digestion was used to determine the state of processing of the N-linked carbohydrates on the immunoglobulin molecules. This analysis demonstrated that the N-linked carbohydrates on the secreted immunoglobulin were resistant to endoglycosidase H digestion, indicating that they were processed normally. The insoluble IgM molecules were sensitive to endoglycosidase H, which is consistent with their localization to the RER. We propose several models by which these abnormal immunoglobulin-secreting cells commonly appear in this autoimmune mutant mouse.     

Idiotype-specific helper cells (BH) express immunoglobulin markers and employ T cell function-associated molecules

An Lyt-1+ population, distinct from T cell subsets, that helps expression of B cell responses to the 4-hydroxy-3-nitrophenyl acetyl (NP) hapten was characterized. This lymphoid population, called BH, is present in the spleens of normal and athymic mice and preferentially helps the expression of plaque-forming B cells that carry NPb idiotypic determinants. To define the mechanism by which this cell population functions, the roles of T and B lymphocyte function associated antigens were studied. The data indicate that BH cells express immunoglobulin receptor components, i.e., IgM, IgD heavy chain, and lambda light chain immunoglobulin markers as well as the J11d marker associated with immature B cells. BH cells may also express determinants identical to or cross-reactive with the T cell-associated antigens L3T4a, L3T4b, and LFA-1 as defined by treatment with monoclonal antibodies specific for these antigens. In addition, L3T4a- and LFA-1- but not Lyt-1-like antigens appear to be functionally involved in BH-dependent helper activity, since augmentation of NPb idiotypic PFC responses was blocked with anti-L3T4a or anti-LFA-1 monoclonal antibodies. Further analysis of BH-containing populations indicates that T cells are probably not involved in BH cell function and therefore are not responsible for the presence of Lyt-1, L3T4a, or L3T4b determinants in this T-independent system. The relationship of this helper cell subset to conventional T and B cell populations is discussed.     

Distinction of B cell maturation factors from lymphokines affecting B cell growth and viability

Supernatants from S26.5 helper T cells, autoimmune viable motheaten (mev/mev) mouse spleen cells, EL4 lymphoma cells, and recombinant DNA-derived interferon gamma (IFN-gamma), all of which display B cell maturation factor (BMF) activity, were assayed for effects on B cell proliferation alone and with Dextran Sulfate (DxS) and anti-immunoglobulin antibodies (alpha-Ig). Both EL4 and S26.5 supernatants showed BCGF-II (DxS co-stimulator) activity, whereas only EL4 supernatant had BCGF-I (alpha-Ig co-stimulator or BSF-I) activity. Supernatants from mev/mev spleen cells and recombinant DNA-derived IFN-gamma showed no activity in either assay. Fractionation of S26.5 supernatant by chromatofocusing showed a divergence of BMF activity (BMF-T, pIa of 6.0) from BCGF-II activity (pIa of 5.4), providing evidence for their physical nonidentity. IFN-gamma, which decreases B cell viability in culture, was separable from BMF-T by phenyl-Sepharose chromatography. BMF-T from S26.5 supernatant was separated from IFN-gamma and BCGF-II and was shown to induce B cell maturation without affecting B cell proliferation. The molecular characteristics of the purified BMF-T were pIa 6.0, Mr 55,000 by G-75 gel filtration, and Mr 16,000 by SDS-PAGE. These data demonstrate that several lymphokines (BMF) exist that mediate the maturation of B cells to active Ig secretion without stimulating B cell proliferation.     

Characterization of anti-idiotypic suppressor T cells (Tsid) induced after antigen priming

The induction and fine specificity of idiotype-specific suppressor T cells (Tsid) were studied. Spleen cells from C57BL/6 mice, immunized 4 wk previously with NP-KLH, failed to express NPb3 idiotype-bearing PFC when challenged in vitro with NP-Ficoll or NP-Brucella abortus. After treatment of NP-primed responder cultures with anti-Thy-1.2 anti-serum + C, NPb idiotype-bearing B cells could be detected. This B cell subset was preferentially suppressed by the addition of T cells from NP-primed mice. With this reconstitution protocol, it was determined that suppression of the NPb idiotype-bearing portion of the B cell response was mediated by a specifically induced T cell population (Tsid) that directly suppressed NPb-bearing B cells. As with a previously described suppressor population induced with hapten-modified syngeneic spleen cells (Ts2), the Tsid population bound and was lysed by NPb idiotype-bearing serum antibodies. However, the Tsid could be distinguished from the Ts2 population because it lacked I-J determinants and functioned as an effector T cell, not an intermediary suppressor cell. Furthermore, fine specificity studies with monoclonal NP-specific antibodies expressing various levels of serologically detectable NPb idiotypic determinants indicated that unlike the Ts2, the Tsid population reacts with conventional, serologically detected members of the NPb family. The combined idiotype binding studies for the Tsid and Ts2 populations demonstrate that the fine specificity of suppressor T cell populations reflects their independent mechanisms of regulation.     

H-2-restricted helper activity mediated by immunoglobulin-bearing lymphocytes

The genetic requirements for helper activity mediated by a unique, Ig-bearing lymphocyte population were studied. This Lyt-1+, I-A+, Thy-1- population, called BH, preferentially helps expression of NPb idiotypic plaque-forming cells when added to T cell-depleted responder cultures. Furthermore, the BH population can directly bind NPb idiotypic determinants. Using H-2 congenic mice, we show that BH helper activity can be expressed only when BH cells share I-A subregion alleles with responder B cell populations. This H-2 restriction is not a result of thymic influences, because the activity of BH cells from athymic mice are also H-2 restricted. Macrophages present in the BH population do not contribute to the H-2 restriction. Results are presented that definitively rule out the possible role for T lymphocytes in BH activity and demonstrate that a single helper population expresses both Lyt-1 and I-A determinants. These results indicate that Ig-bearing cells serve a regulatory as well as an effector role in immune responses and that, like other regulatory lymphoid subsets, their activity is regulated in part by MHC-encoded determinants.     

Suppressive effects of monocytic cells and transforming growth factor-beta on natural killer cell differentiation in autoimmune viable motheaten mutant mice.

Viable motheaten (mev) mice are homozygous for a recessive single gene mutation at chromosome 6. These mice develop numerous inflammatory and arthritic syndromes and exhibit abnormal B cell functions as well as lower T and NK cell activity. In this study, the differentiation of NK cells in mev mice was examined to elucidate the underlying basis for decreased NK activity. Although NK cells appear to be present in mev mice, their activity was demonstrable only when the spleen cells were enriched by nylon wool passage. Similarly bone marrow cells from these mice could be shown to contain precursors of NK cells when they were passed over nylon wool and transplanted into irradiated recipients. The adherent cells from both the spleen and bone marrow of mev mice suppressed the differentiation of NK cells from normal splenic populations. These suppressive adherent cells were F4/80(+), AsGm-1(+), Qa-5(+), and NK-1.1(+). They were not cytolytic when cultured in IL-2. Antibodies to a number of cytokines, such as IFN-alpha, -beta, and gamma, or TNF-alpha, could not reverse the suppressive effect of the adherent cells. Addition of anti-TGF-beta antibody could, however, overcome the suppression, suggesting that TGF-beta was partly responsible for the defective NK differentiation in the mev mice.     

Germline V genes encode viable motheaten mouse autoantibodies against thymocytes and red blood cells

Autoantibodies against thymocytes and RBC may contribute to the pathophysiology of homozygous viable motheaten (mev) autoimmune disease. Whether the production of these autoantibodies in mev mouse results from polyclonal nonspecific B cell activation or specific Ag-driven stimulation is not known. To understand the mechanisms involved in the induction of antithymocyte autoantibody response in mev mouse, we have studied the fine antigenic specificity, structure, and origin of three antithymocyte autoantibodies derived from mev splenic B cell hybridomas. Western blot analysis showed that these mAb bind to polypeptides of 33 and 105 kDa present in RBC and thymocytes, respectively. Additional specificities for the epitopes present in other polypeptides distinguished these three autoantibodies. Northern hybridization and flow microfluorimetry analysis indicated that these hybridomas are derived from the Ly1+ B cell subset. These autoreactive Ly-1 B cell hybridomas, chosen on the basis of their specificity, expressed L chain V genes from a single VK family (VK9) and VH genes from J606 and S107 families. Hybridomas UN34.11 and UN42.5 expressed the VK9 gene identical to that used by peritoneal Ly1+ B cells from various mouse strains and malignant B lymphoma cells secreting anti-mouse RBC treated with proteolytic enzyme bromelin and anti-SRBC antibodies. The third hybridoma, S2-14.2, used a VK9 gene identical to that expressed by MOPC41. None of the VK genes encoding these autoantibodies showed any somatic mutations. In the case of VH genes, the two hybridomas UN42.5 and S2-14.2 derived from two separate fusions, used identical VH genes from the J606 family. The third hybridoma UN34.11 used unmutated V11 germline VH gene, a member of the S107 family. Southern hybridizations, using oligonucleotide probes specific for CDR1 and CDR2, showed that the VH genes encoding the J606 autoantibodies were derived from a germline gene found in the 6.7-kb fragment of EcoRI-digested germline DNA. This germline VH gene is distinct from VH22.1 germline gene that codes for antigalactan antibodies. Sequence analysis of this gene showed perfect homology with the rearranged VH genes confirming the lack of somatic mutations. Thus, our data demonstrate that antithymocyte antibody response occurring in mev mouse is polyclonal and it involves Ly-1 B cells expressing unmutated germline VH and VK genes. These results indicate that antigen driven stimulation may not play an important role in the induction of anti-thymocyte antibody response in mev mouse.     

Defective lymphopoiesis in the bone marrow of motheaten (me/me) and viable motheaten (mev/mev) mutant mice. II. Description of a microenvironmental defect for the generation of terminal deoxynucleotidyltransferase-positive bone marrow cells in vitro

We have presented evidence in a previous paper that the development of prothymocytes, pre-B cells, and TdT+ lymphoid precursor cells in the bone marrow of motheaten (me/me) and viable motheaten (mev/mev) mice is defective. In the present study, we have used a selective culture system that supports the generation of rat- and mouse-origin TdT+ bone marrow lymphoid cells in vitro to further investigate the early stages of lymphopoiesis in me/me and mev/mev mice. The results demonstrate that bone marrow stromal cell feeder layers derived from me/me and mev/mev mice do not support the growth of rat TdT+ cells in vitro, whereas stromal cell feeder layers from heterozygous (+/-) littermates and wild type (+/+) control mice do. Moreover, composite feeder layers formed by mixing as few as one part me/me and mev/mev bone marrow cells with 7 to 9 parts +/- littermate bone marrow cells also fail to effectively support the generation of TdT+ cells in vitro. In contrast to me/me and mev/mev mice, other mutant mouse models of autoimmune (NZB, NZB/W), immunodeficient (nu/nu), and hemopoietic (W/Wv, Sl/Sld) disorders form feeder layers that support normal to elevated levels of TdT+ cell growth in vitro. Thus, to date, only the me/me and mev/mev mutant mice have been found to lack the appropriate microenvironment for the generation of TdT+ bone marrow cells. Histologic analysis of the stromal cell feeder layers that are formed in our culture system shows that multilayered cellular patches, which normally are the most active sites of TdT+ cell development in vitro, are absent in feeder layers of me/me and mev/mev cells. Moreover, feeder layers from mev/mev mice contain a population of MAC 1+, basophilic, nonvacuolated, macrophage-like cells; whereas feeder layers from control mice contain MAC 1+, eosinophilic, vacuolated macrophage-like cells. Stromal cell feeder layers formed by mixtures of me/me or mev/mev and control mouse bone marrow cells contain numerous multilayered cellular patches and vacuolated mononuclear cells, but also contain large numbers of basophilic mononuclear cells. These composite feeder layers have a disproportionately reduced capacity to support the generation of TdT+ cells in vitro. Although the stromal microenvironment of me/me and mev/mev bone marrow does not support the growth of TdT+ cells in vivo or in vitro, the bone marrow from these mutant mice contains detectable numbers of pre-TdT+ cells. Thus, when cultured on normal mouse feeder layers, mutant mouse bone marrow rapidly generates TdT+ cells in vitro, albeit at significantly reduced levels as compared to +/- littermate controls.(ABSTRACT TRUNCATED AT 400 WORDS)     

Regulation of T15 idiotype dominance. I. Mice expressing the xid immune defect provide normal help to T15+ B cell precursors

The immune response to phosphocholine (PC) in many strains of mice is dominated by the T15 idiotype family of anti-PC antibodies. By introducing the CBA/N X-linked immune defect (xid gene) into these mice, one profoundly alters their ability to make a T15-predominant, IgM anti-PC response. This loss of T15 dominance in mice expressing the xid gene is not due to the presence of suppressor T cells or the lack of T15 idiotype-specific helper cells in these mice. Thus, one can reconstitute a T15 idiotype-dominant response in immune defective mice with B cells from normal mice, and in adoptive transfer assays the primed T helper cells from immune-defective mice provide qualitatively the same help to normal B cells as the T helper cells from normal mice. T15 idiotype dominance appears to be controlled by the expression and activation of Lyb-5+ PC-specific B cells. Thus, the majority of T15+ B cell precursors are restricted to this B cell subset, whereas the Lyb-5- B cell subset contains predominantly T15-, anti-PC B cell precursors, which produce mainly IgG antibodies after activation by PC-containing antigens.     

Lymphohemopoiesis in culture is prevented by interaction with adherent bone marrow cells from mutant viable motheaten mice

Mice with the recessive "motheaten" (me) or "viable motheaten" (mev) mutations have severe immunologic disturbances and die at an early age. The function of hemopoietic progenitor cells and microenvironmental elements that regulate their growth and differentiation were studied in mev mice with two types of long term bone marrow cultures. Cells from bone marrow of homozygous defective mev/mev mice were non-productive under conditions that normally support replication of stem cells and production of neutrophil granulocytes. Similarly, in a different culture system, lymphocytes were produced from normal littermate, but not mev/mev bone marrow. Initial overgrowth of cells having macrophage-like characteristics occurred in both culture systems with marrow from defective mice. Co-cultures of normal and defective bone marrow cells were always non-productive. In contrast, supernatants of mev/mev bone marrow cultures did not have a detrimental effect on cultures of normal cells, implying that the suppression was cell-associated. Furthermore, there was no evidence for abnormal release of granulocyte or macrophage growth factors in mev bone marrow cultures. A small population of cells in mev/mev bone marrow cultures were morphologically similar to "stromal" cells that support lymphohemopoiesis. Certain culture strategies could be used to enrich for these. mev/mev stromal cells had affinity for normal lymphocytes; however, they did not support lymphocyte growth. The long term bone marrow cultures thus reveal an apparent imbalance in the regulatory mechanisms affected by these single gene mutations. This is manifested by preferential or aberrant growth of one type of adherent cell and a possible functional abnormality of stromal cells. mev mice could provide an ideal model for investigating cell-associated molecules that normally limit progenitor cell replication.     

Responses of B cells from autoimmune mice to IL-5

Three strains of mice (NZB/W F1 X NZW (NZB/W), BXSB, and MRL/Mp-lpr/lpr (MRL/lpr] develop an autoimmune disease that is clinically and immunologically similar to human SLE. A characteristic of these mice is polyclonal B cell hyperactivity. To explore whether this may be related to hyper-responsiveness to B cell stimulatory factors, we investigated the proliferative and secretory responses of B cells from these mice to semi-purified natural and rIL-5, a major regulator of B cell development in the mouse. As this lymphokine stimulates growth and differentiation of activated B cells, attention was focused on in vivo-activated B cell populations, obtained from the interface of 50/65% Percoll density gradients, from normal or autoimmune mice. This cell population from NZB/W mice secreted IgM and incorporated [3H]TdR at significantly higher levels in response to IL-5, and was more sensitive to IL-5, than a comparable population from several normal murine strains. NZB/W female and male mice displayed heightened responses to IL-5, indicating that this is characteristic of the strain in general and is not associated with the accelerated severe disease of the females. Small resting B cells from NZB/W and normal mice were insensitive to IL-5 stimulation. In contrast to NZB/W mice, no difference was observed in the magnitude of either proliferative or Ig secretory responses between in vivo-activated B cell populations from autoimmune BXSB and MRL/lpr or normal mice. Thus, B cell hyper-responsiveness to IL-5 is a characteristic of NZB/W mice but not of two other lupus-prone murine strains. As one unique feature of NZB/W mouse B cells compared to normal and other autoimmune B cells is an elevated proportion of Ly-1+ B cells, the possibility of IL-5 hyper-responsiveness being associated with this B cell subpopulation was investigated. Fluorescence-activated cell sorter sorted Ly-1+ and Ly-1- B cells both responded to IL-5, however Ly-1+ B cells consistently showed a higher stimulation index in both proliferative and Ig secretory responses to this lymphokine.     

The interaction of the xid and me genes

The murine "motheaten" (me) mutation has been bred onto the NFS background and combined with the X-linked immunodeficiency (xid) mutation to investigate the effect of the xid-induced B cell maturational block on the widespread immune dysfunction, high levels of autoantibodies, and early mortality found in the motheaten mice. The xid markedly reduced spontaneous IgM secretion by spleen cells, serum IgM, anti-ssDNA antibodies, anti-bromelain-treated-erythrocyte antibodies, and T cell binding (but not thymocytotoxic) antibodies; however, neither phenotype nor mortality was affected, suggesting that other factors are responsible for early death. Marked expansion of the Ly-1+ B cell pool was prevented by xid in the motheaten mouse leaving only a very small population of sIgM-positive B cells. This failure of non-Ly-1+ B cell development in me/me X xid mice suggests that me/me leads to inhibition of non-Ly-1+ B cells and preferential expansion of Ly-1+ B cells in motheaten mice, perhaps as a result of their high levels of maturation and activation factors.     

Cross-induction of predominant NPb idiotypic antibodies with derivatives of (4-hydroxy-3-nitrophenyl) acetyl

Immunization of C57BL/6 mice with bovine gamma-globulin (BGG) conjugated with (4-hydroxy-3-nitrophenyl) acetyl (NP) induced a population of anti-NP antibodies that bear predominantly lambda light chain, exhibit heteroclitic affinity for heterologous NP derivatives, and share NPb idiotype. The present study analyzes the idiotypes of antibodies induced with BGG conjugated with the iodo-, bromo-, or nitro-NP derivatives (NIP, NBrP, and NNP). NIP-BGG, NBrP-BGG, and NNP-BGG, induce specific antibodies bearing NPb idiotype in C57BL/6 or C57BL/10 congenic mice, but not in many other inbred strains. Furthermore, the quantity of NPb idiotype in immune sera from various mouse strains immunized with NIP-BGG, NBrP-BGG, and NNP-BGG was similar to that in sera from mice immunized with NP-BGG. Anti-idiotypic antisera against C57BL anti-NP, anti-NIP, or anti-NBrP antibodies exhibit extensive idiotype binding of specifically purified B6 anti-NP, -NIP, -NBrP, and -NNP antibodies. These purified antibodies contain a high percentage (greater than 70%) of lambda-chain-bearing molecules. The data indicate that an extensively shared repertoire composed of predominantly lambda-bearing NPb-positive idiotypic antibodies is used in response to NP and its derivatives in C57BL mice.     

Hapten-specific T cell responses to 4-hydroxy-3-nitrophenyl acetyl. XIII. Characterization of a third T cell population involved in suppression of in vitro PFC responses

The involvement of a third-order suppressor T cell population (Ts3) in the suppression of in vitro PFC responses was analyzed. It was shown that Ts2 effector-phase suppressor cells, induced by the i.v. injection of NP-coupled syngeneic spleen cells, require a third suppressor T cell population to effect NPb idiotype-specific suppression of an in vitro B cell response. This Ts3 population was shown to be present in NP-primed but not unprimed donors. The Ts3 population specifically binds NP and is Lyt-1-, Lyt-2+, I-J+ and bears NPb idiotypic determinants. The involvement of the Ts3 population in a suppressor pathway that requires recognition of idiotypic determinants is discussed.     

Adaptive differentiation of H-2- and Igh-restricted B lymphocyte in tetraparental bone marrow chimera

Immunization of BALB/c mice with MOPC-104E myeloma protein induced idiotype-specific enhancing B cells that acted on anti-dextran antibody producing B cells. The enhancing cells have the surface phenotype of B cells. With the use of several H-2 or Igh congenic mice, it was found that the cooperation among B cells was controlled by both the major histocompatibility complex (MHC) and Igh. The capability to generate enhancing B cell activity was analyzed by using tetraparental bone marrow chimeras. (C57BL/6 X BALB/c)F1 mice, for example, were lethally irradiated and were reconstituted with C57BL/6 and BALB/c bone marrow cells. Nine to 12 wk after the reconstitution, the chimeras were immunized with the myeloma protein and were tested for their enhancing B cell activity. After the removal of C57BL/6 origin cells by treatment with anti-H-2b + complement, residual cells exhibited enhancing B cell activity on BALB.B, as well as BALB/c antidextran antibody response. This indicates that the generation of H-2-restricted, idiotype-specific enhancing B cell activity differentiated adaptively so as to recognize foreign MHC as self under chimeric conditions. On the other hand, splenic B cells treated with anti-H-2d + complement did not enhance the responses of BALB/c or BALB.B. Even in a chimeric environment, the B cells of C57BL/6 origin could not obtain the ability to generate enhancing B cell activity upon immunization of the idiotype. The results described here, taken in conjunction with our previous studies, suggest that the Ig heavy chain gene(s) predominantly control the Igh restriction properties of enhancing B cells, and the capability of MHC recognition by B cells is selected under chimeric conditions.     

Perturbation of the idiotypic network. II. Transfer of suppression to neonatal mice

The cellular mechanisms which are responsible for idiotype perturbation induced by repeated stimulation with either allogeneic mixed lymphocyte culture-generated syngeneic blasts or allogeneically stimulated syngeneic spleen cells were investigated as described in the preceding article. Using the splenic fragment culture system, the precursor frequencies of T and B cells for anti-phosphorylcholine (PC) antibodies and T15 idiotypic antibodies were determined in allogeneically challenged mice. Adoptive transfers of T cells to neonatal BALB/c mice induced suppression of the T15+ anti-PC responses. In addition, the effect of immunization with internal image-bearing anti-idiotopes on the level of anti-PC antibodies and T15 idiotype was determined. Results from this study demonstrated (i) a decrease in the precursor frequency in the PC-specific and idiotype-specific B cell repertoire; (ii) a decrease in the precursor frequency of T helper cells, which recognize idiotypes and anti-idiotypes; (iii) the possibility to transfer T15 suppression to neonatal mice; and (iv) the possibility to restore T15 dominance by anti-idiotypic antibody immunization. These data indicate that both the T and B compartments are involved in the maintenance of suppression induced by repeated exposure to alloantigen-sensitized syngeneic cells. Collectively these findings show that a nonspecific general suppression induced by allohyperimmunization can perturb the T15+ anti-PC response.     

The frequency and fine specificity of B cells responsive to (4-hydroxy-3-nitrophenyl)acetyl in aged mice

The B-cell response to NP-Hy of two murine strains has been analyzed in order to evaluate the affects of aging on B-cell repertoire expression. The results indicate that for both BALB/c mice (Igha) and B10.D2 mice (Ighb) the frequency of (4-hydroxy-3-nitrophenyl)acetyl (NP)-responsive splenic B cells is approximately twofold lower, on a per B cell basis, in aged mice as compared to young adults. However, as with previous assessments of the response to DNP-Hy in aged mice, the frequency of newly generated surface immunoglobulin negative bone marrow precursor cells specific for NP in aged BALB/c mice is the same as in young mice. The decrease in frequency of responsive splenic B cells is not accompanied by a measurable decrease in repertoire diversity or changes in clonotype distribution as assessed by representation of kappa vs lambda light chain-bearing antibodies, binding of monoclonal antibodies to a panel of analogues of NP, and the proportionate representation of B10.D2 monoclonal antibodies that bear NPb idiotypic determinants. By these criteria it appears that down-regulation of B cells as they mature and emerge from the bone marrow of aged mice is pan-specific and does not disproportionately affect B cells of a predominant clonotype family. Consistent with other investigations which have demonstrated differences in secreted antibodies of immunized aged vs young mice, we have observed that 4 weeks after immunization of B10.D2 mice with NP-BSA, the frequency of newly generated secondary B cells is lower in aged than in young mice and the generation of lambda-bearing secondary precursor cells is particularly low. Thus, clonotype-specific down-regulation may play a role in shaping the B-cell repertoire subsequent to immunization of aged mice.     

Modulation of SLE induction in naive mice by specific T cells with suppressor activity to pathogenic anti-DNA idiotype.

T cells (CD8+) with specific suppressor activity against anti-dsDNA antibody (16/6 Id+) were generated in vitro. The cells were established from BALB/c-enriched T cells exposed in vitro to silica beads coated with the pathogenic anti-DNA idiotype, 16/6. The idiotype specificity of the suppressor cells was demonstrated by (a) specific induction of a decrease in proliferative response of T helper cell lines specific for the pathogenic idiotype (16/6 Id), when exposed to the idiotype, with no effect on T cell lines with other specificities, e.g., against human IgM or synthetic polypeptide. (b) Effectively suppressing in vitro antibody production of anti-16/6 antibody, employing 16/6-primed B cells and specific helper T cell line. The 16/6 Id-specific Ts cells were found to be MHC restricted. Weekly intravenous injections of 10(7) 16/6 Id-specific Ts cells given to BALB/c mice at different stages of experimental SLE disease prevented the clinical, serological, and pathological manifestations. This effect was characterized by decreased titers of autoantibodies (e.g., anti-DNA, anti-Sm antibodies) in the sera, by abolishment of the proteinuria, leukopenia, and the increased ESR, followed by decreased immunoglobulin deposition in the kidneys. Treating the mice with control IgM-specific T cells did not affect the above parameters. These studies demonstrate the ability to generate Ts cells specific for pathogenic idiotypes. The method might be employed therapeutically to modulate the course of autoimmune conditions.