Immunoregulation in the rat: requirements for in vitro B cell responses to classical TI-1 and TI-2 antigens

The presence of suppressor cells and their mediators has made it difficult to induce B cell mitogenic or immune responses in rat spleen cell cultures. In the present study, we have defined culture conditions required for induction of in vitro thymic independent (TI) immune responses in the rat. Rat spleen cell cultures support low responses to various trinitrophenyl (TNP) haptenated antigens including TNP-Brucella abortus (TNP-BA), TNP-lipopolysaccharide [LPS; either phenol (Ph)- or butanol (Bu)-water extracted], TNP-Ficoll, and TNP-dextran. However, all of these antigens induced good splenic anti-TNP PFC responses when given at appropriate doses in vivo. When spleen cells were depleted of adherent cells and cultured with TI antigens in vitro, good anti-TNP PFC responses were seen with TNP-BA, whereas, lower responses were induced by TNP-LPS (Ph or Bu). No responses were observed in cultures incubated with either TNP-Ficoll or TNP-dextran. Purified splenic B cell cultures [prepared by panning on plates coated with anti-rat F (ab')2] supported good responses to TNP-LPS (Ph or Bu) and TNP-BA. The addition of irradiated splenic adherent cells (macrophages, M phi) to either M phi-depleted or purified B cell cultures completely abrogated in vitro responses to TNP-BA or TNP-LPS (Ph or Bu). Purified splenic B cell cultures generally responded poorly to TNP-Ficoll or TNP-dextran. Addition of indomethacin (IM) to spleen cell cultures abrogated suppression and allowed anti-TNP PFC responses to TNP-BA, TNP-LPS (Ph or Bu), TNP-Ficoll, and TNP-dextran. Furthermore, nude spleen cell cultures treated with IM, also allowed significant TNP-Ficoll and TNP-dextran immune responses; however, untreated cultures did not respond to these antigens. Our studies indicate that rat splenic B cell cultures are responsive to TI antigens, and highest responses occur with the murine TI-1 class, e.g., TNP-BA and TNP-LPS. Inhibition of suppression with IM restored splenic B cell responses to the murine TI-2 class, i.e., TNP-Ficoll and TNP-dextran.     

Ontogeny of murine B-cell responses to thymus-independent trinitrophenyl antigens.

The ontogeny of B-cell responsiveness to three thymus-independent trinitrophenyl (TNP) antigens has been examined in BALB/c mice in vivo and in vitro. When in vivo splenic plaque-forming cell (PFC) responses to TNP-conjugated lipopolysaccharide (TNP-LPS), Ficoll (TNP-Ficoll), and Brucella abortus (TNP-Brucella) were measured in neonatal and adult mice, a defined sequence of responsiveness was observed. Newborn mice responded well to TNP-LPS, but not to TNP-Ficoll or TNP-Brucella. Neonates injected at 1 day of age responded to TNP-LPS and TNP-Ficoll and mice 5 to 14 days of age responded to TNP-LPS, TNP-Ficoll, and TNP-Brucella. Furthermore, the antigen-reactive populations increased at different rates for the three antigens in the first 2 weeks of life. In vitro experiments confirmed the results obtained in vivo although slightly earlier responsiveness to TNP-Brucella was observed in vitro. PFC inhibition assays with free TNP hapten were performed so that avidity profiles could be examined in neonatal and adult anti-TNP PFC responses. The results clearly demonstrate that once a response becomes detectable in neonatal mice immunized with any of the three TI TNP antigens, fully heterogeneous or “adult-like” responses are found. In addition, experiments comparing avidity profiles in athymic (nu/nu) BALB/c mice and their normal (nu/+) littermates demonstrate that T cells are not required for the generation of fully heterogeneous anti-TNP PFC responses. These results indicate that B cells responsive to different TI TNP antigens mature at different times and at different rates during ontogeny. Late maturation events of such B cells do not include the acquisition of additional V-region specificities as detected in a PFC inhibition assay.     

Generation of immune memory by haptenated derivatives of thymus-independent antigens in C57BL/6 mice. I. The differentiation of memory B lymphocytes into antibody-secreting cells depends on the nature of the thymus-independent carrier used for memory induction and/or revelation

It has been previously reported that trinitrophenylated lipopolysaccharide (TNP-LPS), a thymus-independent (TI)-1 antigen, elicits an anamnestic response to TNP in C57BL/6 mice. The ability of these mice to mount a secondary response to TI-2 antigens was analyzed. Priming with DNP-Ficoll or DNP-Dextran, both TI-2 antigens, resulted in an increased frequency of TNP-binding B lymphocytes. Evidence is presented that memory cell-induction by DNP-Ficoll does not require functional T cells. The differentiation into antibody-forming cells (AFC) of memory cells generated by DNP-Dextran or DNP-Ficoll cannot be obtained by a challenge with either antigen. There was no indication that the lack of a secondary response to TI-2 antigens was related to suppressive T cells interfering with memory expression. Memory cells induced by DNP-Dextran or DNP-Ficoll can nevertheless be activated by TNP-LPS. In contrast to the restricted sensitivity of TNP-memory cells generated by TI-2 antigens, TNP-LPS-induced memory cells are indifferently susceptible to TI-1 or TI-2 antigenic stimulation. These results are discussed in terms of memory B-cell subpopulations.     

Hormonal modulation of responses to thymus-independent and thymus-dependent antigens in autoimmune NZB/W mice

Previous work suggested that gonadal steroids influence immunity through the thymus, but the mechanisms were unclear. To investigate the effects of these hormones on immune responses to T1 and TD antigens in autoimmune mice, we studied hybrid NZB/W mice and the nonautoimmune DBA/2 strain. Mice castrated at 14 days of age were implanted with Silastic capsules releasing, in adults, physiologic levels of E2 in males or Te in females. Sham-operated controls received empty capsules. Splenic PFC were quantified 4 to 5 days after challenge with the TI2 antigen TNP-Ficoll, the TI1 antigen TNP-LPS, or the TD antigen SRBC. Young castrated NZB/W males implanted with E2 had striking enhancement of IgM responses to TNP-Ficoll when compared to castrated Te-treated females and comparable sham-operated controls of both sexes. E2 also stimulated responses to TNP-LPS. In response to challenge with SRBC, young E2-treated NZB/W males had a consistent trend to increased IgM PFC, and the stimulatory effect of E2 on IgG plaques was variable. Physiologic doses of Te had no consistent effect on responses in young mice. In old female NZB/W mice, Te caused PFC response after immunization with TNP-Ficoll to resemble age-matched NZB/W males. As sham-operated NZB/W females grew older, PFC responses to SRBC fell. This age-related phenomenon was delayed, however, in female castrates implanted with Te. In contrast, Te clearly suppressed responses to TNP-LPS. Implantation of E2 did not alter responses to TNP-Ficoll, TNP-LPS, or SRBC in nonautoimmune DBA/2 males. This finding suggested that exogenous E2 given in physiologic doses did not influence immunologic responsiveness in a normal strain to the degree seen in hormone-sensitive NZB/W mice. It was concluded that E2 enhanced responses to a variety of exogenous antigens in autoimmune NZB/W mice. The most consistent E2-induced increase in PFC response was observed with TI antigens, suggesting that E2 exerted its effects on B cells or Ts.     

Immunoregulation in the rat: ontogeny of B cell responses to types 1, 2, and T-dependent antigens

The development of rat B cells has been examined in neonatal and adult Fischer rats through the use of type 1 (TNP-Brucella abortus), type 2 (TNP-LPS(Ph), TNP-Ficoll) and T cell-dependent (TD) (SRBC) antigens. In vivo splenic PFC responses to TNP-Brucella abortus could be induced in newborn rats and by 12 days of age had reached adult levels. In contrast, the responses to the type 2 and TD antigens were 30% and 70%, respectively, of the adult levels at 30 days of age. Adoptive transfer of the B cells from neonatal and young rats into irradiated adult hosts demonstrated that the kinetics in the development of responses to these antigens (early for type 1, intermediate for TD, and late for type 2) were not due to limiting accessory cell or T cell help in immature rats. In vitro cultures of purified B cells from neonatal and adult rats were responsive to TNP-BA and TNP-LPS(Ph) but not to TNP-Ficoll and SRBC. However, the addition of spleen cell-derived Con A supernatant to the B cell cultures resulted in responses to all four antigens, which arose as a function of B cell age, with kinetics that were identical to those observed in vivo. Fluorescent staining of B cells from rats of various ages for cell surface IgM and analysis on the fluorescence-activated cell sorter (FACS) revealed that all splenic B cells from rats 4 days of age expressed a relatively high level of sIgM, and that a subpopulation that expressed a relatively low level of sIgM increased with age until it represented approximately 50% of the adult splenic B cells. Challenging Con A supernatant-supplemented cultures of FACS-prepared low sIgM+ and high sIgM+ cells revealed that B cells responsive to TNP-Ficoll were confined to the ontogenically late-arising low sIgM+ subpopulation but that B cells responsive to TNP-BA, TNP-LPS(Ph), and SRBC were present in both subpopulations.     

Immunopotentiating effects of the adjuvants SGP and Quil A. I. Antibody responses to T-dependent and T-independent antigens

The present study was undertaken to compare the effects of two adjuvants, SGP (a starch-acrylamide polymer) and Quil A (purified saponin), with that of aluminum hydroxide (Al(OH)3) on murine primary antibody responses to T-independent (TI) and T-dependent (TD) antigens. All three adjuvants augmented the responses to the TD antigens, dinitrophenyl-keyhole limpet hemocyanin (DNP-KLH), and sheep erythrocytes (SRBC). SGP was the most potent adjuvant and increased the primary IgG response to DNP-KLH as much as 90-fold. Quil A and Al(OH)3 had comparable effects on the primary response to DNP-KLH, but Quil A was less effective than Al(OH)3 for augmenting the primary response to SRBC. Quil A and SGP both augmented the primary IgM and IgG responses to trinitrophenyl-lipopolysaccharide (TNP-LPS), TNP-Brucella (TI-1 antigens), and TNP-Ficoll (TI-2 antigens). Al(OH)3, like most commonly used adjuvants, had little or no effect on responses to TI antigens. The kinetics of the response to TNP-Ficoll was altered by SGP, since peak responses were maintained for at least 7 days, while the response to TNP-Ficoll alone peaked on Day 4 and had declined considerably by Day 7. Both SGP and Quil A could augment responses to both optimal and suboptimal doses of antigen. The adjuvant activity of SGP was diminished, but still effective, when smaller amounts of SGP were used with the immunizing antigen, and all three adjuvants were able to augment primary responses when given in separate injections from the antigen. These results demonstrate that SGP is a very effective adjuvant, and show that both Quil A and SGP have a unique ability to increase antibody responses to TI antigens, suggesting that their effects may be mediated at least partially through B cells.     

Immunopotentiation by SGP and Quil A. II. Identification of responding cell populations

The adjuvants SGP (a starch-acrylamide polymer) and Quil A (purified saponin) were shown to markedly augment antibody responses to T-independent (TI) antigens, suggesting that their adjuvant effects may be at least partially mediated through B cells. The ability of both adjuvants to augment primary responses to trinitrophenyl (TNP)-Ficoll (TI-2 antigen) in athymic nude mice further suggested these adjuvants affect B cells. SGP, however, did not induce a response to the T-dependent (TD) antigen dinitrophenyl-keyhole limpet hemocyanin (DNP-KLH) in athymic nude mice, indicating it was unable to replace the requirement for T-helper cells for responses to TD antigens. Responses to TNP-lipopolysaccharide (LPS) were augmented by SGP in CBA/N X Balb/c immune defective (xid) mice. However, SGP was unable to induce a response to TNP-Ficoll in xid mice. The SGP and Quil A augmented responses to TNP-Ficoll were completely inhibited by the mitotic inhibitor, Velban, indicating that SGP and Quil A increased the plaque-forming cell (PFC) response primarily by stimulating cell proliferation, and not by recruitment of antigen-reactive cells. The effects of the adjuvants on secondary responses were investigated using adoptive transfer experiments. SGP and A1(OH)3 both increased the induction of hapten-specific memory B cells in mice primed with DNP-KLH. SGP, Quil A, and A1(OH)3 also increased priming of carrier specific T cells. Priming of memory B cells with DNP-KLH and either A1(OH)3 or SGP was prevented when T cells were depleted with anti-lymphocyte serum (ALS) at the time of antigen priming, indicating that the augmentation of memory B-cell priming by SGP and A1(OH)3 was dependent on the presence of functional T cells. SGP and Quil A were both unable to augment memory cell induction to the TI antigen, TNP-Ficoll, even though both adjuvants markedly augmented primary IgM and IgG responses to this antigen. Based on these results, it is suggested that SGP and Quil A can mediate their adjuvant effects primarily by a direct or indirect effect on B cells although the adjuvants may also affect T cells to some extent.     

LPS regulation of the immune response: suppression of immune responses to orally administered T-independent antigen

The regulation of immune responses to gastrically administered TI antigens has been investigated, and the characterization of a regulatory cell population has been performed. Intragastric administration of TNP-haptenated homologous erythrocytes (TNP-MRBC) induced splenic IgM anti-TNP PFC responses in LPS nonresponsive C3H/HeJ mice that were higher than those in LPS-responsive C3H/HeN mice and similar to those noted in athymic (nu/nu) C3H/HeN animals. The simultaneous intragastric administration of LPS with TNP-MRBC augmented immune responses in a manner similar to that previously reported for parenterally administered LPS and antigen. Further, LPS-induced augmentation of TNP-MRBC responses was greater in athymic mice. These findings were substantiated using in vitro spleen cultures. Intragastric challenge with a 2nd TI antigen, TNP-LPS, induced approximately 8-fold higher splenic anti-TNP PFC responses in athymic C3H/HeN mice compared with those in euthymic littermates. By admixture of B and T cell populations, it was demonstrated that the host responsiveness to TNP-LPS was negatively regulated by suppressor cells. Suppressive activity resided in a Thy 1.2-bearing, irradiation-resistant, nylon wool-nonadherent cell population. These cells could be demonstrated in spleen and Peyer's patches from young or old LPS-responsive C3H/HeN mice, but not in tissues from LPS nonresponsive C3H/HeJ mice. The specificity of the regulator cells was not limited to TNP-LPS responses, since immune responsiveness to another TI antigen, TNP-dextran, was also under the control of this cell population. These studies confirm the TI nature of TNP-MRBC and indicate that immune responses to gastrically administered antigens such as TNP-LPS, TNP-dextran, and possibly TNP-MRBC are negatively regulated by a suppressor T cell population. A role for endogenous LPS in the generation of regulator cells and the effect of these cells on host responses to gut-derived antigens is discussed.     

Clonal anergy of memory B cells in epitope-specific regulation.

Immunization of carrier (keyhole limpet hemocyanin (KLH)) primed mice with the hapten-carrier TNP-KLH induces specific suppression for the IgG anti-TNP-response without interfering with the response to epitopes on the carrier molecule. To examine the status of hapten-specific memory B cells from suppressed mice, highly enriched populations of TNP-specific memory B cells were purified from the spleen of TNP-KLH (control) or KLH/TNP-KLH (suppressed) immunized mice and tested in vitro for their ability to respond to TD or TI (TNP-KLH, TNP-LPS) antigenic challenge in presence of a KLH-specific Th cell line. Similar numbers of TNP-specific B cells with the characteristics of memory B cells were obtained from control and suppressed mice. TNP-specific B cells from suppressed mice could be triggered to IgG production by TNP-LPS but had an impaired ability to differentiate into IgG-secreting cells in response to TNP-KLH. This impaired IgG response to TNP-KLH was not due to an active suppression by a subset of TNP-specific B cells, or to an impedence of memory cells to a class switching but to an intrinsic memory B cell defect. TNP-specific B cells from suppressed mice were as efficient as memory B cells from control mice to present TNP-KLH to KLH-specific Th cells and to proliferate in response to T cell help. Our data support the view that the effector mechanism of epitope specific regulation does not interfere with the development of hapten-specific memory B cells but that these cells have an intrinsic defect that prevents their differentiation into active IgG antibody secreting cells in response to a T-dependent antigenic challenge.     

Functional relationships between B-cell subsets: evidence for an antigen-induced B1 leads to B2 switch

Priming of mice with the TI-2 antigen TNP-Ficoll results in an increased secondary anti-TNP response to the TD antigen TNP-KLH. Spleen cells obtained from mice primed with TNP-Ficoll or TNP-LPS, but not TNP-KLH, gave augmented responses to DNP-Dextran, TNP-LPS, or LPS. In vitro treatment of spleen cells with DNP-Dextran results in an increased anti-TNP response to TNP-LPS. This effect is also obtained if mitogenic doses of Dextran and LPS are used to induce cell proliferation. We conclude that the B_i2 subset (responding to TNP-Ficoll and DNP-Dextran) switches to the B2 subset (responding to TNP-KLH) after antigen activation. The B_i1 subset (responding to TNP-LPS) may represent an intermediate stage of B-cell differentiation.     

Induction of antigen-specific proliferation in affinity-purified small B lymphocytes: requirement for BSF-1 by type 2 but not type 1 thymus-independent antigens

We report here the role of B cell stimulatory factors in the induction of antigen-specific proliferation of affinity-purified small B lymphocytes. TI-1 antigens such as TNP-LPS and TNP-BA induced proliferation of hapten-binding B cells in the absence of exogenous B cell stimulatory factors. TI-2 antigens such as TNP-Ficoll required the co-stimulator BSF-1 to induce antigen-specific proliferation, and this response could be augmented by IL 1. TD antigens such as TNP-OVA were unable to induce antigen-specific proliferation either in the absence or presence of B cell stimulatory factors, and showed an absolute activation requirement for carrier-specific helper T cells. No role for IL 2 or BCGF II could be found in the factor-dependent proliferative response of hapten-binding B cells to TI-2 antigens, either as primary co-stimulators or as modulators of the response obtained with TNP-Ficoll, BSF-1, and IL 1. In contrast, concentrations of IFN-gamma that were nontoxic for normal B cells and B cell hybrids effectively abrogated the proliferative response of affinity-purified cells to TNP-Ficoll, BSF-1, and IL 1. By all of these criteria, the B cell activation requirements of TI-2 antigens appear to be identical to those previously published for soluble anti-IgM antibodies.     

The early postnatal development of the primary immune response in rat popliteal lymph node,stimulated with thymus-independent type-1 and type-2 antigens

Summary To examine the development of the postnatal immune response to thymus-independent type-1 (TI-type 1) and TI type-2 antigens, respectively, trinitrophenyl-lipopolysaccharide (TNP-LPS) or TNP-Ficoll was injected subcutaneously into the hind footpads of young rats of various ages. After 5 days the popliteal lymph nodes (PLNs) were removed and the localization pattern of specific anti-TNP antibody-containing cells was studied. The first specific antibody-containing cells elicited in rats by TNP-LPS appeared in animals at day 19 after birth. The results suggest that the development of these cells from lymphocyte to plasma cell occurs while they migrate from cortex to medulla. An unexpected finding was the low response to TNP-Ficoll in PLN; from 6 weeks after birth only very few specific antibody-containing cells were found. However, in the spleen numerous anti-TNP antibody-containing cells were found in the periarteriolar lymphocyte sheaths. To test the exclusive role of the spleen in the appearance of anti-TNP antibody-containing cells in lymph node after subcutaneous administration of TNP-Ficoll, the experiment was repeated in rats that had been splenectomized. Evidence from these experiments suggests that the spleen plays a major role in the appearance of the above-mentioned cells in lymph nodes.Abbreviations KLH keyhole-limpet haemocyanin - LPS lipopolysaccharide - PBS phosphate-buffered saline - PLN popliteal lymph node - TD thymus-dependent - TI thymus-independent - TNP trinitrophenyl     

Selective effect of irradiation on responses to thymus-independent antigen

Low doses of ionizing radiation have a selective immunosuppressive effect on in vivo B cell responses to thymus-independent (TI) antigens. The B cell response, assayed as direct anti-trinitrophenyl (TNP)-specific plaque-forming cells (PFC), induced by type 2, TI antigens (TNP-Ficoll or TNP-Dextran), was reduced, on the average, by 10-fold in animals exposed to 200 rad of ionizing radiation 24 hr before antigen challenge. In contrast, PFC responses to type 1, TI antigens (TNP-lipopolysaccharide or TNP-Brucella abortus) are unaffected in mice exposed to the same dose of radiation. Adoptive transfers showed that this selective immunosuppression is a result of the specific inactivation of the B cell subpopulation responding to type 2, TI antigens. These experiments suggest that physiologic differences exist in the B cell subpopulations of normal mice which respond to type 1, or type 2, TI antigens.     

The capacity and mechanism of bone marrow antibody formation by thymus-independent antigens

Primary immunization of mice with certain thymus-independent (TI) antigens (i.e., TNP-LPS and DNP-Ficoll) leads to antibody formation in the bone marrow (BM). TNP-Brucella abortus, Pneumococcus pneumoniae organisms, and alpha-(1,6) dextran, on the other hand, do not induce a BM antibody-producing plaque-forming cell (PFC) response. This paper deals with the mechanism underlying antibody formation in the BM to TNP-LPS and DNP-Ficoll. The majority of the BM-localizing PFC induced by TNP-LPS are formed within the BM from the proliferating lymphocyte pool, because this response was found to be resistant to splenectomy and sensitive to treatment with hydroxyurea (HU) before immunization. This local activation of newly formed B cells requires in addition to the antigenic signal of TNP-LPS the mitogenic signal from the lipid A component of LPS. In contrast, the BM PFC response to DNP-ficoll was reduced in splenectomized mice and resistant to HU treatment before the primary immunization. Thus, antibody formation in the BM to DNP-Ficoll is mainly dependent on long-lived B cells that migrate from the peripheral lymphoid organs into the BM.     

Functional evidence for abnormal maturation within a B-cell subpopulation of NZB mice

NZB mice develop a systemic autoimmune disease and have a subpopulation of B lymphocytes that spontaneously produce excessive amounts of IgM. These abnormal B cells reside within a specific B-cell subset that is affected by the CBA/N defect. In normal mice, this B-cell subset acquires in vitro responsiveness to certain thymus-independent antigens (TI-2) relatively late in ontogeny. We compared the functional development of neonatal B cells from NZB mice to that of normal mice of the same H-2 type. The acquisition of in vitro responsiveness to the TI-1 antigen, TNP-LPS and the TI-2 antigens, TNP-Dextran, TNP-Ficoll, and FITC-Ficoll was examined. TNP-LPS could elicit a response from both normal and NZB neonates. In contrast, responses to the TI-2 antigens were elicited early in life (<1 week) only from or at a higher level from NZB neonates. However, an accelerated appearance of B-cell differentiation antigens was not detected in NZB neonates compared to normal strains. We conclude, therefore, that a maturation or triggering defect occurs in a small B-cell subpopulation of NZB mice very early in life.     

Reduced Number of Transitional and Naive B Cells in Addition to Decreased BAFF Levels in Response to the T Cell Independent Immunogen Pneumovax?23

Protective immunity against T cell independent (TI) antigens such as Streptococcus pneumoniae is characterized by antibody production of B cells induced by the combined activation of T cell independent type 1 and type 2 antigens in the absence of direct T cell help. In mice, the main players in TI immune responses have been well defined as marginal zone (MZ) B cells and B-1 cells. However, the existence of human equivalents to these B cell subsets and the nature of the human B cell compartment involved in the immune reaction remain elusive. We therefore analyzed the effect of a TI antigen on the B cell compartment through immunization of healthy individuals with the pneumococcal polysaccharide (PnPS)-based vaccine Pneumovax^®23, and subsequent characterization of B cell subpopulations. Our data demonstrates a transient decrease of transitional and naïve B cells, with a concomitant increase of IgA⁺ but not IgM⁺ or IgG⁺ memory B cells and a predominant generation of PnPS-specific IgA⁺ producing plasma cells. No alterations could be detected in T cells, or proposed human B-1 and MZ B cell equivalents. Consistent with the idea of a TI immune response, antigen-specific memory responses could not be observed. Finally, BAFF, which is supposed to drive class switching to IgA, was unexpectedly found to be decreased in serum in response to Pneumovax^®23. Our results demonstrate that a characteristic TI response induced by Pneumovax^®23 is associated with distinct phenotypical and functional changes within the B cell compartment. Those modulations occur in the absence of any modulations of T cells and without the development of a specific memory response.     

Inappropriate expression of IgD from a transgene inhibits the function of antigen-specific memory B cells

IgD expression has been shown to be downmodulated upon mitogenic or antigenic activation of B cells. To investigate whether this decrease is of functional significance we studied a mouse strain that expresses transgenic IgD on all B cells. The rearranged gene encoding the heavy chain of this IgD requires endogenous gene rearrangement before it can be expressed; therefore, normal B cell development is not affected. As a result, both transgenic IgD and endogenous IgM and IgD are expressed on all peripheral B cells. We show that the presence of extraneous IgD does not affect normal B cell activation by polyclonal stimulators, nor does it affect the primary IgM or IgG responses to TI or TD antigens. However, the secondary memory response is significantly diminished. The decrease is not attributable to a defective generation of memory B cells; instead the activation of memory cells appears to be compromised. Since the depressed response can be overcome by prior aggregation of the transgenic IgD with allotype-specific anti-IgD antibodies, it appears that persistence of the transgenic IgD on memory cells may influence their ability to be activated. Thus, the decrease in IgD expression on normal B cells after activation may be necessary for optimal activation of memory cells.     

Immune responses to T-dependent and T-independent antigens during visceral leishmaniasis in mice: evidence for altered T-cell regulation of immune responses to non-parasite antigens

Antibody responses to T-dependent and T-"independent" antigens were studied in disease-susceptible (BALB/c and C57BL/10) and disease-resistant (A/J) mice infected with Leishmania donovani chagasi. Disease-susceptible mice but not disease-resistant mice showed a transient decrease in PFC responses to TNP on a T-dependent carrier (BGG) during the period of 4-8 weeks after infection. Infected disease-susceptible animals also showed increased responses to TNP on a type II T-independent carrier (Ficoll), which persisted until at least 14 weeks after infection. The increased responses were associated with a significant increase in anti-TNP antibody of the IgG2b subclass. When T-enriched spleen cells from infected mice and B-enriched spleen cells from uninfected mice were transferred to irradiated recipients immunized with TNP-Ficoll, increased anti-TNP PFC were observed over numbers seen in irradiated recipients which received both B and T cells from uninfected mice. Increased responses to TNP-Ficoll were also induced by prior administration of soluble leishmania extract in CFA. Infected mice immunized with TNP-LPS, a T-independent type I antigen, also had increased anti-TNP antibody responses, but had normal anti-LPS antibody responses. The elevated antibody production which occurred in response to the T-"independent" antigens could not be attributed to the relatively low polyclonal response which occurred in both disease-resistant and disease-susceptible mice infected with L. donovani chagasi. The observations are consistent with leishmania induced, transient alterations in some T-cell functions including response to haptens on T-dependent carriers, and a lack of down regulation of T-"independent" responses. Subtle lesions in immunoregulation may be important correlates of successful protozoal infection and may be responsible for some of the immunologic manifestations of the disease.     

Development of B cell subsets: effect of priming on in vitro TNP-LPS responsiveness.

Mice were injected with DNP-derivatives of thymus dependent (DNP-OA) and thymus-independent (DNP-Ficoll and TNP-LPS) antigens, and the response to TNP-LPS in vitro was studied after several priming periods. DNP-OA priming decreases the amount of cells responding to TNP-LPS in vitro. In the case of DNP-Ficoll and TNP-LPS-primed cells, there is an initial burst of responsiveness to TNP-LPS, which progressively decreases until an abolishment of TNP-LPS responsiveness is found at day 40 after immunization. The sensitivity to TNP-LPS reappears as new precursor cells differentiate into mature cells. We suggest that B cells progressively gain the capacity to respond to thymus-independent and thymus-dependent antigens (B1-B2 differentiation) and that challenge with a particle antigen increases the ratio of maturation throughout the pathway.     

Delayed maturation of the antibody response to type 2 thymus-independent antigens in a partially inbred strain of chicken

The ontogeny of antibody responses to trinitrophenylated (TNP) thymus-independent (TI) antigens was compared in two partially inbred strains of chicken: the SC strain (B2/B2 genotype) and the FP strain (B15/B22 genotype). In the SC chicken, maturation of both the splenic anti-TNP plaque-forming cell (PFC) response and the 19S hemagglutinating antibody response to TI type 2 (TI-2) antigens, TNP-Ficoll and TNP-dextran, were delayed to a significantly later time in ontogeny (20 wk of age) than in the FP chickens (9 wk of age). Four- to 6-wk-old SC chickens were virtually immunologically unresponsive to stimulation with TI-2 antigens. The TI-1 antigen TNP-Brucella abortus was equally immunogenic in both FP and SC chickens of different age groups tested. Kinetic studies of the primary PFC response to TNP-Ficoll in immunologically mature chickens of the SC and FP strains demonstrated a peak PFC response 4 days after antigen injection, followed by a rapid decline in numbers of splenic PFC/spleen on day 6. The results of these studies are discussed in relation to earlier observations that suggested there may be a delay or a defect in the ontogeny of the thymus in the SC chicken.