Two signals are required for accessory cells to induce B cell unresponsiveness. Tolerogenic Ig and prostaglandin

We previously demonstrated that a lymphoid dendritic cell-like tumor line (P388AD.2) presented a normally tolerogenic signal, fluoresceinated sheep gamma-globulin (FL-SGG), as an immunogenic one. In contrast, macrophages derived from the peritoneal cavity potentiated the ability of FL-SGG to induce B cell unresponsiveness. In this paper we examined whether two different Ia+ splenic accessory cells differentially presented tolerogen to spleen cells or fluorescein (FL)-binding B cells. Interestingly, lymphoid dendritic cells presented FL-SGG to spleen cells and elicited augmented anti-FL antibody responses, whereas splenic macrophages presented this same moiety and elicited hapten-specific B cell unresponsiveness. The mechanism of splenic macrophage-elicited B cell negative signaling was investigated, and it was found that B cell unresponsiveness was abrogated in the presence of the cyclooxygenase inhibitor indomethacin. This observation suggested a crucial role for PG in B cell negative signaling. The addition of 10 nM PGE2 restored unresponsiveness in cultures treated with indomethacin and tolerogen-pulsed macrophages, even though this dose of PG had no effect on the ability of B cells to be triggered by an immunogenic signal. A role for T cells was excluded, inasmuch as purified hapten-specific B cells were specifically tolerized by FL-SGG-pulsed macrophages. Lymphoid dendritic cells pulsed with FL-SGG did not deliver a tolerogenic or immunogenic signal to FL-specific B cells. However, when PGE2 was supplied, B cell unresponsiveness was induced. Finally, we tested whether "non-tolerogenic" doses of FL-SGG could render hapten-specific B cells unresponsive in the presence of PGE2, but in the absence of accessory cells. Interestingly, the combination of non-tolerogenic amounts (10 to 1000 pg/ml) of FL-SGG in conjunction with PGE2 induced unresponsiveness, whereas neither moiety alone was effective. These results suggest that splenic macrophages and lymphoid dendritic cells exert opposing effects on the immune system as evidenced by the induction of negative or positive B cell signaling. Our observations suggest that one of the key factors in controlling whether an accessory cell delivers a tolerogenic signal is the ability to secrete PG.     

Regulation of macrophage populations. I. Preferential induction of Ia-rich peritoneal exudates by immunologic stimuli

The amounts of Ia-positive and -negative macrophages were studied in peritoneal exudates of normal mice or of mice injected with various inflammatory materials, infected with Listeria monocytogenes, or injected with hemocyanin. Ia-negative macrophages predominated in exudates from normal mice or from mice given mineral oil, peptone, thioglycollate, culture media, or endotoxin. Infection with Listeria caused a very marked increase in Ia-positive macrophages. The induction of Ia-positive macrophages by Listeria inoculation resulted in great part from an immune process. The Ia-positive exudates were more readily generated in immune mice given a secondary challenge with heat-killed organisms. Furthermore, immune T cells transplanted together with heat-killed organisms into normal mice resulted in Ia-rich exudates. Injection of hemocyanin also induced Ia-rich exudates involving an immune process. We conclude that an immune reaction involving T cells regulates the Ia phenotype of the exudate macrophage population. The Ia-positive macrophages were Fc and C3 receptor positive and phagocytized latex particles.     

Participation of the humoral immune system in the myeloma-specific transplantation resistance

Studies are reported that examine the participation of humoral and cellular responses in the myeloma-specific transplantation resistance induced by preimmunization of BALB/c mice with purified myeloma protein M315. A plasmacytoma spleen colony-forming assay was used to provide a quantitative estimate of the tumor immunity in recipients of unfractionated spleen cells or serum from mice immunized four to seven times with M315. The primary findings were: 1) that the tumor immunity can be transferred by immune spleen cells provided that a boost of M315 is given to adoptive hosts, and 2) that passively transferred serum containing anti-M315 idiotype antibody (a-Id315) can also inhibit tumor growth. Adoptive transfer was successful in the presence of minute amounts of a-Id315, whereas passive transfer required relatively large amounts of activity. The passive transfer experiments involved an extended injection schedule and thus could not discriminate between direct effects of antibody or idiotype-specific humoral substances on tumor cells or inductive effects on the cellular immune system. Experiments examining the properties of the immune elements involved in the transplantation immunity demonstrated that, once established, they are resistant to acute radiation (to 800 R) and cortisone damage.     

Mechanism of tolerance to VI-antigen of Salmonella typhi induced by cyclophosphane

High dose Vi-antigen treatment and injection of cyclophosphamide 46 to 48 hours later induced in mice a state of immunological unresponsiveness remaining stable in adoptive transfer. Only low amounts of the antigen were revealed in the blood and spleen of tolerant animals 2 to 3 weeks after the tolerogenic treatment. No T-suppressors were found in the spleen of tolerant mice--the cells of tolerant mice failed to suppress the immune response of normal lymphocytes when transferred together to the irradiated recipients, or to induce tolerance in normal mice. Normal spleen cells restored partially the immune responsiveness in tolerant animals. The results obtained suggest that cyclophosphamide tolerance was due to deletion or the long-term inactivation of the immunocompetent cells.     

Protective effect of recombinant human interleukin-2 against lethal infection caused by Klebsiella pneumoniae

The effects of recombinant human interleukin-2 (rIL-2) administered prophylactically on the death of CBA/J mice challenged with Klebsiella pneumoniae 27 intraperitoneally were examined. rIL-2 administered subcutaneously at 20 micrograms per mouse for 7 days enhanced survival after a lethal challenge. The injection of anti-asialo GM1 antibody did not influence the effect of rIL-2. In mice given rIL-2, the number of peritoneal macrophages increased, and the infiltration of polymorphonuclear leukocytes (PMN) into the peritoneal cavity after the bacterial challenge was enhanced. In addition, adoptive transfer of sera and peritoneal exudate cells (PEC), consisting of an approximately equal number of macrophages and PMN, obtained from mice given rIL-2 enhanced resistance to a K. pneumoniae infection, compared with adoptive transfer of sera and PEC obtained from mice not given rIL-2. These results indicate that rIL-2 protects mice from a lethal challenge with K. pneumoniae, and suggest that the protective effect is due to an increase in the number of phagocytic cells and in the cooperative activity of the sera and the phagocytic cells.     

Transfer of Protection to Murine Typhoid Conferred by L-Form Salmonella typhimurium in Dependence of Cooperation between L Form-Adopted Macrophages and L Form-Induced Lyt-2+ T Cells

The effector cells responsible for protection to Salmonella typhimurium in C3H/HeJ mice, conferred by L-form S. typhimurium, were determined by cell transfer test. Nonfractionated spleen cells from 6-week immune mice but not from 24-week immune animals transferred anti-S. typhimurium immunity. Treatment with anti-macrophage antiserum and complement most effectively abolished protective capacity in 6-week immune cells, while anti-T cell monoclonal antibody plus complement reduced it to a lesser extent. However, adoptive protection was achieved only by transfer of immune macrophages along with Lyt-2⁺ T cells selected from 6-week immune spleen cells. These Lyt-2⁺ T cells were cytotoxic to Kupffer cells from C3H/HeJ mice which had been infected 48 hr previously and from the mice which had been immunized 1 week previously, but not to the cells from 6-week immune mice and from normal animals. Moreover, protective capacity in immune macrophages seemed to be correlated to the degree of colonization by the L forms, and the inability to transfer immunity of 24-week immune spleen cells may be due to the decrease in the L form-colonization. These results suggest that cooperation between the L form-colonized macrophages and L form-induced cytotoxic Lyt-2⁺ T cells contributes to anti-S. typhimurium immunity, and might imply the immunological difference between the 6-week immune phagocytes and the cells at an early stage of infection or immunization.     

Tumor-specific immunity induced by somatic hybrids. II. Elicitation of enhanced immunity against the parent plasmacytoma.

Hybrid cells derived from fusion of a BALB/c plasmacytoma (TEPC-15) and L cells (C3H origin) were used to stimulate tumor-specific immunity against the parental plasmacytoma cells. Live hybrid cells induced tumor-specific immunity against TEPC-15 more effectively than mitomycin-treated hybrid or TEPC-15 tumor cells. Adoptive transfer of immunity with spleen cells of mice immunized with hybrid cells was also more effective than that with mitomycin-treated tumor cells. The immunity induced by the hybrid cells was specific to the TEPC-15 tumor because the mice that received immune spleen cells were not protected against challenge with either HOPC-8 or McPC-603 plasmacytomas. T cell populations were primarily responsible for the transfer of specific immunity based on the sensitivity of immune cells to anti-Thy 1.2 and complement. Mice that had established solid tumors were treated with 5 x 10(7) spleen cells to evaluate the therapeutic value of the hybrid-induced immune cells. Tumors in the mice that received immune cells gradually regressed over a 40-day period, whereas tumors on the control mice continued to grow. These results suggest that a rearrangement of tumor-specific antigens on allogeneic hybrid cells can enhance their immunogenicity.     

Transfer Agent of Immunity

An immune ribonucleic acid (RNA) was extractable from the spleen cells of mice hyperimmunized with live vaccine of Salmonella enteritidis. The RNA was capable of inducing cellular immunity and developing cellular antibody in the peritoneal macrophages of mice injected with this agent. It was found that cellular immunity was detectable even 90 days after injection in the peritoneal macrophages of mice which had received an intraperitoneal injection with this agent. Results of serial passive transfers of cellular immunity through immune RNA led us to the conclusion that this agent does not contain antigen or fragment thereof and may replicate actively in the recipient cells, although the mechanism still remains to be elucidated. The development of cellular immunity by immune RNA was inhibited by puromycin but not by actinomycin D. However, serial passive transfers of cellular immunity through immune RNA was inhibited by treatment of recipient mouse with actinomycin D, implying the role of DNA-dependent RNA polymerase in the processing of immune RNA in recipient cells. Using these results, the role of immune RNA and the possible mechanisms of immune RNA replication are discussed.     

Modulation of granulomatous hypersensitivity against Schistosoma mansoni eggs in mice vaccinated with culture-derived macrophages loaded with PIII

Granuloma modulation induced by antigen is an attractive model for vaccination studies of experimental schistosomiasis to test the effect of anti-pathology vaccine. We describe here an immunization procedure with culture derived macrophages-pulsed PIII, a known anionic antigen purified from S. mansoni adult worm, involved in the inhibition of granulomatous response to eggs. For our studies, peritoneal or spleen macrophages cultured over 15 days were loaded with PIII. Both macrophage sub-populations were capable to efficiently take up and subsequently present PIII to lymphocytes as evidenced by immunofluorescence assay. The vaccination of mice with intravenous injection of PIII-loaded macrophages potently induced antigen-specific immune response to S. mansoni antigens as determined by cell proliferation assay. This immunization procedure of mice caused significant decrease in hepatic granuloma formation and in vitro granuloma reaction to S. mansoni antigens coupled to polyacrylamide beads (PB-SEA, PB-SWAP or PB-PIII). Assessment of in vitro granuloma supernatant of spleen cells from PIII-loaded macrophages vaccinated mice revealed significant amounts of Th1-cytokines IFN-gamma and IL-2 compared to control cells. Collectively, our results indicate that culture derived-macrophages provided a valuable research tool to investigate aspects of immune response that promote modulation of granulomatous hypersensitivity to S. mansoni eggs in mice.     

Role of thymus-derived lymphocytes in acquired immunity to salmonellosis in mice

The relative role of thymus-derived (T-) lymphocytes and bone marrow-derived (B-) cells in acquired immunity to salmonellosis was examined in mice. The results demonstrate that the protective capacity of the donor immunized mice could be passively transferred to the recipient mice by spleen cells but not with peritoneal exudate cells or sera. A high cell number of spleen cells (2 X 10(8)/mouse) were required before passive transfer of immunity could be obtained. Of the T-lymphocytes and B-cell populations of spleen cells, T-cells from immune mice were effective in conferring protection to the recipient mice.     

Effect of Bacillus Calmette-Guérin infection on delayed footpad reaction to Listeria monocytogenes

The role of peritoneal macrophages induced by Bacillus Calmette-Guérin (BCG) in the induction of immune responses to Listeria monocytogenes was studied in mice. The peritoneal macrophages from mice treated with BCG 14 days previously contained a high proportion of Ia-bearing macrophages (approximately 56%) and the cells showed not only a high level of listericidal activity but also a strong ability for presentation of listerial antigen to Listeria-immune T cells. An intraperitoneal inoculation with a low dose of Listeria, which can induce the maximal level of delayed footpad reaction (DFR) and positive migration inhibitory activity of macrophages in untreated mice, did not induce a detectable level of such responses in BCG-treated mice. The bacterial growth at an early stage of infection was suppressed by scavenger macrophages in these mice. On the other hand, BCG-treated mice showed the early development of DFR and macrophage migration inhibitory activity after an inoculation with a high dose of Listeria. It is revealed in transfer experiments that Listeria-pulsed peritoneal exudate cells induced by BCG elicited the highest level of DFR and positive migration inhibition of macrophages in normal mice at the earlier period of injection compared with Listeria-pulsed resident peritoneal cells. These results suggested that the increased activities of macrophages acting as scavenger cells and as antigen-presenting cells play important roles in the modification of immune responses to Listeria in BCG-treated mice.     

Microbial adjuvant and autoimmunity. IV. The induction of thyroid lesions in syngeneic X-irradiated mice by the transfer of spleen cells from mice immunized with thyroid extract and Klebsiella O3 lipopolysaccharide

The role of humoral and cellular immune responses in the initiation and maintenance of autoimmune thyroiditis was investigated in mice immunized with syngeneic thyroid extract and Klebsiella O3 lipopolysaccharide (KO3 LPS) as an adjuvant. The transfer of spleen cells from hyperimmunized mice to 400R-irradiated syngeneic mice produced definite lesions in the thyroid glands, whereas the transfer of immune sera failed to do so. No lesions were induced in normal intact mice by the same transfer of sera and spleen cells from hyperimmunized mice. It was suggested that the induction of thyroiditis by immunization using KO3 LPS adjuvant is primarily due to cell-mediated immunity and that pretreatment of mice by X-irradiation is essential for production of the lesions. The role of X-irradiation in the induction of thyroiditis was discussed.     

Tumor-specific immunity induced by somatic hybrids: III. Persistence of adoptively transferred immunity specific for TEPC-15 plasmacytoma in normal BALB/c mice

Immunity against TEPC-15 tumor cells was induced in BALB/c mice by injecting semi-allogeneic hybrid cells derived from fusion of TEPC-15 tumor cells with LM(TK^?) cells of the C3H origin. Adoptive transfer of spleen cells from the immune mice into normal BALB/ c recipients rendered them free from tumors following tumor challenge; the recipients were most significantly protected from the tumor when tumor cells were injected 7–14 days after the adoptive transfer of immune cells. Such immunity following adoptive transfer appeared to persist in the recipients for at least 60 days. Moreover, the tumor-specific immunity was consecutively transferable (more than nine passages) into normal BALB/c recipients by serially passing spleen cells from the recipients every 14 days, without further stimulation with the hybrid cells or inactivated TEPC-15 tumor cells. Such consecutive transfer of the immune spleen cells induced splenomegaly in the recipients: a two- to five-fold increase over normal spleen cell recipients. The ability of spleen cells to transfer immunity, but not splenomegaly, was abrogated by treatment with mitomycin C. These results suggest that proliferation of donor cells is necessary to transfer immunity, and that splenomegaly alone does not manifest such immunity in the recipients.     

MHC-unrestricted transfer of antilisterial immunity by freshly isolated immune CD8 spleen cells

Immune CD8 cells, which play an essential role in the adoptive transfer of antilisterial immunity, can specifically lyse Listeria-bearing macrophages in vitro in an MHC-unrestricted manner. In contrast, the adoptive transfer of immunity by unseparated immune lymphocytes has been reported to be MHC-restricted. To address the restriction properties of CD8 effectors in vivo, we assessed their efficacy in protecting syngeneic and allogeneic recipients. Protection was determined by comparing the number of viable splenic Listeria in naive mice and in recipients of 60 million CD8-enriched, L3T4-depleted, Listeria-immune spleen cells, 2 days after the infusion of 10,000 Listeria. Donor cells from B6 (H-2b) mice transferred about 4 logs of protection in syngeneic recipients and more than 2 logs in allogeneic B10.A (H-2a) or B10.BR (H-2k) mice. Immune B10.A CD8 cells transferred equivalent protection to B6 mice. Protection was almost completely abrogated by the lysis or lethal irradiation of CD8 cells before transfer in vivo. On the other hand, the depletion of macrophages or NK cells did not impair adoptive transfer. By comparison, nonimmune CD8 cells from normal mice or from mice stimulated with an irrelevant Ag in vivo did not transfer substantial immunity to allogeneic recipients. We have noted previously that protective CD8 cells inhibit phagocyte accumulation in the spleen of Listeria-infected syngeneic recipients. In the present studies, we observed similar changes in adoptively immunized allogeneic mice. Reduced phagocyte accumulation may reflect Listeria-dependent lysis of infected phagocytes by immune CD8 cells. In support of this, we showed that Listeria-immune donor cells rapidly acquired the capacity to mediate Listeria-dependent, MHC-unrestricted lysis of macrophages after incubation with small amounts of IL-2 in vitro. In sum, our data establish that Listeria-immune CD8 cells can function in vivo in MHC incompatible hosts, and indirectly support the hypothesis that the destruction of infected phagocytes may be important in T cell-mediated immunity against Listeria and perhaps other intracellular pathogens.     

In situ activation of syngeneic tumour-specific cytotoxic T lymphocytes: Intra-pinna immunization followed by restimulation in the peritoneal cavity

Summary Tumour-specific cytotoxic T lymphocytes (CTL) are usually obtained after immunization in vivo and restimulation of immune cells in vitro. We here describe the generation of syngeneic tumour-specific CTL within no more than 9 days by priming and restimulation in vivo. This is achieved only if the correct sites are used both for primary immunization (ear pinna) and for restimulation (peritoneal cavity). The kinetics of immune T cell induction and of the secondary response in vivo will be reported. While a secondary CTL response could be generated in the peritoneal cavity, this was not possible in the spleen, no matter which routes of antigen restimulation were used. Upon transfer of immune spleen cells into the peritoneal cavity but not into the spleen, a secondary response could be generated upon in situ restimulation, indicating the importance of the correct microenvironment for this type of response. The peritoneal effector cells were true T cells and recognized a tumour-associated antigen in association with the K^d major histocompatibility (MHC class I) antigen. Finally the activated tumour-specific peritoneal exudate cells were able to transfer protective immunity without exogenous interleukin-2 into normal syngeneic mice.     

Pharmacologic control of the hormonally modulated immune response. III. Prolongation of allogeneic skin graft rejection and prevention of runt disease by a combination of drugs acting on neuroendocrine functions.

A recently developed pharmacologic means for suppressing acquired immunity by drugs acting on neuroendocrine regulation has been applied to transplantation immune reactions. A number of drugs have been tested singly and in combination for their capacity to suppress the immune response of mice grafted with allogeneic skin. Another model involved newborn F1 hybrid recipients inoculated with spleen cells from donors of parental strains that had been made specifically "unresponsive" by drug and alloantigen treatment. These procedures led to the identification of a combination of four drugs that induced a remarkable delay in allograft rejection and a prolonged unresponsiveness to alloantigens. This combination of drugs also abrogated the graft-vs-host-runting syndrome in newborn hybrid recipients.     

Effect of cyclophosphamide on suppressor cell activity in mice unresponsive to EAE.

Protection against experimental allergic encephalomyelitis (EAE) was induced in susceptible mice of (SJL/J X BALB/c)F1 hybrid, by injection of either mouse spinal cord homogenate, the small mouse basic protein, or Cop 1 in incomplete Freund's adjuvant, before EAE induction. It was demonstrated that the unresponsiveness induced by the three antigens is mediated by suppressor T cells residing in the spleen cell population and can be adoptively transferred to normal syngeneic recipients. Low dose of cyclophosphamide (20 mg/kg) administered 2 days before the encephalitogenic challenge abrogated the unresponsiveness to EAE and reverted the protected mice sensitive to disease induction. Cyclophosphamide was also active on adoptively transferred unresponsiveness, thus donors that had been treated with cyclophosphamide were unable to further transfer unresponsiveness to EAE. These results indicate the elimination by cyclophosphamide of suppressor cells that interfere with the effector mechanisms leading to EAE.     

Effects of intravenous silica on immune and non-immune functions of the murine host.

Silica, an agent toxic for macrophages, administered i.v. to DBA/2 mice rapidly depresses the clearance of colloidal carbon by the reticuloendothelial system and reduces the in vitro phagocytic activity of peritoneal macrophages harvested 3 days after silica injection. Silica blocks the humoral immune response to sheep erythrocytes and the cell-mediated immune response to allogeneic fibroblasts when given before antigen. Silica also induces complex alterations in spleen cell responsiveness to concanavalin A involving both local and serum factors. Silica had no significant effect on the induction of interferon by statolon or Newcastle disease virus. No unequivocal evidence was obtained that silica has a direct depressive effect on cells other that macrophages, but indirect effects on lymphocytes were produced most likely by factors released from silica-lysed macrophages. Intravenous silica may prove useful for the separation of interferon induction and immune response stimulation in studies of host resistance to infection and oncogenesis. Considerable variation exists in the immunodepressive effects of different preparations of silica.     

Role of immunity in age-related resistance to paralysis after murine leukemia virus infection.

Resistance to the paralytic effects of a wild mouse (Cas-Br-M) murine leukemia virus infection develops with age and is complete by 10 days of age in susceptible NFS mice. The possibility that cell-mediated immunity plays a significant role in this resistance was suggested by the observation that treatment of 10-day-old mice with antithymocyte serum rendered them susceptible to paralysis. By comparison, mice rendered incapable of generating a humoral immune response by treatment from birth to 1 month of age with anti-immunoglobulin M serum did not develop paralysis after challenge with virus at day 10. Transfer of unseparated and T-cell-enriched populations of Cas-Br-M murine leukemia virus-immune spleen cells protected neonatally infected NFS recipients from paralysis; transfer of Cas-Br-M murine leukemia virus-immune populations enriched for B cells delayed the onset but did not ultimately protect neonatally infected NFS mice from paralysis. Transfer of naive adult spleen cells had no protective effect in neonatally infected NFS mice. High-level virus replication occurred in the spleens and brains of all mice that developed paralysis regardless of treatment; low-level virus replication in spleen and barely detectable replication in brain occurred in mice that remained clinically normal. These studies suggest that the age-acquired resistance to the paralytic effect of Cas-Br-M murine leukemia virus infection is immunologically mediated and that T cells may play a major role.     

Efficacy of cell-free antigens in evaluating cell immunity and inducing protection in a murine model of histoplasmosis

Histoplasma capsulatum is a dimorphic pathogenic fungus that causes a wide spectrum of disease when mycelial fragments are inhaled. Resistance to H. capsulatum is dependent on cellular immunity mediated by T cells and macrophages. Here we standardized the production of extracts containing cell-free antigens (CFAgs) and observed their efficacy in evaluating cellular immunity during murine histoplasmosis. CFAgs induced a more potent delayed-type hypersensitivity (DTH) response in H. capsulatum-infected mice than did histoplasmin-a classical antigen. This DTH response to CFAgs is able to determine the immune status of infected mice and to predict their death. Moreover, CFAgs stimulated spleen cells from immune mice to produce higher amounts of gamma interferon (IFN-gamma) in vitro. Finally, immunization with CFAgs protected against a lethal inoculum of H. capsulatum. These results demonstrate that CFAgs may be useful for the evaluation of cellular immune response and as a potential source for the development of a vaccine against histoplasmosis.