Regulation of delayed-type hypersensitivity IV. Antigen-specific suppressor cells for delayed-type hypersensitivity induced by lipopolysaccharide and sheep erythrocytes in mice.

Mice injected subcutaneously with 1 x 10(8) sheep red blood cells (SRBC) developed high levels of delayed-type hypersensitivity (DTH) to SRBC 4-8 days after injection. Such DTH was suppressed when 100 microgram lipopolysaccharide (LPS) was injected intravenously 1-2 days before or at the time of SRBC injection. This suppression of DTH was transferable by spleen, lymph node, thymus and bone marrow cells to sensitized or normal syngeneic recipients, but could not be transferred by serum. Suppressor cells were not induced by LPS alone or SRBC alone, and they were antigen-specific since DTH to chicken red blood cells was not affected. The suppressor cells appeared in the spleen in optimum number 3-4 days after induction. They were theta-negative and Ig-positive as judged by antiserum plus complement treatment and by Ig rosette separation. Attempts to obtain soluble suppressor factor from the suppressor cells by sonication or in vitro incubation were unsuccessful. Mitomycin C treatment of the suppressor cells completely abolished the suppressor activity. Thus, LPS, in conjunction with antigen, appears to induce a population of specific suppressor B cells which are capable of regulating T cell function.     

Regulation of delayed-type hypersensitivity. II. Specific suppressor factor for delayed-type hypersensitivity to sheep erythrocytes in mice.

An antigen-specific suppressor factor for delayed-type hypersensitivity (DTH) to sheep red blood cells (SRBC) in mice is described. Lymph node cells and spleen cells from mice injected intravenously with 1 x 10(9) SRBC 4 days previously were incubated in vitro for 48 h in culture medium. Supernatant obtained from the culture inhibited the induction of DTH to SRBC in normal mice. It also suppressed the expression of DTH in presensitized mice. The suppression is specific as the suppressor factor had no effect on the DTH to noncross-reacting antigen, chicken red blood cells. Treatment of the spleen cells with anti-theta serum and complement prevented the production of the suppressor factor, whereas treatment with anti-Ig serum and complement had no effect. Suppressor factor produced by H-2k mice suppressed the DTH in H-2b mice. The factor thus seems to act across the H-2 barrier. The suppressor factor was not removed by adsorption with goat anti-mouse immunoglobulin immunoadsorbent, but could be adsorbed by SRBC. It was stable at 56 degrees C for 1 h, but was partially inactivated by freezing and thawing. The factor has a molecular weight of less than 35 000 daltons.     

Antigen-specific suppressor factors produced by T cell hybridomas for delayed-type hypersensitivity.

This study describes the generation of T hybridoma lines which secret factors specifically suppressing delayed-type hypersensitivity (DTH) to sheep red blood cells (SRBC). AKR strain-derived T lymphoma BW 5147 cells were fused with spleen cells from mice primed with SRBC and containing antigen-specific T suppressor cells for DTH. Supernants from the derived hybridomas were tested for suppression of either expression of induction of DTH to SRBC. Six lines produced specific suppressor activity for the expression of DTH; 4 lines produced suppressor activity for the induction of DTH of which only one line was antigen-specific. These lines were passaged in normal AKR mice, and the serum obtained had activity up to 10(-4) dilution. The factor was effective across the H-2 barrier.     

Regulation of delayed-type hypersensitivity. III. Effect of cyclophosphamide on the suppressor cells for delayed-type hypersensitivity to sheep erythrocytes in mice.

A previous study (Eur. J. Immunol. 1977. 7: 714) has shown that mice injected intravenously (i.v.) with 4 x10(9) sheep red blood cells (SRBC) produce cells which suppress delayed-type hypersensitivity (DTH). These suppressor cells are theta-positive, antigen-specific and act via a soluble factor which does not bear immunoglobulin determinants (Eur. J. Immunol. 1978. 8: 168). The present paper demonstrates that these suppressor cells are inhibitable by cyclophosphamide (CY). Mice injected with graded amounts of CY two days prior to SRBC injection, showed maximum augmentation of DTH at 200 mg/kg body weight, a dose which completely suppressed the appearance of splenic plaque-forming cells (PFC) to SRBC. In contrast, lower doses of CY enhanced both DTH and PFC responses. Time course studies showed that CY inhibited the precursors of suppressor cells and had little or no effect on suppressor cells which have already encountered antigens. This was further confirmed by passive transfer studies which showed tha- suppressor cells were inhibited if CY was administered at the same time or 2 days before SRBC injection, but were not affected if CY was given after antigen stimulation. Direct evidence for the effect of CY on suppressor cells was obtained by cell fractination with a Ficoll density gradient. The denser suppressor cell population was absent from the spleens of mice treated with 200 mg/kg of CY 2 days before i.v. injection with 1 x 10(9) SRBC.     

Cyclosporin A prevents suppression of delayed-type hypersensitivity in mice immunized with high-dose sheep erythrocytes.

When administered intraperitoneally to mice 2 days before immunization with a tolerogenic dose (10(9)) of sheep red blood cells (SRBC), cyclosporin A (CsA; 200 mg/kg) strikingly augmented 4-day delayed-type hypersensitivity (DTH) footpad reactions. These enhanced responses were similar in magnitude to those seen in animals sensitized with an immunogenic, low-dose (10(6)) SRBC. The stimulatory effect of CsA was observed over the dose range of 5-200 mg/kg and was obtained in animals given the drug in one injection, up to 7 days before sensitization. The augmentation of DTH was characterized by footpad swelling, intense mononuclear cell infiltration and increased deposition of 125I-fibrinogen within the challenge site. In addition, increased expression of procoagulant activity by spleen cells in response to antigen was observed. Cell transfer experiments showed that the CsA-enhanced DTH could be adoptively transferred to naive recipients. Additional transfers conducted at the time of antigen challenge suggested that, under the conditions described, CsA inhibited the action of a population of suppressor cells normally effective during DTH reactions.     

Regulation of delayed-type hypersensitivity V. Suppressor cell memory in antigen-specific suppression of delayed-type hypersensitivity to sheep erythroeytes

Mice primed i. v. with 10⁹ sheep red blood cells (SRBC) produce antigen-specific T suppressor (Ts) cells which inhibit both the induction and the expression of delayed-type hypersensitivity (DTH). These Ts cells are detectable in the spleen and lymph nodes 3–5 days after priming but are largely absent by 6 days. The transient detect-ability of the Ts cells contrasts sharply with the profound antigen-specific suppression which persists in primed donor mice for at least a year. Evidence is presented that this long-term impairment of DTH is maintained, at least in part, by memory Ts cells which are Thy-1⁺, cyclophosphamide-resistant and antigen-specific. Although they appear to be co-induced with the short-lived primary Ts cells and localize initially in the lymphoid organs, they are present in the long-lived circulating pool of T cells and can be adoptively transferred by celomic parabiosis. Memory Ts cells are readily reactivated by lower doses of SRBC which would induce T effector cells rather than Ts cells in naive animals. Reactivated memory Ts cells seem to generate a population of antigen-specific secondary Ts cells which again localizes in the lymphoid organs and can adoptively suppress the induction and expression of DTH to SRBC.     

Distinction between suppressors of the delayed-type hypersensitivity and the humoral response to sheep erythrocytes.

Suppressors for both delayed-type hypersensitivity (DTH) and the humoral immune response could be simultaneously induced in the spleens of mice by immunization with a high dose of SRBC. Normal recipient mice of the spleen cells from donors immunized 5 days previously elicited depressed DTH or humoral response when immunized with SRBC. The suppressive activity was found to reside in T not B enriched fraction. Four hundred rad irradiation of the primed spleen cells resulted in complete loss of DTH suppressor activity, but only in some reduction of the suppressor activity for the humoral response. In contrast, hydrocortisone treatment of the donor mice caused no loss of DTH suppressor activity while approximately half of the suppressive activity for anti-SRBC PFC response was lost. Adult thymectomy prevented completely the induction of the DTH suppressor in contrast to little loss of the suppressor activity for the humoral response. DTH suppression was antigen-specific for the induction, but nonspecific for the expression. However the suppression of the humoral response was antigen-specific not only for the induction but also for the expression. In addition, DTH suppressor was capable of suppressing both the induction and expression of DTH while the humoral response was suppressed only in the induction stage by the suppressor.     

Effect of irradiation on the precursor, activated and memory suppressor T cells for delayed-type hypersensitivity to sheep erythrocytes in mice.

The relative radiosensitivities of precursor (Tsp), activated (Ts) and memory (Tsm) suppressor T cells for delayed-type hypersensitivity (DTH) to sheep red blood cells (SRBC) were investigated in mice. Spleen cells from CBA mice, primed i.v. with 10(9) SRBC 3-4 days previously, contain specific Ts cells which substantially impair the induction of DTH to SRBC in normal syngeneic recipients. Exposure of mice to 400 rad irradiation 1 day before the priming completely eliminated the subsequent development of Ts cells. In contrast, 3 days after the priming injection, Ts cell activity in mice is resistant to doses higher than 600 rads. Mice primed 40 days previously with 10(9) SRBC contain Ts-cell memory which can be readily recalled by i.p. injection of 10(8) SRBC. The secondary Ts cells which specifically inhibit DTH induction can be demonstrated adoptively in normal recipients. Mice were exposed to various doses of irradiation 40 days after the priming and 1 day before the i.p. injection. Ts memory was significantly reduced by 300 rads and was completely abrogated by 400 rads. The relative radiosensitivities of the three subsets of suppressor T cells are in the order of Tsm = Tsp greater than Ts.     

Major histocompatibility gene complex (MHC)-coded determinants on antigen-specific suppressor factor for delayed-type hypersensitivity and surface phenotypes of cells producing the factor

Antigen-specific suppressor factor for delayed-type hypersensitivity (DTH) to sheep red blood cells (SRBC) was obtained by incubating in vitro spleen cells from CBA mice (H-2k) injected intravenously 3 days previously with 1 x 10(9) SRBC. The suppressor factor was characterized for major histocompatibility gene complex (MHC)-coded antigenic determinants by passing the factor through immunosorbents coupled with appropriate alloantisera. The suppressor factor was absorbed by anti-H-2k, anti-Iak and anti-I-Jk immunosorbents but was not retained by anti-Ias, anti-I-Js, anti-I-Ak, anti-I-E/Ck or anti-H-2Kk immunosorbents. In addition, the factor bound to an immunosorbent coupled with rabbit antibodies against carbohydrate-defined Ia antigens. Furthermore, the suppressive activity that was absorbed was quantitatively recovered in the acid eluates from the immunosorbents. Treatment of the spleen cells with anti-Lyt-1.1 antiserum and complement completely abrogated their ability to elaborate the suppressor factor in vitro. In contrast, treatment with anti-Lyt-2.1 or anti-Iak antiserum and complement had no effect. Thus, it appears that the suppressor factor for DTH to SRBC bears I-J subregion-coded determinants, and its production is dependent on cells which have the Lyt-1+,2- and Ia- phenotype.     

Interleukin 6 inhibits delayed-type hypersensitivity and the development of adjuvant arthritis

We studied the effect of interleukin 6 (IL 6) on the delayed-type hypersensitivity (DTH). In mice immunized with sheep red blood cells (SRBC), a DTH response was evoked by antigen challenge into the hind paw 5 days after immunization. The magnitude of the response was assessed by footpad swelling measured 24 h after antigen challenge. IL 6 significantly suppressed the DTH in its induction phase in a dose-dependent manner when administered s.c. into the back at a dose of greater than 2.5 micrograms twice a day (5 micrograms/day) for 5 consecutive days from the day of immunization (day 0) to 1 day before antigen challenge (day 4). Heat-inactivated IL 6 did not suppress the DTH response. Furthermore, the suppressive activity of IL 6 was completely abolished by affinity chromatography on an anti-IL 6 antibody. This suppression was also obtained when IL 6 was administered only on day 0 and day 1, but not on days 3 and 4. This indicates that IL 6 acts on the early part of the induction phase of DTH development. Furthermore, footpad swelling was suppressed even by the administration of IL 6 after antigen challenge. These results show that IL 6 suppresses both the induction and effector phases of DTH. To confirm further this inhibitory effect of IL 6, we examined its effect on the development of adjuvant arthritis in rats. Administration of IL 6 also significantly suppressed the development of adjuvant arthritis.     

Suppressor T cells for delayed-type hypersensitivity to Japanese encephalitis virus.

The delayed-type hypersensitivity (DTH) to Japanese encephalitis virus (JEV) and the suppressor cells controlling it and the antibody-forming cells in inbred Swiss mice have been studied. JEV induces DTH, with a peak response at day 7 following infection which persists at low levels at least up to 119 days. Suppressor activity appeared on day 18. It was transferable by immune spleen cells. Treatment of spleen cells with anti-Thy-1.2 antisera and complement abrogated the suppressor activity. The homogenate of the spleen was equally effective in mediating suppression of DTH and the humoral response as measured by direct antibody plaque-forming cell (IgM-PFC) assay. The suppressor activity was antigen-specific both on DTH and T helper for antibody response as the immune responses against SRBC or Coxsackie B4 virus were not suppressed. The suppressor cells were sensitive to cyclophosphamide treatment when the drug was given 48 hr before their appearance. It is, therefore, concluded that in JEV infection of mice, antigen-specific suppressor T cells are generated, both for DTH and IgM antibody, which are cyclophosphamide-sensitive and mediate suppression through soluble product(s).     

In vitro induction of delayed-type hypersensitivity.

Murine spleen cells, cultured in vitro for 6 days in the presence of high concentrations of burro erythrocytes (BRBC), are sensitized to exhibit delayed-type hypersensitivity (DTH) specific for this antigen. Such cells, on being injected with antigen into the footpads of normal mice, cause a 24-h swelling reaction. This activity of the cultured cells requires the presence of BRBC both during the in vitro incubation and in the footpad. The activity of the sensitized cells in causing swelling is sensitive to anti-Thy-1 antibody and complement, and the kinetics of the swelling reaction are characteristic of a DTH response. In vivo low-dose priming of the spleen cell donors considerably enhances the ability of the cultured cells to cause swelling. This system provides a means of studying the regulation of the induction of DTH in vitro.     

The surface phenotype of a suppressor cell of delayed-type hypersensitivity in the mouse.

Delayed-type hypersensitivity (DTH) to horse red blood cells was induced in cyclophosphamide-treated CBA/H mice. The DTH reaction, represented by an increase (0 x 8--1 x 0 mm) in footpad thickness 24 h after secondary challenge, could be suppressed by the adoptive transfer of 10(7) splenic lymphocytes from syngeneic mice primed with 10(9) HRBC. The surface antigenic phenotype of the suppressor cell was determined by the formation of EA, EAC, or Ig rosettes followed by depleting the rosetted populations on Isopaque-Ficoll. The suppressor cell was found to be Ig-, FcR- and CR-, although some suppression was observed with FcR+ cells. Cell depletions with cytotoxic alloantisera and rabbit complement further characterized the suppressor cell as being Thy-1+, Ly-1+, 2-, 3-, 4-, 5+, 6+, 7-, Ia- and IJ-. This cell surface phenotype if unique and differs from the Ly-1-, 2+, 3+, I-J+ suppressor cell of antibody formation and from the recently described Ly-+, 2+, 3+ feedback suppressor T cell.     

Regulation of the immune response. I. Suppression of delayed-type hypersensitivity by T cells from mice expressing humoral immunity.

The ability of horse red blood cell (HRBC)-specific T cells from mice expressing humoral immunity to suppress the induction of HRBC-specific delayed-type hypersensitivity (DTH) was investigated. The transfer of Ig-negative spleen cells, from mice injected 4 days previously with HRBC, completely suppressed the development of DTH in mice treated with cyclophosphamide and sensitized with HRBC. The suppressor cell was found to be lysed by treatment with anti-theta serum and complement. Furthermore, hemocyanin-specific immune T cells were able to suppress the DTH induced to HRBC, provided these two antigens were coupled together. These studies suggest that T cells present under conditions were humoral immunity is induced can suppress DTH and that such cells play an important role in the regulation of the immune response.     

In vitro induction of suppressor T-cells in delayed-type hypersensitivity to BCG and an essential role of I-J positive accessory cells

Antigen-specific suppressor T-cells in delayed-type hypersensitivity (DTH) to BCG were induced in vitro. Normal spleen cells of C3H/He mice were incubated with 50 micrograms of PPD per ml for 4 days at 37 degrees C, and the non-adherent cells in the culture were transferred intravenously into cyclophosphamide (CY)-treated syngeneic recipients. The recipients were immunized to BCG immediately after the cell transfer, and DTH was measured by the footpad reaction to PPD two weeks later. Footpad reaction to PPD was positive in CY-treated C3H/He mice immunized to BCG, while it was suppressed by the transfer of the in vitro induced suppressor cells. When the suppressor cells were treated with anti-thy-1.2 antiserum and complement before transfer, the suppression was abrogated. Next, the spleen cells were separated into plastic adherent and non-adherent fractions. After treatment with anti-thy-1.2 and complement, the adherent cells were treated with either anti-I-Jk or anti-I-Ak antiserum and complement. Then, they were reconstituted with the non-adherent cells and cultured with PPD. Treatment of the adherent cells with anti-I-Jk antiserum and complement abrogated the suppressor cell induction, while the treatment with anti-I-Ak had no effect. These facts indicate that I-J positive non-T-adherent cells play an essential role in the induction of suppressor cells in DTH.     

The comparative selectivity of adjuvants for humoral and cell-mediated immunity. II. Effect on delayed-type hypersensitivity in the mouse and guinea pig, and cell-mediated immunity to tumour antigens in the mouse of Freund's incomplete and complete adjuvants, alhydrogel, Corynebacterium parvum, Bordetella pertussis, muramyl dipeptide and saponin.

Corynebacterium parvum was the only adjuvant of those tested which consistently potentiated delayed-type hypersensitivity (DTH) to sheep red blood cells (SRBC) in the mouse, although this required the antigen-adjuvant mixture to be injected subcutaneously in the footpad rather than the flank. For induction of DTH to ovalbumin (OVA) in the guinea pig, C. parvum and MDP could be substituted for the mycobacteria in FCA. C. parvum was effective in aqueous solution provided that the OVA was absorbed onto alhydrogel. Saponin also potentiated DTH when injected with OVA in aqueous solution. C. parvum was the sole adjuvant of those tested to promote protective cell-mediated immunity (CMI) to M4 fibrosarcoma cells. It is concluded that C. parvum is a promising candidate adjuvant for promoting CMI induction without recourse to a water-in-oil emulsion.     

Peripheral denervation suppresses the late phase of delayed-type hypersensitivity

The impact of peripheral denervation on antigen-specific immune responses was analysed on the B and T cell levels. Delayed-type hypersensitivity (DTH) response to sheep red blood cells (SRBC) or oxazolone was used in mice as a model system of in vivo T cell reactivity. Serum antibody levels to SRBC, measured by an enzyme-linked immunosorbent assay (ELISA), were evaluated to analyse the B cell response. The effect of peripheral denervation on immune responsiveness was studied both at the point of sensitization and elicitation. The results show that peripheral denervation significantly suppresses the local DTH response. The late, inflammatory phase but not the early phase of the DTH reaction was reduced after denervation (p less than 0.01). The DTH suppression by denervation was similar irrespective of whether the neurectomy was performed 1 or 4 weeks prior to sensitisation. Even in the contralateral limb, with intact innervation, the inflammatory DTH reactivity was decreased. We believe that this phenomenon might be due to abrogation of the reflex arch since the denervation procedure did not give rise to a significant systemic downregulation of DTH. Also, peripheral denervation significantly suppressed footpad swelling induced by local administration of cholera toxin, a potent phlogistic compound. The antibody response against the same immunogen was not influenced by denervation. Our results suggest that denervation of a mixed peripheral sensory/motor nerve abrogates the formation of both T cell-dependent and independent inflammatory responses.     

Induction of delayed-type hypersensitivity to Leishmania major and the concomitant acceleration of disease development in progressive murine cutaneous leishmaniasis.

BALB/c mice injected intradermally with 10(5) or higher doses of formaldehyde-fixed promastigotes (FFP) of Leishmania major developed strong delayed-type hypersensitivity (DTH) to leishmanial antigens injected into the hind footpad 3 to 10 days later. The DTH peaked 15 to 18 h after footpad injection and disappeared by 48 h. This specific DTH correlated with the homing of 51Cr-labeled syngeneic bone marrow cells and the infiltration of proliferating cells to the site of antigen administration. Spleen cells from FFP-sensitized mice also gave significant proliferative response to FFP in vitro. The DTH was adoptively transferable by Lyt-1+2-L3T4+ T cells and was H-2 restricted. DTH could be substantially enhanced by pretreatment with cyclophosphamide or pertussigen. Such DTH enhancement was accompanied by concomitant exacerbation of disease progression after L. major infection. Mice injected intravenously with FFP developed substantial immunity to cutaneous leishmaniasis but specifically suppressed DTH reactivity. Treatment of mice with pertussigen before intravenous immunization, however, abolished the protection and reversed the suppression of DTH. These results therefore demonstrate that the early-appearing type of DTH is not involved in host protection but that it actually facilitates disease progression in cutaneous leishmaniasis. Further evidence, which also shows the nonspecific nature of this disease exacerbation, is provided by local cell transfer experiments. Splenic T cells from mice sensitized to keyhole limpet hemocyanin or FFP induced significantly larger lesions compared with normal T cells when they were transferred into the footpad together with specific antigen and L. major promastigotes.     

Augmentation of delayed-type hypersensitivity to high dose sheep erythrocytes by cyclosporin A in the mouse: influence of drug dosage and route of administration and analysis of spleen cell populations.

When administered by various routes 48 h before a high systemic dose (10 degrees) of sheep red blood cells (SRBC), Cyclosporin A (CsA) prevented the suppression of delayed-type hypersensitivity (DTH) reactions elicited 4 days later. Augmentation of DTH was observed over a wide range (5-200 mg/kg) and with circulating CsA levels ranging below 45 ng/ml at the time of immunization or antigen challenge. Splenic lymphocytes from vehicle- and CsA-treated mice exhibited good proliferative responses to mitogen in vitro, but only those from CsA-treated animals responded to antigen. Expression of DTH was associated with a progressive, 2-fold increase in the absolute numbers of splenic L3T4+ cells, whereas no significant alteration in the number of Lyt-2+ lymphocytes was recorded. B cell and macrophage numbers in the spleen were unaffected by CsA. In contrast to its potentiating effects on cell-mediated immunity, CsA caused profound (up to 100%) suppression of the concomitant production of splenic anti-SRBC IgM-secreting plasma cells. Circulating anti-SRBC antibody levels were also markedly reduced. These data show that CsA can permit induction of TDTH, whilst suppressing T-dependent humoral immunity and without significant change in absolute numbers of Lyt-2+ cells.     

Specific suppressor T cells for delayed-type hypersensitivity in susceptible mice immunized against cutaneous leishmaniasis.

BALB/c mice injected intravenously with 10(6) or higher doses of formaldehyde-fixed promastigotes (ffp) of Leishmania major developed significantly lower levels of delayed-type hypersensitivity (DTH) compared with uninjected control mice when they were subsequently immunized intradermally with ffp. The suppression of DTH was antigen specific and was also inducible with lethally irradiated promastigotes or soluble parasite antigens. The suppressive effect was adoptively transferable with splenic T cells which express the Lyt-1+2+ and L3T4+ phenotypes. These specific suppressor T cells were active against both the inductive and expressive phases of DTH. They were sensitive to 200 rads of gamma-irradiation in vitro and appeared to manifest the suppressive activity via soluble factors. In spite of this profound suppression of DTH, BALB/c mice injected intravenously with 4 X 10(7) ffp were substantially protected against a challenge infection with L. major promastigotes. The possible relationship between the suppressor T cells for DTH and prophylactic immunization against fatal cutaneous leishmanial infection in susceptible BALB/c mice is discussed.