Reversal of immunological tolerance by aclacinomycin through inhibition of suppressor cell activity

The elimination of suppressor cells by aclacinomycin, which could be the mechanism by which immune responses are enhanced after its administration, was studied in mice in which tolerance had been induced by the injection of high doses of sheep red blood cells (SRBC). We observed that tolerance could not be induced in aclacinomycin-treated mice, and that aclacinomycin inhibited the expression of tolerance to SRBC. This drug also diminished the capacity of spleen cells from SRBC-tolerant mice to inhibit the response of normal animals upon adoptive transfer, indicating that suppressor cells had been eliminated from the tolerant spleen cell population. The efficiency of the elimination of suppressor cells for DTH reactions appears greater than that of suppressor cells for plaque-forming cell responses.     

Induction of immune tolerance to thymus-dependent antigen (sheep erythrocytes) in the absence of T-cells]

The role of T cells in B cell tolerance induction to sheep red blood cells (SRBC) was studied in intact adult mice, in lethally irradiated mice injected with singeneic embryonic liver cells and thymocytes (TB-mice) and in animals functionally deprived of T cells--thymectomized, letally irradiated mice reconstituted with embryonic liver cells only (B-mice). Tolerance was obtained by treatment of mice with SRBC and cyclophosphamide (Cy). Cy-induced tolerance to SRBC was shown to be the result of the absence of specific T cells and partially of immunocompetent B cells. Suppression of immunoreactivity was observed not only in TB-mice but also in B-mice subjected to tolerogenic treatment. Splenocytes of tolerant TB-mice did not suppress the immune response of intact spleen cells to SRBC. The results obtained suggest the conclusion that B cells tolerance could be formed in absence of T cells.     

Suppressors of the graft vs graft reaction in tolerance to alloantigens

Immune response and suppressor cell activity of CBA (H-2k) mice made tolerant to allogeneic C57B1/6 (H-2b) heart graft were studied in graft-versus-graft reaction (GvGR). Intact CBA spleen cells inhibited response of (CBA X C57B1/6)F1 cells to antigenic stimulus (sheep red blood cells--SRBC), when injected together into lethally irradiated (CBA X C57B1/6)F1 mice. Spleen cells of tolerant mice were unable to decrease immune response of (CBA X C57B1/6F1 lymphocytes to SRBC and suppressed specifically the inhibition induced by intact CBA spleen cells. Spleen cells from tolerant mice were also capable of suppressing GvGR induced by CBA lymphocytes immune to C57B1/6 cells. Pretreatment of tolerant spleen cells with rabbit antithymocyte globulin and complement before adoptive transfer diminished markedly the suppression. The results obtained in the study suggest that suppression of transplantation immunity in this model is mostly due to T suppressor cells.     

Effect of trypsin on suppressor cell formation and function in localized staphylococcal infection

The present study has been made on (CBA X C57BL)F1 mice immunized with sheep red blood cells (SRBC) and inoculated with staphylococci (M-SRBC-S). The injection of splenic lymphocytes from syngeneic M-SRBC-S into intact mice has been found to suppress immune response to SRBC in these mice. The injection of trypsin into M-SRBC-S decreases the suppressive action of their lymphocytes on SRBC-induced immune response in syngeneic recipients. The injection of trypsin into the recipients has been found to produce no effect on the immunosuppressive action of transplanted lymphocytes obtained from M-SRBC-S. The injection of trypsin into M-SRBC-S induces the release of the factor, inhibiting the formation and function of suppressor cells, by their splenocytes. Previously formed suppressor cells block the release of the immunostimulating factor by the splenocytes of the animals receiving the injections of trypsin.     

Study of the phenomenon of specific suppression of the immune response in an adoptive transfer system]

It was revealed that the administration of the spleen cells (SC) of syngeneic animals immunized with a high dose of sheep red blood cells (SRBC) to intact mice led to a marked specific suppression of the recipients' immune response. The donors' SC obtained on the 14th day after the intraperitoneal injection of SRBC had the greatest suppressive activity. The SC of intact animals and mice given rat erythrocytes preliminarily failed to influence the immune response of the intact recipients in their SRBC immunization. Treatment of immune SC with the anti-T-serum (ATS) or the anti-B-globulin (ABG) and the complement considerably decreased or completely eliminated the suppressive activity. Administration of a mixture of two immune SC suspensions one of which was ATS- and another ABC-treated did not produce any suppression of the immune response in the intact recipients. It is supposed that the suppressor cells in the given model were T-lymphocytes expressing the antigens, common of cross-reacting with the B-cells.     

Effect of thymectomy on induction of immunologic tolerance in the effectors of delayed hypersensitivity]

The influence of thymectomy (Tx) on induction of tolerance of delayed type hypersensitivity effectors (DHE) was examined. Tx did not interfere with induction of tolerance to sheep red blood cells (SRBC) achieved with combined injections of the massive dose of the antigen and cyclophosphamide (Cy). Tx resulted in prolongation of unresponsiveness. The injection of mice with the massive dose of SRBC alone also resulted in tolerance formation. However, this type of tolghtly depressed formation of DHE in intact but not in Cy treated mice. The results obtained are in agreement with the idea of the existence of diverse mechanisms of tolerance induction (clonic-deficient and suppressor). These data also suggest the existence of two subpopulations differing in susceptibility to Cy and Tx in DHE effectors and their precursors.     

Effect of rubomycin and carminomycin on suppressor cells participating in the regulation of the immune response

The effect of rubomycin and carminomycin on induction of suppressor cells in immunization of mice with high doses (2 . 10(9) cells) of sheep red blood cells (SRBC) or with the allogeneic spleen cells was studied. When the spleen cells of syngeneic animals hyperimmunized with SRBC were administered to intact cells, a marked specific suppression of both the antibody formation and the reaction of the delayed type hypersensitivity were observed. A decrease in the suppressor activity or its complete elimination as a result of exposure of the spleen cell donors to the antibiotics was indicative of a relatively selective effect of these drugs on the suppressor cells. This effect of the antibiotics increased after treatment of the spleen immune cells with the anti-T-serum and complement. However, the blocking effect of the antibiotics on the suppressor cells was not strictly specific, since they were detected in the syngeneic and allogenic systems with the cell transfer.     

Characteristics of the reaction of immunologically tolerant mice to the polyclonal stimulant salmozan

The nonspecific stimulant of the immune response salmozan (Sal) increases the number of PFC against SRBC in intact mice, B mice (thymectomized, irradiated and reconstituted with embryonic liver cells), and in mice pretreated with cyclophosphamide (CY). This effect was decreased in mice pretreated with SRBC and CY. The subsequent injections of SRBC and Sal into tolerant mice did not increase the response under study. It is concluded that the effect observed is due to partial alteration of antigen-specific B cells of tolerant mice and this alteration cannot be explained by the lack of the regeneration of membrane immunoglobulins.     

Dose-dependent induction of immunologic enhancement and suppression after oral administration of antigen

The effects of feeding various quantities of a particulate antigen, sheep red blood cells (SRBC), on plaque-forming cells (PFC) in the spleen were determined. Mice were given various numbers of SRBC orally daily for 14 days, then injected with SRBC intravenously. Splenic IgA PFC responses to SRBC were enhanced in the mice fed 5 X 10(8) SRBC and splenic IgG PFC responses to SRBC were depressed in the mice fed 5 X 10(9) SRBC. Adoptive transfer experiments showed that enhancement of splenic IgA PFC responses and suppression of splenic IgG PFC responses were induced by the T-cell rich fraction from Peyer's patches (PP) and the spleen in 5 X 10(8) SRBC- and 5 X 10(9) SRBC-fed mice, respectively. Kinetic studies revealed that IgA helper cells or IgG suppressor cells appeared in PP 2 days after oral administration and 4 days after it in the spleen.     

Abrogation of the capacity of delayed-type hypersensitivity responses to alloantigens by intravenous injection of neuraminidase-treated allogeneic cells

BALB/c or C3H/He mice were inoculated i.v. with allogeneic spleen cells untreated or treated with neuraminidase. Appreciable or potent anti-allo-delayed-type hypersensitivity (DTH) responses were observed when mice were inoculated i.v. with untreated allogeneic cells or inoculated i.v. with those cells followed by s.c. immunization with untreated allogeneic cells. In contrast, i.v. inoculation of neuraminidase-treated allogeneic cells (presensitization) not only failed to induce any significant anti-allo-DTH responses but also abolished the capability of the animals to develop DTH responses after s.c. immunization, indicating the tolerance induction. This tolerance was alloantigen-specific, and rapidly inducible and long lasting. The induction of suppressor cell activity was demonstrated in tolerant mice. However, this activity was associated only with the tolerant state around 4 to 7 days after the i.v. presensitization, but was no longer detected in mice more than 14 days after the presensitization, although these mice exhibited complete tolerant state. When spleen cells from such tolerant mice were transferred i.v. into 600 R x-irradiated syngeneic recipient mice alone or together with normal syngeneic spleen cells, these tolerant spleen cells themselves failed to induce DTH responses but did not exhibit suppressive effect on the generation of DTH responses induced by normal spleen cells co-transferred. These results indicate that i.v. administration of neuraminidase-treated allogeneic cells results in the induction of alloantigen-specific tolerance which is not always associated with the induction of suppressor cell activity but rather with the elimination or functional impairment of alloantigen-specific clones.     

Autoimmune syndrome after induction of neonatal tolerance to alloantigens: effects of in vivo treatment with anti-T cell subset monoclonal antibodies

BALB/c (H-2d) mice rendered tolerant to h-2b alloantigens by neonatal injection of semiallogeneic (C57BL/6 X BALB/c)F1 spleen cells develop autoimmune features due to an abnormal activation of persisting F1 donor B cells. The role of T cells in this autoimmune syndrome was studied by in vivo treatment of tolerant mice with anti-L3T4(GK-1.5) or anti-Ly-2 (H-35-17.2) monoclonal antibodies. The treatment of tolerant mice from day 2 to day 21 of life with anti-L3T4 MAb completely prevented the occurrence of circulating immune complexes of anti-ssDNA anti-Sm and anti-hapten (FITC) IgG antibodies as well as the glomerular deposition of Ig that were usually seen in untreated tolerant mice. This effect persisted for at least 6 wk after stopping this treatment. When the injections of anti-L3T4 MAb were delayed until day 15 of life, a very significant decrease of the autoimmune manifestations was still observed. Treatment of tolerant mice with anti-Ly-2 MAb during the same period had no effects on the autoimmune disease as compared with untreated tolerant mice. No effects on the maintenance of tolerance vs H-2b alloantigens were observed after treatment with anti-L3T4 MAb, as followed by the decrease of CTL and CTL-p alloreactivity and by the persistence of F1 donor B cells, indicated by the presence of Ig bearing the Ighb donor allotype. These results suggest the existence of interactions between L3T4+ T cells and persisting autoreactive B cells from F1 donor origin in the development of the autoimmune syndrome after neonatal induction of transplantation tolerance.     

Factors associated with the development of neonatal tolerance after the administration of a plasmid DNA vaccine

A plasmid DNA vaccine encoding the circumsporozoite protein of malaria (pCSP) induces tolerance rather than immunity when administered to newborn mice. We find that this tolerance persists for >1 yr after neonatal pCSP administration and interferes with the induction of protective immunity in animals challenged with live sporozoites. Susceptibility to tolerance induction wanes rapidly with age, disappearing within 1 wk of birth. Higher doses of plasmid are more tolerogenic, and susceptibility to tolerance is not MHC-restricted. CD8+ T cells from tolerant mice suppress the in vitro Ag-specific immune response of cells from adult mice immunized with pCSP. Similarly, CD8+ T cells from tolerant mice transfer nonresponsiveness to naive syngeneic recipients. These findings clarify the cellular basis and factors contributing to the development of DNA vaccine-induced neonatal tolerance.     

The immunological status of mice during the generation of cyclophosphamide-induced tolerance.

Tolerance to sheep erythrocytes (SRBC) has been induced by a combination of high doses of antigen and treatment with cyclophosphamide (CY). The influence of CY alone or in combination with SRBC has been investigated by using the treated animals as recipients for normal spleen cells. CY treatment appears to produce a mouse which is severely depleted of B cells. The injection of large doses of SRBC together with CY, in a schedule which induces tolerance, generates an environment which suppresses the production of antibody-forming cells by passively transferred normal spleen cells. However, transfer of cells from tolerant mice to irradiated mice failed to demonstrate the presence of suppressor cells.     

Suppressor cells in tolerance to HGG: kinetics and cross-suppression in high dose tolerance--absence in low dose tolerance.

Spleen cells from mice made tolerant with high doses of human gamma-globulin (HGG) specifically suppress the immune response of normal, syngeneic, spleen cells. These suppressor cells were found to be cross-reactive in that they would suppress the immune response of normal spleen cells to bovine gamma-globulin (BGG) as well as to HGG. In contrast, suppressor cells could not be demonstrated in spleens of mice made tolerant with low doses of HGG (i.e., T-cell tolerance), nor could they be found in high dose tolerant mice following a second injection of DHGG at a time when the initial suppressor activity had waned. The role of suppressor cells in the induction, maintenance, and loss of tolerance is discussed.     

The effect of Mycoplasma arthritidis superantigen on immunogenesis in transplacental infection

The immune responsiveness of the progeny of BALB/c mice, responsive to M. arthritidis superantigen (MAS), and C57BL/6 mice, nonresponsive to MAS, infected with M. arthritidis during the second half of pregnancy was studied. The investigation revealed that in responsive animals the proliferative response of spleen cells to MAS was suppressed with the level of response to concanavalin A remaining unchanged. The spleen cells of the test mice reacted to syngenic intact cells as to xenogenic ones and suppressed reaction to MAS and the production of interleukin 1 in the culture of spleen cells taken from the intact syngenic animals. The data obtained in this study suggest that after the infection of pregnant BALB/c mice with M. arthritidis immune tolerance to MAS developed in their progeny, which was accompanied by the induction of suppressor cells inhibiting the production of interleukin 1.     

Immunostimulating and protective effects of terrilytin preparations in staphylococcal infection

In mice infected with staphylococci there was observed less pronounced development of the immune response to sheep red blood cells (SRBC) than in intact animals subjected only to immunization. Administration of free terrilytin to the infected mice increased the immune response development induced by SRBC while the use of immobilized terrilytin normalized it. The supernatant liquid of the spleen cells (SLSC) from the mice treated with the free of immobilized terrilytins stimulated development of the immune response to SRBC in the infected animals and inhibited the function of the suppressor cells in the spleen. The immunomodulating and protective effects of the SLSC fractions isolated with column chromatography on Sephadex G-150 were investigated. Substances of the low molecular fraction of the SLSC proteins (molecular weight of 10-15 kD) from the mice treated with the terrilytins showed immunostimulating and protective properties. The factors inducing both the activity types included peptides and the ribonucleotide component playing a significant role in realization of the immunostimulating and protective effects of the free and immobilized proteases.     

Analysis of certain mechanisms of antigen-specific suppression of the immune response

CBA mice were immunized with sheep red blood cells (SRBC) to obtain immune spleen cells (ISc) which were used to suppressor cells. Administration of ISC to intact syngeneic recipients on the immunization day led to a more powerful suppression of the immune response as compared to that seen one day after antigen injection. Four days after immunization the animals' immune response was not liable to be suppressed. ISC extract possessed similar effects with respect to the immune response of normal spleen cells which were transplanted to the cyclophosphamide-treated recipients. The immune response of spleen cells from mice immunized with SRBC in a dose of 10(6) was less liable to be suppressed. Hyperimmune spleen cells from donors immunized with SRC in a dose of 10(9) were insensitive to ISC or to the extract. Experiments with the use of adoptive transfer of a mixture of immune and intact T- and B-cells have disclosed that B-cells from hyperimmune donors were resistant to suppression. Therefore, B-lymphocytes are the most probable target cells exposed to T-suppressors in the given system. The mechanism is discussed of the selective effect of T-suppressors on B-cells in the course of the immune response development during immunization with high doses of antigen.     

Delayed-type hypersensitivity (DTH) in BCG-sensitized mice I. Lack of suppressor T cell activity on DTH to sheep red blood cells.

Mice pretreated with an intravenous (i.v.) injection of BCG (BCG-sensitized mice) and then immunized intravenously with a high dose (10(8)--10(9)) of sheep red blood cells (SRBC) 2 weeks later developed strong delayed-type hypersensitivity (DTH) to SRBC, as in mice pretreated with cyclophosphamide (CY) (CY-treated mice) and then immunized with SRBC 2 days later; normal mice given the same dose of SRBC did not show such DTH. The mechanism of this strong DTH to SRBC which developed in BCG-sensitized mice was studied, by comparing it with that in CY-treated mice. The transfer of either whole spleen cells or thymus cells, but not serum, obtained from mice immunized with i.v. injections of 10(9) SRBC 4 days previously (hyperimmune mice) did not suppress either the induction or the expression of DTH to SRBC in BCG-sensitized mice, but suppressed those in CY-treated mice. The suppressor cells were SRBC-specific T cells. Adoptive transfer of DTH to SRBC by spleen cells from either BCG-sensitized mice of CY-treated mice to hyperimmune recipients failed. The adoptive transfer of DTH from BCG-sensitized mice to normal recipients also failed if the spleen cells from hyperimmune mice were cotransferred. Whole body irradiation (600 rad) of mice 2 hr before or after the time of immunization with SRBC reduced significantly DTH to SRBC in both BCG-sensitized and CY-treated mice. It was noticed that the total number of spleen cells in BCG-sensitized mice was 3--4 times larger than that in CY-treated mice. From these results, we conclude that the entity of effector T cells of DTH to SRBC induced in BCG-sensitized mice and in CY-treated mice was not different in terms of susceptibility to suppressor T cells and irradiation, but that the total numbers of effector T cells generated in these mice differed remarkably, resulting in the above-described different responsiveness to suppressor T cells transferred passively.     

Patterns of immunoenhancement and suppression induced by Chlamydia trachomatis in vivo and in vitro

We investigated the cycle of immune enhancement and suppression seen in mice infected with Chlamydia trachomatis by using in vivo and in vitro model systems. BALB/c mice injected intravenously with chlamydia reveal a three- to seven-fold increase in numbers of plaque-forming cells producing antibodies against sheep red blood cells (SRBC), when immunized with SRBC 0 to 5 days after chlamydia infection. When mice are injected with SRBC 10 to 15 days after initial chlamydia infection, the specific anti-SRBC plaque-forming cell response is suppressed two- to three-fold. In vitro, low numbers (2 to 5 X 10(6) bacteria/ml) of chlamydia stimulate potent proliferative responses by B lymphocytes while high numbers (25 X 10(6) bacteria/ml) of bacteria generate strong, general T suppressor activity. This model has important implications for regulation of immune responses that arise at different times during chlamydial infections, as well as for the potential effectiveness of chlamydial vaccines.     

Tolerance induced by TNP-derivatized syngeneic erythrocytes: evidence for cooperation between hapten-specific T and hapten-specific B lymphocytes in the immune response.

Tolerance to the DNP haptenic determinant was induced with a single i.v. injection of trinitrophenylated syngeneic red blood cells. The tolerant state lasted 1 month and was stable on transfer to irradiated thymectomized syngeneic recipients. Suppressor activity was found soon after injection of tolerogen but was lost before the termination of tolerance. The unresponsive state could be reversed by adding normal thymus cells to tolerant spleen cells but not by normal bone marrow cells. LPS when given with immunogen restored the normal immune response in tolerant mice. Thus the injection of TNP-MRBC induced partial immune unresponsiveness which was characterized by the induction of T cell suppressor activity and by a hapten-specific helper T cells tolerance. Finally, these studies suggest a cooperative interaction between DNP-specific T lymphocytes and DNP-specific B lymphocytes in the immune response to DNP-BGG.