Time-dependent mode of immunization augments suppressed antibody responses in spleen cell cultures from mice experimentally infected with Trypanosoma cruzi

Mice infected with Trypanosoma cruzi develop immunosuppressed responses to heterologous antigens. Experiments were performed using infected mice in the acute stage of infection to assess immunoregulatory activities during induction of direct plaque-forming cells (DPFC) to sheep erythrocytes (SRBC). After normal or infected mice were primed with SRBC, their spleen cells were restimulated 4 days later with SRBC in Mishell-Dutton cultures and found to mount hyperaugmented IgM anti-SRBC responses. It was also demonstrated that T-cells derived from normal mice primed in vivo 4 days previously with SRBC, and subsequently added to cultures of spleen cells from T. cruzi-infected mice, enhanced anti-SRBC DPFC responses in a dose-dependent fashion. These results show that functional help provided by T-cells activated during an in vivo priming and exposed to an in vitro challenge dose of antigen (SRBC) in a time-dependent mode can overcome the effect of immunosuppression in the spleen cell cultures from T. cruzi-infected mice.     

Augmentation of Suppressed Antibody Responses in Mice During Experimental Chagas'Disease by T Helper Cells Activated in a Time-Dependent Mode of Immunization

ABSTRACT. Mice infected with the protozoan parasite Trypanosoma cruzi , the causative agent of human Chagas'disease, develop immunosuppressed responses to heterologous antigens. Experiments were performed using infected mice in the acute stage of infection to assess immunoregulatory activities during induction of direct plaque-forming cells (DPFC) to sheep erythrocytes (SRBC), hapten-conjugated SRBC (TNP-SRBC), and horse erythrocytes (TNP-HRBC). Studies in vivo demonstrated that anti-SRBC responses were best enhanced when T. cruz -infected mice were injected with primed T cells derived from normal or infected mice immunized four days previously. The presence of enhancing capacities for DPFC responses by T cells from T. cruzi -infected mice were also supported by experiments examining the hapten-carrier effect. Preimmunization of infected mice with SRBC or HRBC four days before injection of hapten-homologous (TNP-SRBC or TNP-HRBC) carrier resulted in markedly augmented anti-hapten antibody responses. These results show that functional help provided by T cells activated during priming and exposed to a challenge dose of antigen (SRBC) in a time-dependent mode can overcome the effect of immunosuppression in T. cruzi -infected mice.     

Augmentation of suppressed antibody responses in mice during experimental Chagas' disease by T helper cells activated in a time-dependent mode of immunization

Mice infected with the protozoan parasite Trypanosoma cruzi, the causative agent of human Chagas' disease, develop immunosuppressed responses to heterologous antigens. Experiments were performed using infected mice in the acute stage of infection to assess immunoregulatory activities during induction of direct plaque-forming cells (DPFC) to sheep erythrocytes (SRBC), hapten-conjugated SRBC (TNP-SRBC), and horse erythrocytes (TNP-HRBC). Studies in vivo demonstrated that anti-SRBC responses were best enhanced when T. cruzi-infected mice were injected with primed T cells derived from normal or infected mice immunized four days previously. The presence of enhancing capacities for DPFC responses by T cells from T. cruzi-infected mice were also supported by experiments examining the hapten-carrier effect. Preimmunization of infected mice with SRBC or HRBC four days before injection of hapten-homologous (TNP-SRBC or TNP-HRBC) carrier resulted in markedly augmented anti-hapten antibody responses. These results show that functional help provided by T cells activated during priming and exposed to a challenge dose of antigen (SRBC) in a time-dependent mode can overcome the effect of immunosuppression in T. cruzi-infected mice.     

Heterologous antibody responses in mice with chronic T. cruzi infection: depressed T helper function restored with supernatants containing interleukin 2

Antibody production to sheep erythrocytes (SRBC) or hapten-conjugated SRBC (TNP-SRBC) was studied in mice with chronic Trypanosoma cruzi infections. Studies in vivo demonstrated that both IgM and IgG anti-SRBC responses were suppressed during chronic infection. Secondary IgG responses were suppressed regardless of whether the primary immunization was given before or after infection. The ability of cells from infected mice to provide help for antibody production was examined in vitro. Anti-SRBC responses were restored to cultures of whole spleen cells from infected mice by the addition of interleukin 2 (IL 2)-rich supernatants, indicating that these cells were capable of antibody production when sufficient help was provided. T cells from SRBC-primed infected mice were unable to provide significant help to normal B cell/M phi cultures for in vitro anti-TNP or anti-SRBC responses. The percentages of Thy-1+, Lyt-1+, and Lyt-2+ spleen cells were not significantly different between normal and infected mice. Anti-TNP and anti-SRBC responses were restored to cultures that contained T cells from infected mice and normal B cell/M phi by the addition of IL 2-rich spleen cell supernatants. The suppression of in vitro antibody responses in mice with chronic T. cruzi infections was associated with a lack of T cell help, which was provided by exogenous spleen cell supernatant.     

Suppression of in vitro antibody responses by Listeria primed spleen cells.

Spleen cells from mice primed with virulent Listeria monocytogenes do not develop an anti-SRBC plaque forming cell response to SRBC in culture. Furthermore, when Listeria primed spleen cells are co-cultured with normal spleen cells and SRBC, the anti-SRBC response of the normal cells is suppressed. Listeria primed spleen cells from T cell depleted donors are equally effective at immunosuppression. The immunosuppressive effect does not appear to be due to the presence of the bacterium or its products per se in the cultures. Furthermore, the effect cannot be transferred across a 0.45 μm pore membrane. Kinetic studies show that the immunosuppressive effect develops by 2 days post-Listeria inoculation and peaks by Day 6. Low doses of Listeria are not immunosuppressive and produce some enhancement effect. From these results, it is suggested that a population of non-T cell dependent cells develop in Listeria primed hosts that nonspecifically suppress the response of B cells to an unrelated antigen in culture.     

Isotype-specific immunoregulation. Systemic antigen induces splenic T contrasuppressor cells which support IgM and IgG subclass but not IgA responses

In the present study, we have isolated and characterized the Lyt-1+, -2- T contrasuppressor (Tcs) cells from mice systemically primed with SRBC. Adoptive transfer of splenic Tcs cells from these mice abrogates oral tolerance and supports IgM and IgG anti-SRBC plaque-forming cell (PFC) responses; however, unlike the responses seen after transfer of Tcs cells derived from orally primed mice, low IgA responses were seen. Mice systemically primed with lower SRBC doses (0.01 to 1%) exhibited contrasuppression only within the L3T4- T cell subset, whereas mice primed with a high dose of SRBC (10%), harbored Lyt-1+, -2- Tcs cells in both the L3T4+ and L3T4- subsets. Both the L3T4- and L3T4+ Tcs cell subsets supported IgM and IgG responses when adoptively transferred to orally tolerized mice, and when added to tolerized spleen cell cultures. Splenic Tcs cells from systemically primed mice supported mainly IgG1 and IgG2b subclass anti-SRBC PFC responses, a pattern also seen with Tcs cells derived from orally primed mice. Both L3T4+ and L3T4- Tcs cells from systemically primed mice exhibited well established characteristics of contrasuppressor cells including binding to Vicia villosa lectin and expression of I-J. The splenic effector Tcs cells which support IgM, IgG1 and IgG2b anti-SRBC PFC responses are antigen-specific, since both L3T4- and L3T4+ Tcs cells from spleens of mice primed with 10% SRBC reverse tolerance to SRBC, but not to horse erythrocytes (HRBC). Further, both L3T4- and L3T4+ Tcs cells from HRBC-primed mice reverse tolerance to IgM and IgG anti-HRBC, but not to anti-SRBC responses. Isolation of T3-positive Lyt-1+, -2- and L3T4- Tcs cell subsets by flow cytometry followed by adoptive transfer, showed that effector Tcs cells express T3 and presumably contain an Ag-R (TCR-T3 complex). These studies show that systemic priming with heterologous RBC induces splenic Ag specific Tcs cells in a dose-dependent manner, which support IgM and IgG subclass responses, but not IgA responses.     

Long-term effects of splenectomy on immunocompetent cells of adult mice

The long-term effects of adult splenectomy on immunocompetent cells was studied in BALB/c mice during an observation period of 600 days following splenectomy in comparison to age-matched controls. The percentage and absolute number of circulating Thy 1.2-positive (T) cells diminished gradually, reaching about 50% of the level of T cells in age-matched controls, with a concomittant increase in the proportion of Ig-positive (B) cells. The in vitro response of peripheral blood lymphocytes (PBL) to T-cell mitogens showed a 60% decrease of [³H]TdR uptake following phytohemagglutinin stimulation without a significant impairment of the responsiveness to concanavalin A. Alloreactivity of PBL was unaltered by splenectomy since both the in vitro reactivity of PBL to allogeneic cells using mixed leukocyte reaction, and the in vivo assay, measuring a first set skin allograft survival, were similar to those observed in age-matched controls. Studies on the humoral antibody responsiveness to sheep red blood cells (SRBC) indicated a diminished primary, and normal secondary anti-SRBC responses in splenectomized mice. No IgG response was detectable in mice primed with SRBC starting at 160 days following splenectomy, whereas normal IgG titers were observed following SRBC boost in splenectomized mice. We conclude that the spleen seems to play a regulatory role on some immune functions during adult life in mice.     

IgA responses in xid mice: oral antigen primes Peyer's patch cells for in vitro immune responses and secretory antibody production

Because the gut-associated lymphoreticular tissue (GALT), e.g., Peyer's patches (PP), of X-linked immunodeficient (xid) mice possesses a subpopulation of mature B cells, we have characterized the ability of xid mice to respond to the thymic-dependent antigen sheep erythrocytes (SRBC) given by the oral route. Gastric intubation of SRBC to xid (CBA/N X DBA/2) F1 male or CBA/N mice, followed by the in vitro culture of dissociated PP cells with SRBC, resulted in IgM, IgG1, IgG2, and high IgA anti-SRBC plaque-forming cell (PFC) responses. The addition of unprimed PP but not splenic T cells to splenic xid B cell cultures resulted in IgM anti-SRBC PFC responses, suggesting the importance of GALT T cells for support of the immune responses to SRBC by splenic B cells from xid mice. Furthermore, purified PP T cells from SRBC orally primed xid mice supported in vitro IgA anti-SRBC PFC responses in B cell cultures from either the PP or the spleens of nonprimed xid mice. Higher IgA responses, however, occurred in PP, when compared with splenic B cell cultures. Additional evidence that the GALT of xid mice contains functional IgA precursor cells was provided by the finding that cloned H-2k PP T helper cells (PP Th A) supported IgA responses in PP B cell cultures derived from (CBA/N X C3H/HeN) F1 male (xid) mice. On the other hand, splenic B cells from these xid mice, in the presence of PP Th A cells, did not support in vitro responses. These results suggest that unique subpopulations of T cells occur in the GALT of xid and normal mice; one T cell subpopulation may induce immature B cells to become precursor IgA cells in the PP. A separate GALT T cell subpopulation, e.g., isotype-specific helper T cells, effectively collaborates with mature IgA B cells for the induction of IgA responses to orally administered antigen. When xid mice were gastric intubated with SRBC, followed by i.p. injection of SRBC, good splenic IgA anti-SRBC PFC responses were seen. Salivary and serum IgA antibodies were also detected in these xid mice. Nevertheless, the magnitude of the anti-SRBC response in xid mice was lower than that seen in similarly treated normal mice. These studies indicate that the GALT of both xid and normal mice possess unique populations of T cells that support in vitro responses in xid B cell cultures from either the spleen or the PP, which direct the mature B cell populations present toward IgA isotype-specific responses.(ABSTRACT TRUNCATED AT 400 WORDS)     

Selective impairment of B cell function by Neisseria meningitidis

Spleen cells from CBA/J mice infected with Neisseria meningitidis displayed depressed in vitro plaque-forming cell (PFC) responses to T-dependent (sheep red blood cell; SRBC) and T-independent (TNP-LPS, TNP-Ficoll) antigens. The inhibition was observed over a wide range of antigen concentrations. The decreased responsiveness of splenocytes from infected mice was due to a selective impairment of B-cell function since helper-T-cell activity was intact in infected mice as shown by the ability of T-enriched lymphocytes to cooperate with normal B-enriched lymphocytes in the generation of an anti-SRBC response, accessory macrophage function was preserved since adherent spleen cells from bacteria-injected mice were shown to produce normal or increased levels of IL-1 and were able to cooperate with normal non-adherent spleen cells in the generation of PFC against SRBC. Addition of peritoneal cells from normal animals or extraneous IL-1 both failed to restore normal PFC responses in cultures of splenocytes from infected mice. Finally, B-enriched lymphocytes from infected mice produced poor anti-SRBC responses when cultured with either Con A supernatant or T-enriched lymphocytes from normal or infected mice. Cell-mixing experiments failed to detect the presence of suppressor cells in cultures of unfractionated spleen cells or B-enriched lymphocytes from infected mice. Therefore, the immunological unresponsiveness associated with a Neisseria meningitidis infection was attributed to a meningococcus-induced defect(s) in B-cell function. In vivo polyclonal B-cell activation leading to clonal exhaustion did not play a major role in the depression of humoral responses since meningococcal infection induced little or no polyclonal Ig secretion.     

Trypanosoma cruzi: Effect on B-cell-responsive and -responding clones

During the course of Trypanosoma cruzi infection in C57BL/6 mice, which are relatively resistant to the parasite, the hosts developed antibody activity against previously unencountered antigens. The anti-sheep erythrocyte and antitrinitrophenyl antibody levels increased rapidly from Day 7 of infection, reached a peak by the 21st day, and were maintained at this level through 120 days postinfection in these mice. In contrast, highly susceptible C3H(He) mice did not have demonstrable antibody responses to SRBC or TNP during the 24-day infection period. Autoantibody activity against the selfantigens presented on isologous erythrocytes or thymocytes, however, were reduced in infected C57BL/6 mice. No significant reduction in autoreactivity to the self-antigens on erythrocytes or thymocytes was observed in C3H(He) mice infected with T. cruzi although a trend of reduced autoresponsiveness toward erythrocytes appeared to be developing by the time of death. C57BL/6 mice immunized with sheep erythrocytes as neonates and infected with T. cruzi as adults, or adult mice primed with low doses of sheep erythrocytes prior to infection, had elevated antibody responses to sheep erythrocytes unless the mice were immunized with sheep erythrocytes during the course of infection, in which case suppression of the response against sheep erythrocytes resulted. The nonspecific synthesis of immunoglobulins in infected C57BL/6 mice was, in part, a result of the lymphocyteactivating properties of T. cruzi-associated antigens. The T. cruzi-associated antigens induced proliferative and differentiative responses in spleen cells in vitro. It is proposed that the T. cruzi-associated antigens differentially affect lymphocytes capable of responding to antigen and those lymphocytes previously stimulated by antigen.     

Effects of antigen-feeding on intestinal and systemic immune responses. III. Antigen-specific serum-mediated suppression of humoral antibody responses after antigen feeding.

Feeding mice sheep erythrocytes (SRBC) caused a significant decrease in splenic IgM antibody responses to SRBC given ip. Reduced IgM responses were due to a suppressor factor in the serum of fed mice rather than due to a lack of IgM antibody-forming cell precursors or to the presence of suppressor T cells. Although feeding initially primed mice to produce greater IgA and IgG anti-SRBC responses after SRBC challenge, the initial primed state was transitory. Mice fed SRBC for longer than 8 weeks had significantly reduced splenic IgG and IgA responses after SRBC challenge.Suppression of IgM responses by serum from fed mice was antigen-specific and not H-2 restricted. Serum from fed mice inhibited the induction of IgM anti-SRBC responses but did not block the expression of already established responses. The size of the suppressor factor and the ability to remove suppressor activity from serum by anti-mouse immunoglobulin suggested that suppression was mediated by antibody. However, the determinants against which the antibody was directed appeared to differ among batches of suppressor sera. Suppressor activity did not appear to be mediated by immune complexes, or soluble antigen. Oral feeding of antigen can have a marked influence on host systemic immune responses when the antigen used for feeding is subsequently administered parenterally. Thus, oral antigen administration may provide a way for specifically manipulating systemic immune responses in vivo. In addition, antigen-feeding may provide a means for producing transferable factors that suppress humoral antibody responses.     

Trypanosoma cruzi: Responses by cells from infected mice to alloantigens

In unidirectional mixed lymphocyte cultures containing (as responders, stimulators, or regulators) spleen cells from mice infected with Trypanosoma cruzi, alloantigen responses were less than in cultures containing normal spleen cells only. Depletion of plastic adherent cells from infected spleen cells (stimulators or regulators) reversed their inhibitory effect on normal spleen cells (responders); removal of adherent responder cells and/or B lymphocytes did not alter the low alloantigen responses of normal spleen cells (stimulated by infected spleen cells) or infected spleen cells (stimulated by normal spleen cells). Infected spleen cells were effective in regulating mixed lymphocyte cultures only when added at the initiation of the culture. Serum from infected mice suppressed mixed lymphocyte cultures containing responder spleen cells syngeneic to the serum donor if added up to 24 hr after initiation of cultures, whereas the “suppressor serum” had to be present at the initiation of cultures when responder cells were allogeneic to the serum donor. Cultures of infected spleen cells (whole or macrophage enriched) produced a factor which was suppressive when added to mixed lymphocyte cultures containing syngeneic responder cells at initiation. It is proposed that the serum suppressor substance regulates cell-mediated immune responses directly by suppressing the response-potential of cells and indirectly by triggering the release of a factor from adherent splenic cells which induces a hyporesponsive state in T lymphocytes.     

Cyclization of T-cell helper activity

The kinetics of helper activity were assessed in vitro with T-cell preparations isolated from CBA/J mice which were immunized with various doses of sheep erythrocytes (SRBC). SRBC-primed splenic T-cells were mixed with normal, syngeneic B-cells and SRBC, and the number of anti-SRBC PFC were enumerated after 5 days in culture. Mice primed with 10⁷ SRBC produced T-cell preparations which cycled in their net helper activity. T-Cell preparations from mice immunized with 10⁵ or 10⁹ SRBC had a different kinetic profile for the first 10 days although T-cell preparations activated with 10⁵ SRBC provided help equivalent to that of 10⁷ SRBC-activated T-cells. The degree of help and the cyclization of the helper activity was eliminated by in vitro irradiation of the T-cell preparations with 1000 R indicating that T-cell help and the cyclization of this help was dependent, in part, on radiosensitive T-cells. In addition, the cyclization of the helper activity induced by 10⁷ SRBC was altered by anti-Ly-1 or anti-Ly-3 + complement (C) treatment and by thymectomy of the mice used for the source of the primed T-cells which suggests that Ly-1, Ly-2,3, and Ly-1,2,3 T-cell subpopulations may be responsible for the cyclization. Cyclization of helper activity is an expression of the apparent regulatory events existent in the development of humoral immunity. The roles of T-cell subpopulations and antibodies in the cyclic control of B-cell differentiation are discussed.     

Recombinant granulocyte-macrophage colony-stimulating factor restores deficient immune responses in mice with chronic Trypanosoma cruzi infections

Spleen cells from mice with chronic Trypanosoma cruzi infection generate a minimal plaque-forming response to SRBC in vitro. Addition of granulocyte-macrophage (GM)-CSF to cultures of spleen cells from chronically infected mice restored the plaque-forming cells (PFC) response to normal levels. Splenic adherent cells from chronically infected mice were deficient in their ability to reconstitute the PFC response of accessory cell-depleted normal spleen cells. Preincubation of splenic adherent cells from infected mice with GM-CSF restored their ability to reconstitute the PFC response of adherent cell depleted cultures. Ia Ag expression by splenic adherent cells from chronically infected mice was significantly lower compared to Ia Ag expression of cells from normal mice. Incubation of splenic adherent cells from chronically infected mice for 48 h with GM-CSF increased levels of Ia Ag expression to approximately those of uninfected mice. Peritoneal macrophages from infected mice produced IL-1 after incubation with GM-CSF at levels equivalent to those produced by similarly treated control macrophages. Spleen cells from chronically infected mice showed significant induction of IL-2 mRNA after GM-CSF treatment, and the addition of the anti-IL-2 mAb to GM-CSF supplemented cultures of spleen cells from infected mice blocked the restoration of the anti-SRBC PFC response. Thus, the ability of GM-CSF to restore the anti-PFC response to SRBC appears to involve the up-regulation of accessory cell function that includes increased Ia Ag expression and the induction of IL-1 production. These events also involve increased IL-2 production with resultant up-regulation of the response to SRBC by spleen cells from infected mice. Finally, it was shown that treatment of infected mice with rGM-CSF completely restored their depressed PFC production in vivo.     

In vitro studies of the rabbit immune system: I. Hemolytic plaque-forming response of dissociated spleen cells from normal and primed rabbits

The conditions for the in vitro generation of primary and secondary immune responses by rabbit spleen cells to sheep red blood cell (SRBC) antigen have been examined. Spleen cells from many normal and all previously immunized rabbits are capable of producing in vitro plaque-forming cell (PFC) responses when cultured as dissociated cell suspensions in the presence of antigen. Primed spleen cells generate approximately 100 times the number of PFCs obtained in normal cultures with a shorter lag period. Both types of cultures demonstrate a period of exponential increase in PFCs during which the doubling time is 12–14 hr. This increase occurs after 1 day of culture of spleen cells from primed rabbits and after 4 days of culture of spleen cells from unprimed rabbits. The PFCs which arise in cultures of primed cells appear not to be the progeny of those generated in vivo but to be derived from an increased number of PFC precursors. Repeated immunization of the spleen cell donor is required to produce significant numbers of indirect (IgG) PFC or indirect precursors; most of the PFC found after a single immunization in vivo or in vitro are direct (IgM). There is no evidence for conversion of IgM to IgG PFC in vitro. This system should provide a means for further identification of the cellular interactions involved in the immune response of the rabbit.     

Role of T Cells in the Mitogen-Induced Proliferation and Polyclonal Antibody Response of Murine B Cells

The effect of thymus-derived lymphocytes (T cells) on the responsiveness of bone marrow-derived lymphocytes (B cells) to bacterial lipopolysaccharide (LPS) was determined in in vitro experiments. Radiation resistant splenic T cells obtained from euthymic nu/+ mice increased the number of proliferating cells in the cultures of splenic B cells from athymic nu/nu mice even in a nonstimulated state. The radiation resistant T cells augmented significantly the responsiveness of B cells to LPS, as determined by an increase in proliferating cells and polyclonally induced anti-sheep erythrocyte (SRBC) IgM hemolysin plaque-forming cells (PFC). Addition of the T cells to B cell cultures not only augmented the responsiveness of B cells to suboptimal doses of LPS but also enabled B cells to respond to supraoptimal doses of LPS. As is well documented, the radiation resistant T cells were unable to induce the generation of anti-SRBC PFC in B cell cultures, unless the cultures were simultaneously stimulated with SRBC. Colcemid, a specific inhibitor of cell mitosis, blocked almost completely the exponential generation of anti-SRBC PFC in B cell cultures responding to SRBC with the aid of radiation resistant T cells. In contrast, colcemid did not affect the exponential generation of anti-SRBC PFC of a polyclonal nature in B cell cultures responding to LPS, either in the presence or absence of radiation resistant T cells.     

Regulatory Mechanism of Delayed-Type Hypersensitivity in Mice: III. In Vitro Analysis of Memory T Cells Involved in Augmentation of DTH Responses

The memory of delayed-type hypersensitivity (DTH), manifested by the augmented responsiveness upon challenge with alum-absorbed ovalbumin (OA), was induced in mice primed 7 days, 21 days, or 90 days previously with 1 μg of reduced and alkylated OA. The memory cells involved in the augmentation of DTH responses were analyzed in the in vitro induction system of T cells which mediate DTH against OA. Spleen cells from the primed mice generated DTH-effector T cells (DTH-Te) in a significantly accelerated fashion, compared with unprimed spleen cells, when cultured with OA. The accelerated generation of DTH-Te in vitro was induced antigen specifically and was dependent on a certain T cell population in the primed spleen. The T cell population was found in the spleen of primed mice for at least 3 months after priming, corresponding to the persistence of DTH-memory in vivo. Moreover, it was fractionated in the high-density layer by discontinuous bovine serum albumin gradient centrifugation. The high-density cell population decreased in density with increase in the time of culture and developed into DTH-Te, which were separated in the low-density layer on day 4 of culture. These results indicate that the T cells involved in the accelerated generation of DTH-Te in vitro are long-lived DTH-memory T cells, which are probably precursor cells, capable of differentiating into DTH-Te upon challenge with the antigen.     

In Vitro Reconstitution of Anti-Sheep Erythrocyte Antibody Response of T Cell-Depleted Spleen Cells by Allogeneic T Cells or by Factors Derived from Them

Restoration of the impaired antibody response to sheep erythrocytes (SRBC) in cultures of mouse spleen cells, which were deprived of thymus-derived lymphocytes (T cells) by treatment with anti-mouse brain-associated θ (BAθ) antiserum and complement, was studied by adding a small portion of syngeneic or allogeneic normal spleen cells in vitro. Allogeneic spleen cells had a far greater effect than syngeneic spleen cells on the restoration, as far as the normal spleen cells added were able to recognize the alloantigens on the anti-BAθ serum-treated spleen cells (bone marrow-derived lymphocytes). Treatment of the allogeneic spleen cells with mitomycin C did not affect their activity in the restoration of the impaired antibody response. The possibility that the role of T cells in the antibody response to SRBC may be replaced by a nonspecific mediator derived from T cells reacting with allogeneic cells was proven by the finding that supernatant of the mixed allogeneic spleen cell cultures restored the impaired anti-SRBC antibody response of the T cell-depleted spleen cells. The effect of such culture supernatant on the restoration of the antibody response was greatest when it was added to the T cell-depleted spleen cell cultures one day after cultivation with SRBC, suggesting that the effectiveness may result from triggering of the proliferation and differentiation of antibody-forming cell precursors, which have already reacted with the antigen, to antibody-forming cells.     

Trypanosoma cruzi: Effect of the absence of 5-lipoxygenase (5-LO)-derived leukotrienes on levels of cytokines, nitric oxide and iNOS expression in cardiac tissue in the acute phase of infection in mice

Leukotrienes are important mediators of inflammatory responses. In this study, we investigated the effect of the absence of 5-lipoxygenase (5-LO)-derived leukotrienes on levels of cytokines, nitric oxide (NO) and iNOS expression in cardiac tissue of mice infected with Trypanosoma cruzi, the agent of Chagas’ disease. NO is a key mediator of parasite killing in mice experimentally infected with T. cruzi, and previous studies have suggested that leukotrienes, such as LTB₄, induces NO synthesis in T. cruzi-infected macrophages and plays a relevant role in the killing of parasite in a NO-dependent manner. We therefore investigated whether leukotrienes would have a similar role in vivo in controlling the parasite burden by regulating NO activity. We have made the striking observation that absence of 5-LO-derived leukotrienes results in increased NO and IL-6 production in the plasma with a concomitant decrease in the expression of iNOS in the cardiac tissue on day 12 after T. cruzi infection. These findings indicate that endogenous leukotrienes are important regulators of NO activity in the heart and therefore influence the cardiac parasite burden without exerting a direct action on IL-6 production in the acute phase of infection with T. cruzi.     

Trichinella spiralis: the influence of short chain fatty acids on the proliferation of lymphocytes, the goblet cell count and apoptosis in the mouse intestine

This study was carried out to determine the influence of short chain fatty acids (SCFA) on spleen and mesenteric lymph node lymphocyte proliferation, goblet cells and apoptosis in the mouse small intestine during invasion by Trichinella spiralis. BALB/c mice were infected with 250 larvae of T. spiralis. An SCFA water solution containing acetic, propionic and butyric acids (30:15:20 mM) was administered orally starting 5 days before infection and ending 20 days post infection (dpi). Fragments of the jejunum were collected by dissection 7 and 10 dpi, and were examined for apoptotic cells in the lamina propria of the intestinal mucosa, and for goblet cells. The proliferation index of the cultured spleen and mesenteric lymph node lymphocytes with MTT test was also determined. The orally administered SCFA solution decreased the proliferation of mesenteric lymph node lymphocytes in the mice infected with T. spiralis at both examination times, but did not influence the proliferative activity of the spleen cells. Seven dpi, both in the spleen and mesenteric lymph nodes, the highest proliferation index of concanavalin A (Con A)-stimulated lymphocytes was found in the group of uninfected animals receiving SCFA animals. This tendency could still be seen 10 dpi in the mesenteric lymph nodes but not in the spleen, where the proliferation index in this group had significantly decreased. In vitro studies revealed, that butyric and propionic acids added to the cell cultures suppressed the proliferation of Con A-stimulated mesenteric lymph nodes and spleen lymphocytes taken from uninfected and T. spiralis-infected mice. Acetic acid stimulated proliferation of splenocytes taken from uninfected mice but did not affect lymphocyte proliferation in mesenteric lymph nodes from uninfected or infected mice. Orally administered SCFA increased the number of goblet cells found in the epithelium of the jejunum 7 dpi, but this number had decreased 10 dpi. The number of apoptotic cells in the lamina propria of the intestinal mucosa of animals infected with the T. spiralis and receiving SCFA was also lower, particularly 10 dpi. The above results show that SCFA can participate in the immune response during the course of trichinellosis in mice.