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.     

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.     

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.     

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.     

Requirement for B cells for activation of contrasuppressor T cells by type III pneumococcal polysaccharide

Type III pneumococcal polysaccharide (S3) is unable to activate S3-specific contrasuppressor T cells (Tcs) in mice depleted of B cells by chronic anti-IgM treatment or in immune defective xid mice that lack the B cell subset required for anti-S3 antibody responses. The inability of S3 to activate Tcs in xid mice was shown to be due to a requirement of B cells for Tcs activation rather than to an absence of Tcs in xid mice. The B cells from normal mice that are required for Tcs activation apparently function to present the S3 Ag to Tcs. S3 physically coupled to spleen cells (S3-SC) prepared from normal BCF1 SC could activate Tcs in both xid and BCF1 mice whereas S3-SC prepared from xid SC or B cell-depleted BCF1 SC could not activate Tcs in either strain. B cell APC function was abrogated by 3000 R irradiation and by treatment of the B cells with either chloroquine or paraformaldehyde. Interestingly, B cells from mice previously immunized with S3 were unable to function in Tcs activation; preimmunization of B cell donors with an irrelevant Ag or with a T-dependent form of S3 had no effect on their ability to function as APC. These latter observations are discussed in terms of the in vivo persistence of polysaccharide Ag and their ability to induce B cell tolerance under the experimental conditions used for these experiments. The results of this study provide evidence that B cells play an important and apparently obligatory role in the activation of Tcs by S3; B cells apparently function to present Ag to Tcs, resulting in the activation of this regulatory T cell subset.     

Immune dysfunction associated with graft-vs-host reaction in mice transplanted across minor histocompatibility barriers. II. Reversible defect in T-dependent antibody responses

B cell and Th cell functions were assessed in mice undergoing a graft-vs-host reaction (GvHR) in response to minor histocompatibility Ag by using the plaque-forming cell (PFC) response to the T-independent Ag TNP-Brucella abortus and the T-dependent Ag TNP-SRBC. Bone marrow plus spleen cells from B10.D2 mice were transplanted into lethally irradiated B10.D2 (syngeneic recipient) or H-2d-compatible BALB/c (allogeneic recipient) to produce a chronic form of GvHR. BALB/c recipients of an allogeneic transplant demonstrated a marked and proportional lymphoid depletion of the spleen with normal percentages of B cells, T cells, and CD4+ and CD8+ T cell subsets. Mice with GvHR made normal numbers of PFC/10(5) spleen cells in response to the T-independent Ag, but a significantly depressed number of PFC/10(5) spleen cells to the T-dependent Ag compared with normal B10.D2 mice and with irradiated B10.D2 recipients of syngeneic B10.D2 marrow plus spleen cells. Mice undergoing the minor Ag GvHR made significantly larger numbers of PFC/10(5) spleen cells after secondary immunization with TNP-SRBC compared with controls. In vitro assays demonstrated that B cells from mice with GvHR responded to T help from normal B10.D2 mice and that T cells from mice with GvHR provided help to normal B cells after in vivo immunization. These data demonstrate that radiation chimeras with GvHR in response to minor histocompatibility Ag have relatively normal B cell function and an apparent defect in T helper cell function that is reversible by immunization with appropriate Ag.     

Production of IL-10 by CD4+ T lymphocytes correlates with down-regulation of Th1 cytokine synthesis in helminth infection.

After the onset of parasite egg deposition, mice infected with the helminth Schistosoma mansoni mount strong Th2 cytokine responses in the absence of significant Th1 cytokine synthesis. To examine the basis of this immunoregulatory state, spleen or lymph node cells from schistosome-infected mice were stimulated with parasite-specific Ag and the supernatants tested for their capacity to suppress IFN-gamma synthesis by a Th1 cell line. Strong inhibition was observed that was neutralized by a mAb against IL-10, a cytokine previously shown to down-regulate Th1 cytokine synthesis. By means of ELISA measurements the production of IL-10 in schistosome infection was confirmed and shown to depend on CD4+ T cells. IL-10 synthesis stimulated by either mitogen or Ag was observed only at those stages of infection when Th2 response induction and Th1 cytokine down-regulation also occurred and was not detected in mice vaccinated with attenuated parasites. Moreover, the addition of the neutralizing anti-IL-10 mAb to Ag-stimulated spleen cell cultures from infected mice caused a dramatic augmentation in IFN-gamma synthesis. These findings suggest that IL-10 is responsible for the down-regulation of Th1 responses observed in schistosome infections, a phenomenon that may enable the parasite to escape potentially harmful cell-mediated responses.     

IL-1 as adjuvant. Role of T cells in the augmentation of specific antibody production by recombinant human IL-1 alpha

Human rIL-1 alpha significantly enhanced splenic plaque-forming cells (PFC) to SRBC in vitro and in vivo. A single i.p. injection was sufficient to produce a fivefold or greater increase in the generation of PFC in a primary response. IL-1 treatment resulted in an increased production of Ag-specific PFC, both in vitro and in vivo, in combination with suboptimal doses of Ag. When IL-1 was given with a primary dose of Ag in vivo, an enhanced IgG response occurred. IL-1 enhanced in vivo carrier priming for an anti-hapten PFC response, indicating increased Th activity. Furthermore, T cells from spleens of mice treated with IL-1 provided significantly more help in both carrier (SRBC)- and hapten (TNP)- specific PFC. The enhancement of PFC by IL-1 in vitro occurred even in the presence of an excess of neutralizing anti-IL-2 antibody. These results suggest that IL-1 may enhance T cell-dependent antibody production in part by increasing Th activity, and that the mechanism of IL-1 action in increasing antibody production involves pathways in addition to the induction of IL-2 secretion.     

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.     

Functional characteristics of Peyer's patch lymphoid cells. IV. Effect of antigen feeding on the frequency of antigen-specific B cells.

The frequency of B cells in Peyer's patches from normal BDF(1) and sheep red blood cell (SRBC)-fed BDF(1) mice that could respond to antigenic determinants on SRBC and trinitrophenyl (TNP) was determined using an in vitro system of limiting dilution analysis. In normal mice, one B cell in 1.9 x 10(4) Peyer's patch cells could be induced to an anti-SRBC response and one B cell in 3.6 x 10(4) Peyer's patch cells could be induced to an anti-TNP response. The frequency of B cells capable of responding to SRBC in normal mice was similar in Peyer's patches and spleen. However, after feeding mice SRBC for 3 weeks, there was a 6-fold reduction in the frequency of B cells in Peyer's patches capable of responding to SRBC but no change in the frequency of B cells capable of responding to TNP. The average clone size of Peyer's patch B cells responding to SRBC was similar in normal and SRBC-fed mice. Although antigen-feeding does not stimulate Peyer's patch B cells in situ to humoral antibody synthesis, antigen-feeding can markedly alter the reactivity of the antigen-sensitive cell population in Peyer's patches. We previously demonstrated that T cells in Peyer's patches could be specifically carrier primed for helper function by SRBC feeding. We have now demonstrated that antigen-feeding reduced significantly the frequency of B cells in Peyer's patches capable of responding to the fed antigen. Peyer's patches appear to serve an important function as a sampling site for intestinal antigens.     

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.     

Differential control of IFN-gamma and IL-2 production during Trypanosoma cruzi infection

In murine infection with Trypanosoma cruzi, immune responsiveness to parasite and non-parasite Ag becomes suppressed during the acute phase of infection, and this suppression is known to extend to the production of IL-2. To determine whether suppression of lymphokine production was specific for IL-2, or was a generalized phenomenon involving suppressed production of other lymphokines, we have begun an investigation of the ability of mice to produce of a number of lymphokines during infection, initially addressing this question by studying IFN-gamma production. Supernatants from Con A-stimulated spleen cells from infected resistant (C57B1/6) and susceptible (C3H) mice were assayed for IFN-gamma. Supernatants known to be suppressed with respect to IL-2 production from both mouse strains contained IFN-gamma at or above that of supernatants from normal spleen cells. Samples were assayed in an IFN bioassay to ensure that the IFN-gamma detected by ELISA was biologically active. Thus, suppression during T. cruzi infection does not extend to the production of all lymphokines. The stimulation of IFN-gamma production was confirmed by detection of IFN-gamma mRNA in unstimulated spleen cells from infected animals, and in Con A, Con A + PMA, and in some cases, parasite Ag-stimulated spleen cells from infected animals. IFN-gamma mRNA levels in mitogen-stimulated spleen cells equalled or exceeded those found in similarly stimulated normal cells. In contrast, stimulated spleen cells from infected animals had reduced levels of IL-2 mRNA relative to normal spleen cells. Thus at both the protein and mRNA level, IFN-gamma production is stimulated by T. cruzi infection, whereas IL-2 production is suppressed. Serum IFN-gamma in infected C57B1/6 and C3H mice was detected 8 days after infection, peaked on day 20 of infection, and subsequently fell, but remained detectable at low levels throughout the life of infected mice. Infected animals were depleted of cell populations known to be capable of producing IFN-gamma, and Thy-1+, CD4-, CD8-, NK- cells, and to a lesser degree, CD4+ and CD8+ cells were found to be responsible for the production of IFN-gamma during infection. We also report that IL-2 can induce IFN-gamma production in vitro and in vivo by spleen cells from infected animals, and that IL-2 can synergize with epimastigote or trypomastigote antigen to produce high levels of IFN-gamma comparable to those found in supernatants from mitogen-stimulated cells.     

Suppressor cells in mice infected with Trypanosoma brucei.

Within 2 to 3 days of infection with Trypanosoma brucei strain S42, the ability of spleen cells from infected CBA mice to mount a primary in vitro antibody response to sheep red blood cells (SRBC) is profoundly reduced, and suppressor cells are generated as detected by cell mixture experiments. Suppressor cell activity lies in the T and adherent cell compartments of spleens from infected mice, but not in the B cell compartment, although antibody responses to a thymus-independent antigen, DNP-Ficoll, are significantly reduced. Suppression of antibody responses of normal spleen cells depends on viable cells from infected mice. The trypanosome, itself, plays no direct role in suppression, and we have ruled out the possibility of antigenic competition as a mechanism of suppression. Our data is consistent with the model of suppressor T cells induced by concanavalin A mitogenesis. We hypothesize that trypanosome antigens may directly stimulate T cells with the concomitant release of factors with affinity for macrophage surfaces thus becoming suppressive for T and B cell responses.     

Suppressive substance produced by T cells from mice chronically infected with Trypanosoma cruzi. III. Genetic restriction and further characterization

Earlier papers in this series reported that the culture supernatant of splenic L3T4+, Lyt-2- T cells from susceptible CBA mice chronically infected with Trypanosoma cruzi contain a SS3 that can inhibit the induction of delayed-type hypersensitivity to a wide range of Ag. The SS is a glycoprotein with an apparent molecular mass of 30 to 60 kDa and is distinct from T. cruzi Ag, IL-1, IL-2, IL-3 or IFN-gamma. It also has no effect on Th cells for antibody, cytotoxic T cells or immediate-type hypersensitivity. In this paper, we report that SS can suppress the induction of proliferating T cells but not the presentation of Ag to a cloned T cell line (D10). It also has no effect on the induction of delayed-type hypersensitivity in vitro. SS is produced by a number of inbred mouse strains irrespective of their susceptibility to infection with T. cruzi (BALB/c, highly susceptible; CBA, susceptible; C57BL/10, resistant) but only CBA mice are sensitive to the suppressive action of SS. This is so whether the SS is derived from CBA, BALB/c, or C57BL/10. The sensitivity to SS is not a feature of the H-2k haplotype inasmuch as B10.BR and BALB/k mice (also H-2k) do not respond to SS. Attempts to purify SS with a range of biochemical techniques substantially enriched the specific activity but failed to produce a substance visualizable by analytical gel electrophoresis. IEF chromatography revealed SS activity spanning a pH range from 6 to less than 4. This suggests that SS is likely to be a minor heterogeneous component of the suppressive supernatant. The genetically highly restricted nature of its action is intriguing and may explain some of the contradictory reports in the literature on this subject.     

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)     

Infection with Schistosoma mansoni alters Th1/Th2 cytokine responses to a non-parasite antigen.

Schistosoma mansoni infection in the mouse has been shown to be accompanied by a down-regulation in parasite-Ag- and mitogen-induced Th1 cytokine secretion (IL-2 and IFN-gamma) with a simultaneous increase in the production of Th2 cytokines (IL-4, IL-5, and IL-10), suggesting a generalized imbalance in lymphocyte function. In the present study, we examined whether infection with S. mansoni would also influence the character of immune responses to a non-parasite Ag, sperm whale myoglobin (SwMb). When spleen cells (SC) from schistosome-infected SwMb-immunized animals were stimulated with SwMb, their production of IL-2 and IFN-gamma per CD4+ cell was found to be significantly reduced (by 45% and 59%, respectively) compared with the responses observed in immunized uninfected animals. Moreover, SwMb-induced secretion of IL-4 per CD4+ cell was increased threefold in SC cultures from infected mice. No myoglobin-induced IL-5 was detected in the same cultures. Addition to SC cultures of a neutralizing mAb specific for IL-10 partly restored the suppressed IFN-gamma response to SwMb seen in infected mice, suggesting a role for IL-10 in the observed down-regulation. S. mansoni-infected mice also showed an impaired antibody response to SwMb, with levels ranging from 10% to 27% of those observed in uninfected mice, although no differences in IgG isotype were evident. Taken together, these results suggest that infection with S. mansoni induces a down-regulation of Th1 responses and elevation of Th2 responses to unrelated foreign immunogens as well as to parasite Ag themselves. One implication of these findings is that helminth-infected individuals may have altered cell-mediated immune function to other microbial agents.     

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.     

Activated STAT4 has an essential role in Th1 differentiation and proliferation that is independent of its role in the maintenance of IL-12R beta 2 chain expression and signaling

In this study we demonstrated that CD4(+) T cells from STAT4(-/-) mice exhibit reduced IL-12R expression and poor IL-12R signaling function. This raised the question of whether activated STAT4 participates in Th1 cell development mainly through its effects on IL-12 signaling. In a first approach to this question we determined the capacity of CD4(+) T cells from STAT4(-/-) bearing an IL-12Rbeta2 chain transgene (and thus capable of normal IL-12R expression and signaling) to undergo Th1 differentiation when stimulated by Con A and APCs. We found that such cells were still unable to exhibit IL-12-mediated IFN-gamma production. In a second approach to this question, we created Th2 cell lines (D10 cells) transfected with STAT4-expressing plasmids with various tyrosine-->phenylalanine mutations and CD4(+) T cell lines from IL-12beta2(-/-) mice infected with retroviruses expressing similarly STAT4 mutations that nevertheless express surface IL-12Rbeta2 chains. We then showed that constructs that were unable to support STAT4 tyrosine phosphorylation (in D10 cells) as a result of mutation were also incapable of supporting IL-12-induced IFN-gamma production (in IL-12Rbeta2(-/-) cells). Thus, by two complementary approaches we demonstrated that activated STAT4 has an essential downstream role in Th1 cell differentiation that is independent of its role in the support of IL-12Rbeta2 chain signaling. This implies that STAT4 is an essential element in the early events of Th1 differentiation.     

Differences in the regulation of humoral responses between mice infected with Trypanosoma cruzi and mice administered T. cruzi-induced suppressor substance

In the present study, the effects of Trypanosoma cruzi and the T. cruzi-induced serum suppressor substance (SSS) on antibody responses were compared. Although infection with T. cruzi led to an alteration in T cell helper activity and a reduced specific B cell precursor frequency, SSS did not have a similar effect on either of these cell populations. The characteristics of the altered T cell helper activity was further investigated, and it was found that helper activity appeared earlier in infected mice than in normal or SSS-suppressed mice, and less antigen was required for optimal elicitation of T helper cells in infected mice. The potency of T cell helper activity also was shown to differ, and in the order T. cruzi-infected 6E normal 6E SSS-suppressed mice. It was found that spleen cells from T. cruzi-infected mice elaborated more potent specific helper factors than spleen cells from normal or SSS-suppressed mice, but did not produce a detectable nonspecific helper factor in vitro. Finally, the addition of B cells from low-dose primed, T. cruzi-infected mice to cultures of normal spleen cells resulted in subnormal responses to the priming antigen (sheep erythrocytes) but not to another unrelated antigen (trinitrophenyl-haptenated Brucella abortus), whereas similarly sensitized B cells from normal or SSS-suppressed mice caused no such effect.     

Induction of B- and T-cell responses to cruzipain in the murine model of Trypanosoma cruzi infection

Trypanosoma cruzi, the causative agent of Chagas' disease, is an important cause of heart disease in Latin America. The parasite is transmitted mucosally, with both intra- and extracellular life stages in the human host. Cruzipain, the major cysteinyl proteinase of T. cruzi, has been shown to be antigenic in both humans and mice during infection with the parasite. We extend these observations, showing here that multiple murine immune subsets of potential importance for vaccine-induced protection can be induced by cruzipain. Cruzipain-specific serum IgG responses were induced during chronic infection with T. cruzi. In addition, T. cruzi mucosal infection stimulated the development of cruzipain-specific secretory IgA detectable in fecal extracts from infected mice. Cruzipain-specific type 1 cytokine responses characterized by the production of IFN-gamma but not IL-4 were also detectable during murine infection. Furthermore, immunization of mice with a DNA vaccine encoding cruzipain was shown to stimulate cytotoxic T lymphocyte (CTL) responses capable of recognizing and lysing T. cruzi-infected cells. The induction of serum antibody, mucosal IgA, Th1 cytokine and CTL responses by cruzipain in mice supports the use of this parasite protein for further efforts in T. cruzi vaccine development.