Regulatory interactions between macrophages and T cells in Mycobacterium lepraemurium-specific T-cell activation

The antigen-specific proliferative response of draining lymph node cells was found to follow a similar pattern in both C57BL and BALB/c mice following subcutaneous infection with Mycobacterium lepraemurium (MLM), although the two strains differed in their ability to control bacterial growth at the site of infection. The proliferative response, which was maximal 1-2 weeks postinfection, was T-cell dependent as it was abrogated with anti-Thy 1.2 + C treatment. The response was also abrogated by pretreatment with anti-Lyt 1.2 + C and slightly reduced by treatment with anti-Lyt 2.2 + C. The decline in T-cell responsiveness, at least from 4 to 8 weeks postinfection, may have been associated with prostaglandin production by inflammatory macrophages, as it was partially restored by addition of indomethacin. Also highly purified T lymphocytes from lymph nodes taken 6-8 weeks postinfection gave a strong antigen-specific proliferative response when reconstituted with optimal numbers of syngeneic antigen-presenting cells from uninfected mice. Proliferation was inhibited by peritoneal macrophages from Corynebacterium parvum-pretreated mice and macrophages from C57BL but not BALB/c mice infected with M. lepraemurium which had been elicited with heat-killed (HK) MLM and thioglycollate. Resident peritoneal macrophages from both C57BL and BALB/c mice infected subcutaneously with M. lepraemurium were slightly more inhibitory than normal macrophages but not as inhibitory as macrophages from C. parvum-pretreated mice. Macrophage-dependent inhibition of T-cell proliferation was partially reversed by addition of indomethacin, suggesting these cells were not defective in processing and presentation of HK-MLM antigens, and that the inhibitory effects were associated with prostaglandin production. Resident peritoneal macrophages from both C57BL and BALB/c mice infected subcutaneously with M. lepraemurium produced comparable or slightly elevated levels of IL-1 on stimulation with LPS or HK-MLM.     

Macrophages as effector cells of protective immunity in murine schistosomiasis

Mice infected with Schistosoma mansoni develop a dramatic (five- to eightfold) increase in numbers of peritoneal leukocytes, and approximately 65% of these cells are macrophages. By several biochemical and cytochemical criteria, these cells were comparable to resident peritoneal macrophages of normal mice. However, macrophages from schistosome-infected mice exhibited significant nonspecific tumoricidal activity in vitro, a function associated with immunologically activated cells. The time course for development of activated macrophages in the peritoneal cavity was dependent upon the route of infection. Cytotoxic cells were present in the peritoneal cavity by 3 weeks after intraperitoneal infection, but were not evident until several weeks later in animals infected percutaneously, subcutaneously, or intravenously. However, by 3 weeks after subcutaneous infection, tumoricidal macrophages appeared in the peritoneal cavity after intraperitoneal challenge with soluble schistosome antigens. Macrophage activation was independent of the development of egg granulomas, since tumoricidal cells could be found prior to the onset of egg production and were also present in mice infected with only male worms. Development of activated macrophages in these instances is thus consistent with previous observations on induction of T lymphocyte reactivity toward schistosomula. Since other manipulations known to activate macrophages have been shown to induce partial resistance to schistosome infection, the finding that macrophage activation results from primary S. mansoni infection itself suggests that these cells may play a major role in acquired immunity to this parasite.     

Parasitic infection improves survival from septic peritonitis by enhancing mast cell responses to bacteria in mice

Mammals are serially infected with a variety of microorganisms, including bacteria and parasites. Each infection reprograms the immune system's responses to re-exposure and potentially alters responses to first-time infection by different microorganisms. To examine whether infection with a metazoan parasite modulates host responses to subsequent bacterial infection, mice were infected with the hookworm-like intestinal nematode Nippostrongylus brasiliensis, followed in 2-4 weeks by peritoneal injection of the pathogenic bacterium Klebsiella pneumoniae. Survival from Klebsiella peritonitis two weeks after parasite infection was better in Nippostrongylus-infected animals than in unparasitized mice, with Nippostrongylus-infected mice having fewer peritoneal bacteria, more neutrophils, and higher levels of protective interleukin 6. The improved survival of Nippostrongylus-infected mice depends on IL-4 because the survival benefit is lost in mice lacking IL-4. Because mast cells protect mice from Klebsiella peritonitis, we examined responses in mast cell-deficient Kit(W-sh)/Kit(W-sh) mice, in which parasitosis failed to improve survival from Klebsiella peritonitis. However, adoptive transfer of cultured mast cells to Kit(W-sh)/Kit(W-sh) mice restored survival benefits of parasitosis. These results show that recent infection with Nippostrongylus brasiliensis protects mice from Klebsiella peritonitis by modulating mast cell contributions to host defense, and suggest more generally that parasitosis can yield survival advantages to a bacterially infected host.     

Neutrophils and monocytes transport tumor cell antigens from the peritoneal cavity to secondary lymphoid tissues

Antigen-transporting cells take up pathogens, and then migrate from sites of inflammation to secondary lymphoid tissues to induce an immune response. Among antigen-transporting cells, dendritic cells (DCs) are believed to be the most potent and professional antigen-presenting cells that can stimulate naïve T cells. However, the cells that transport antigens, tumor cell antigens in particular, have not been clearly identified. In this study we have analyzed what types of cells transport tumor cell antigens to secondary lymphoid tissues. We show that neutrophils, monocytes and macrophages but not DCs engulf X-irradiated P388 leukemic cells after their injection into the peritoneal cavity, and that neutrophils and monocytes but not macrophages migrate to the parathymic lymph nodes (pLN), the blood, and then the spleen. The monocytes in the pLN comprise Gr-1⁻ and Gr-1⁺ ones, and some of these cells express CD11c. Overall, this study demonstrates that neutrophils and monocytes transport tumor cell antigens from the peritoneal cavity to secondary lymphoid tissues.     

Prostaglandin-mediated suppression of delayed-type hypersensitivity to infected erythrocytes during Babesia microti infection in mice

The mechanism of suppression of delayed-type hypersensitivity (DTH) to intraerythrocytic Babesia microti which occurs during infection in mice was examined. The suppression was not specific for anti-parasite DTH; infected mice immunized and challenged with sheep red blood cells had a similar depression of anti-sheep red blood cell DTH. Sublethal or lethal irradiation did not significantly alter the suppression of the DTH response, and cyclophosphamide pretreatment of infected mice also had no effect on suppression. Multiple passive transfer experiments using serum or regional lymph node cells from immunized or infected and immunized (suppressed) donor animals failed to demonstrate any ability to transfer suppression of DTH. Adherent cells from the spleens or peritoneal exudates of suppressed mice, however, did significantly depress the ability of immunized mice to express a DTH response. The cells responsible for this suppression were Thy 1- and nonspecific esterase+. Treatment of suppressive cell populations with 10 micrograms/ml indomethacin for 24 hr in vitro abrogated their suppressive ability, and in vivo administration of indomethacin to suppressed mice also restored DTH to normal levels. By examining levels of prostaglandin E2 (PGE2) in supernates of cultured peritoneal exudate cells from immune or suppressed mice, it was shown that infected mice had peritoneal exudate cells which produced significantly more PGE2 than similar cells from immune mice. These data suggest that B. microti infection elicits synthesis of PGE2 by macrophage-like cells which results in suppression of DTH to parasite as well as heterologous antigens.     

Transient nature of Toxoplasma gondii-induced behavioral changes in mice

Many parasites induce specific changes in host behavior that promote the transmission of their infective stages between hosts. Toxoplasmosis in rodents is known to be accompanied by specific behavioral changes (shift in activity level, learning capacity, and novelty discrimination) that can theoretically increase the chance of infected animals being eaten by the definitive host, the cat. However, toxoplasmosis is also accompanied by many pathological symptoms. It is not known whether the behavioral changes are products of manipulation activity of the parasite or only nonspecific by-products of pathological symptoms of toxoplasmosis. Here, we compared the dynamics of development of behavioral and pathological changes in Toxoplasma gondii-infected mice. The results showed that the maximum reduction of mouse activity corresponded with the peak of pathological symptoms, and also that maximum increase of reaction times corresponded with the peak of development of tissue cysts in the brains of infected mice. Behavioral changes were only transient and disappeared before the 12th wk postinoculation. The results suggest that the behavioral changes in infected mice reported by many authors and observed in our experiments could be nonspecific by-products of pathological symptoms of toxoplasmosis rather than specific products of manipulation activity by the parasite.     

Toxoplasma gondii: cold stress-induced modulation of antibody responses.

Physical or psychological stressors have been shown to have significant consequences in the immune function and the outcome of disease in human and animal models. Recent work has demonstrated that products released during stress, such as glucocorticoids and catecholamines, can profoundly influence the in vitro growth of pathogens by modulating immune responses. The present study examined the effects of a physical stressor (cold stress) on antigens of Toxoplasma gondii that elicits an antibody-mediated immune response during the acute and chronic phases of infection. Sera obtained from different groups of mice subjected to cold stress during the acute and chronic phases of T. gondii infection were used to measure the levels of antibodies and to localize by Western blot the dominant antigens eliciting IgG and IgM antibody responses. Serum antibodies collected from stressed and infected mice recognized antigens different from those recognized by infected mice without stress. During the acute phase, a stronger IgM antibody response against antigens of 30, 42, 54, and 60 kDa was detected in stressed animals at 3 weeks postinfection. In addition, a 5-kDa antigen was specifically detected in mice subjected to stress during the acute and chronic phases of infection. Levels of specific IgG were increased in infected and in infected and stressed animals that underwent stress in the chronic phase. IgM production did not increase following cold stress in the chronic phase. These results suggest that the strong antibody response in stressed animals is associated with longer parasite persistence in circulation. Stress modulated not only the host immune response but also the ability of parasite antigens to elicit specific antibody responses by the host.     

Trichinella spiralis: macrophage activity and antibody response in chronic murine infection

The role of macrophages, their products, and the specific antibody response were examined during chronic Trichinella spiralis infection in BALB/c mice. Adult T. spiralis in intestines were detected from 5 to 20 dpi. Muscle larvae numbers peaked at 45 dpi and thereafter a reduction was noted. The highest numbers of macrophages in the peritoneal cavity of infected mice were obtained up to 30 dpi. The production of NO by macrophages in infected mice was suppressed at 5 dpi, and then NO release increased until 45 dpi. The levels of NO in plasma and urine were lower in infected mice during the entire experiment in comparison to control. The production of O(2)(-) in peritoneal macrophages was inhibited during the first two weeks after infection and then increased until 90 dpi. Circulating T. spiralis antigens in plasma and urine were detected from 5 to 30 dpi. Specific IgM and IgA in serum increased until 20 dpi. IgG, IgG(1), and IgG(2) levels in serum increased until 60 dpi.     

The involvement of neutrophils in the resistance to Leishmania major infection in susceptible but not in resistant mice

To understand the immunomodulatory roles of neutrophils in Leishmania major infection, we examined the expression of cytokine and chemokine mRNAs from neutrophils of the infected resistant C3H/HeJ and susceptible BALB/c mice. We also examined the effects of neutrophil depletion on the expression of cytokine by peritoneal macrophages and draining lymph node cells and on the footpad lesions and parasite burdens in these mice. Neutrophils from resistant C3H/HeJ but not from susceptible BALB/c mice expressed mRNAs for IL-12p40, IFN-gamma,TNF-alpha and monokine induced by IFN-gamma(MIG). Neutrophil depletion of the resistant mice reduced the expression of IFN-gammaandTNF-alpha in peritoneal macrophages but did not affect the expression of IL-12p40 and IFN-gamma in draining lymph node cells and the growth of footpad lesions. On the other hand, neutrophil depletion of susceptible BALB/c mice did not affect the expression of TNF-alpha and monocyte-derived chemokine (MDC) in peritoneal macrophages but induced the early stage expression of IL-4 in draining lymph node cells and exacerbated the footpad lesions and increased the parasite burden. The exacerbation of footpad lesions induced by neutrophil depletion was abolished by rIL-12 treatment. Our results suggest that even in susceptible BALB/c but not in C3H/HeJ mice there is a certain resistance requiring neutrophils at the early stage of infection.     

Rapid recruitment of neutrophils containing prestored IL-12 during microbial infection

Neutrophils are well known to rapidly migrate to foci of infection, where they exert microbicidal functions. We sought to determine whether neutrophils responding to in vivo infection with the protozoan pathogen Toxoplasma gondii were capable of IL-12 production as suggested by recent in vitro studies. Intraperitoneal infection induced a neutrophil influx by 4 h, accompanied by ex vivo IL-12 p40 and p70 release. Approximately 85% of the neutrophils displayed intracellular stores of IL-12, as determined by flow cytometry and confocal fluorescence microscopy. Neutrophils from IFN-gamma knockout mice also expressed IL-12, ruling out an IFN-gamma-priming requirement. Neither infected nor uninfected peritoneal macrophages displayed intracellular IL-12, but these cells were strongly IL-10(+). Infection per se was unnecessary for IL-12 production because peritoneal and peripheral blood neutrophils from uninfected animals contained IL-12(+) populations. Expression of the granulocyte maturation marker Gr-1 (Ly-6G) was correlated with IL-12 production. Mice depleted of their granulocytes by mAb administration at the time of infection had decreased serum levels of IL-12 p40. These results suggest a model in which neutrophils with prestored IL-12 are rapidly mobilized to an infection site where they are triggered by the parasite to release cytokine. Our findings place neutrophils prominently in the cascade of early events leading to IL-12-dependent immunity to T. gondii.     

Trypanosoma cruzi: predominance of IgG2a in nonspecific humoral response during experimental Chagas' disease.

The kinetic and isotypic pattern of hypergammaglobulinemia has been investigated in C3H/HeJ infected with Trypanosoma cruzi. Hypergammaglobulinemia appeared 14 days postinfection, increased until Day 28 postinfection, and persisted throughout the chronic phase (greater than 60 days of infection). The main isotype secreted was IgG2a, reaching 10-fold the control level. High titers of autoantibodies were found of IgM and IgG subclasses. Isotypic characterization of antibodies against myosin, myelin, and keratin, was performed and determined to be IgG2a subclass in the chronic stage of infection. Specific responses against T. cruzi took place 2 weeks postinfection when the parasitemia was high. Interestingly, parasite-specific response was maximal after 4 weeks of infection and plateaued during the chronic phase when parasites were rare. In contrast to the humoral polyclonal response in the chronic stage, showing a preferential IgG2a pattern, the anti-T. cruzi response consisted of all the different isotypes: IgM, IgG1, IgG3, IgG2a, and IgG2b, throughout the infection. Identical patterns of parasite antigens were recognized by IgG2a and IgG2b antibodies. Few different antigens were identified by the IgG3. Some antigens were recognized by several isotypes, others by only one isotype. With regard to the existence of antigenic cross-reactivities between host and parasite, we designed absorption experiments on parasite-specific immunoadsorbent showing that specific antibodies eluted from the column failed to recognize the natural antigens. These studies suggest that nonspecific and antiparasite-specific responses may be maintained by different regulatory pathways.     

Macrophage interactions with neutrophils regulate Leishmania major infection

Macrophages are host cells for the pathogenic parasite Leishmania major. Neutrophils die and are ingested by macrophages in the tissues. We investigated the role of macrophage interactions with inflammatory neutrophils in control of L. major infection. Coculture of dead exudate neutrophils exacerbated parasite growth in infected macrophages from susceptible BALB, but killed intracellular L. major in resistant B6 mice. Coinjection of dead neutrophils amplified L. major replication in vivo in BALB, but prevented parasite growth in B6 mice. Neutrophil depletion reduced parasite load in infected BALB, but exacerbated infection in B6 mice. Exacerbated growth of L. major required PGE(2) and TGF-beta production by macrophages, while parasite killing depended on neutrophil elastase and TNF-alpha production. These results indicate that macrophage interactions with dead neutrophils play a previously unrecognized role in host responses to L. major infection.     

Neutrophils activate macrophages for intracellular killing of Leishmania major through recruitment of TLR4 by neutrophil elastase

We investigated the role of neutrophil elastase (NE) in interactions between murine inflammatory neutrophils and macrophages infected with the parasite Leishmania major. A blocker peptide specific for NE prevented the neutrophils from inducing microbicidal activity in macrophages. Inflammatory neutrophils from mutant pallid mice were defective in the spontaneous release of NE, failed to induce microbicidal activity in wild-type macrophages, and failed to reduce parasite loads upon transfer in vivo. Conversely, purified NE activated macrophages and induced microbicidal activity dependent on secretion of TNF-alpha. Induction of macrophage microbicidal activity by either neutrophils or purified NE required TLR4 expression by macrophages. Injection of purified NE shortly after infection in vivo reduced the burden of L. major in draining lymph nodes of TLR4-sufficient, but not TLR4-deficient mice. These results indicate that NE plays a previously unrecognized protective role in host responses to L. major infection.     

Reduction in adhesiveness to extracellular matrix components, modulation of adhesion molecules and in vivo migration of murine macrophages infected with Toxoplasma gondii

Toxoplasma gondii is an obligate intracellular parasite, able to disseminate into deep tissues and cross biological barriers, reaching immunoprivileged sites such as the brain and retina. In order to investigate whether the parasite uses leukocyte trafficking to disseminate throughout the host, the adhesive potential to extracellular matrix components, the expression of adhesion molecules and the in vivo migration of murine macrophages infected with RH strain of T. gondii were investigated. Cellular adhesion to fibronectin, laminin and collagen IV decreased after 24 h of T. gondii infection. However, the decrease in adhesion of infected macrophages observed at early infection was reversed after 48 h. Moreover, decreased adhesion was dependent on active penetration, since heat-killed parasites were unable to reproduce it. Expression of integrins alphaL, alpha4 and alpha5 chains was downmodulated early postinfection, but a progressive regain of expression was observed after 12 h of infection. Expression of beta2, alphav and alpha4 integrins by peritoneal macrophages at late infection was also gradually reestablished. The assessment of in vivo migration of infected macrophages labeled with the fluorescent dye 5-chloromethylfluorescein diacetate showed a 48-h delay in migration to cervical lymph nodes when compared to LPS pre-stimulated macrophages. Furthermore, cells that migrate to distal lymph nodes were loaded with live parasites. Taken together, these results provide insights about T. gondii escape from the host immune response, placing the macrophage as a "Trojan horse", contributing to parasite dissemination and access to immunoprivileged sites.     

Echinococcus multilocularis: Cell-mediated immune response in early and chronic alveolar murine hydatidosis

The in vivo cell-mediated immune response of C57L/J mice infected with Echinococcus multilocularis cysts was investigated using a homologous antigen, a T cell-dependent heterologous antigen (oxazolone) and an alloantigen at 6 and 12 weeks postinfection. Mice infected for 12 and 14 weeks harbored a 9 to 18 times larger larval cyst mass than those infected for 6 weeks and showed splenomegaly and elevated antihydatid antibody titers. In mice infected for 6 weeks and challenged with hydatid antigen the 48-hr footpad swelling and histological picture of footpad were consistent with cell-mediated immunity. These parameters were significantly reduced in the mice infected for 12 weks. Their response to skin allograft and oxazolone, however, remained comparable to the mice 6 weeks postinfection and uninfected controls. The lymphoid tissues of the mice 6 weeks postinfection were histologically intact and showed moderate to intense lymphoproliferation. In the mice 14 weeks postinfection disorganization of lymphoid tissue, plasma-, and histiocytosis in the thymus-dependent areas coincided with a large larval cyst mass.     

Theiler's virus infection of primary cultures of bone marrow-derived monocytes/macrophages

Theiler's virus, a murine picornavirus, causes a persistent infection of macrophage/microglial cells in the central nervous systems of SJL/J mice. Viral replication is restricted in the majority of infected cells, whereas a minority of them contain large amounts of viral RNA and antigens. For the present work, we infected primary cultures of bone marrow monocytes/macrophages from SJL/J mice with Theiler's virus. During the first 10 h postinfection (p.i.), infected monocytes/macrophages were round and covered with filopodia and contained large amounts of viral antigens throughout their cytoplasm. Later on, they were large, flat, and devoid of filopodia and they contained only small amounts of viral antigens distributed in discrete inclusions. These two types of infected cells were very reminiscent of the two types of infected macrophages found in the spinal cords of SJL/J mice. At the peak of virus production, the viral yield per cell was approximately 200 times lower than that for BHK-21 cells. Cell death occurred in the culture during the first 24 h p.i. but not thereafter. No infected cells could be detected after 4 days p.i., and the infection never spread to 100% of the cells. This restriction was unchanged by treating the medium at pH 2 but was abolished by treating it with a neutralizing alpha/beta interferon antiserum, indicating a role for this cytokine in limiting virus expression in monocyte/macrophage cultures. The role of alpha/beta interferon was confirmed by the observation that monocytes/macrophages from IFNA/BR(-/-) mice were fully permissive.     

Vdelta1+ gammadelta T cells producing CC chemokines may bridge a gap between neutrophils and macrophages in innate immunity during Escherichia coli infection in mice

An influx of neutrophils followed a short time later by an influx of macrophages to the infected site plays a key role in innate immunity against Escherichia coli infection. We found in this study that Vdelta1-/- mice exhibited impaired accumulation of peritoneal macrophages but not neutrophils and delayed bacterial clearance after i.p. inoculation with E. coli. Peritoneal gammadelta T cells from E. coli-infected wild-type mice produced CCL3/MIP-1alpha and CCL5/RANTES in response to gammadelta TCR triggering in vitro, whereas such production was not evident in gammadelta T cells from E. coli-infected Vdelta1-/- mice. Neutralization of CCL3/MIP-1alpha by a specific mAb in vivo significantly inhibited the accumulation of macrophages in the peritoneal cavity after E. coli infection, resulting in exacerbated bacterial growth in the peritoneal cavity. These results suggest that Vdelta1+ gammadelta T cells bridge a gap between neutrophils and macrophages in innate immunity during E. coli infection mediated by production of CC chemokines, enhancing macrophage trafficking to the site of infection.     

Effects of Cyclophosphamide on Visceral Leishmaniasis in the Mouse*

SYNOPSIS Cyclophosphamide (Cy), 125 or 200 mg/kg body weight, injected intraperitoneally (i.p.) into BALB/c mice one day before infection with amastigotes of Leishmania donovani, by the 8th day postinfection caused a significant decrease in the mean numbers of parasites in spleens and livers when compared to mice injected with phosphate buffered saline (PBS). When 125 mg/kg was injected into chronically infected mice (on day 34 of infection), however, within 2 days (day 36) mean parasite levels in both the spleens and livers were statistically greater than in PBS-treated controls. Similarly, when a series of 6 Cy injections, 50 mg/kg each, was injected over a period of 8 days during the chronic stage of infection, the mean parasite levels in both spleens and livers were significantly increased over those of PBS-treated controls. Druing the chronic stage of infection, Cy injections suppressed the immunity to superinfection. Neither plasma nor parasitized peritoneal macrophages obtained from Cy-treated mice, when compared to PBS-treated mice, differed in their respective capacities to influence the growth of intracellular amastigote of L. donovani in vitro. Passive transfer of hyperimmune mouse serum could not reverse the immunosuppressive effects of Cy upon chronic leishmaniasis in the mouse. It is suggested that neither readily demonstrable anti-leishmanial humoral factors nor “immune” macrophages per se, plays a major role in acquired immunity to leishmaniasis in the mouse.     

Enhanced accumulation of inflammatory neutrophils and macrophages mediated by transfer of T cells from mice immunized with Listeria monocytogenes

We have previously shown that listeria-immunized mice recruit more inflammatory neutrophils and macrophages to the peritoneal cavity after i.p. injection of a sterile irritant than do nonimmune mice. Because the inflammatory phagocytes that were obtained from listeria-immune and nonimmune mice did not differ in their ability to kill Listeria monocytogenes in vitro, this suggested that the rapid recruitment of listericidal inflammatory neutrophils and macrophages may be critically important for resistance to listeriosis. In this study we demonstrate that the transfer of listeria-immune T cells, which enhances recipient resistance to listeriosis, also increases the ability of recipients to mobilize inflammatory neutrophils and macrophages to the peritoneal cavity after the i.p. injection of dead listeria. The transfer of enhanced inflammatory responsiveness was blocked by pretreatment of the transferred cells with anti-Thy-1.2 plus complement, and the magnitude of the inflammatory cell accumulation was dependent on the number of listeria-immune T cells that were injected. Inflammatory neutrophils and macrophages that were obtained from the mice after the transfer of listeria-immune or nonimmune T cells (plus dead listeria) did not differ in their ability to kill L. monocytogenes in vitro. These data suggest that the elicitation of an inflammatory response may be an important event in T cell-mediated resistance to listeriosis.     

Stage conversion of Toxoplasma gondii RH parasites in mice by treatment with atovaquone and pyrrolidine dithiocarbamate

The mouse-virulent RH strain of Toxoplasma gondii is generally considered to have lost its cyst-forming capacity, and conversion of RH tachyzoites into cysts in non-immune mice has previously been shown exclusively following early treatment with sulfadiazine (SDZ). We here describe the development of tissue cysts in mice infected with RH strain parasites and treated with atovaquone (ATO) combined with pyrrolidine dithiocarbamate (PDTC). Groups of Swiss-Webster mice infected intraperitoneally (i.p.) with 10(2) RH tachyzoites were treated with 5, 25 and 100 mg of ATO/kg per day alone or combined with PDTC at 250 mg/kg per day from day 1 postinfection (p.i.) for 14 days. A total of 19 mice survived the 6-week observation period. Of these, brain cysts were recovered in nine (47%), with burdens ranging from 50 to 3120 (mean +/- S.D. = 622 +/- 963). All cyst-harboring mice had high specific IgG antibody levels (1:10,240-1:40,960, corresponding to 500-2000 IU/ml), as did one mouse in which cysts were not demonstrated, which was therefore included in the group of mice with residual infection. Bioassay performed to test the infectivity of these cysts produced acute lethal toxoplasmosis following i.p. inoculation in all instances (100%), and importantly, following peroral inoculation in four (29%). The recovered tachyzoites were highly infectious. In addition, significantly elevated interferon gamma (IFN-gamma) in the treated mice which developed residual infection compared with any group of infection-free (treated or subinoculated) mice, indicates immunological control of the parasite in the latent form. In conclusion, early treatment of mice infected with T. gondii RH tachyzoites with ATO and PDTC induces conversion into tissue cysts, thus providing a new model for studying the mechanism(s) of T. gondii stage conversion.