Macrophages as effector cells of protective immunity in murine schistosomiasis: IV. Coincident induction of macrophage activation for extracellular killing of schistosomula and tumor cells

Peritoneal macrophages from Schistosoma mansoni-infected mice are activated both for nonspecific tumor cytotoxicity and for killing of skin-stage schistosomula in vitro. In the current study, mechanisms for induction of macrophage tumoricidal and schistosomulacidal activity have been compared. Examination of macrophages activated in vivo by BCG infection or C. parvum treatment, or in vitro by exposure to lymphokine prepared from antigen-stimulated BCG-immune spleen cells, showed that these effector functions were closely linked. Indeed, fractionation of lymphokine-rich supernatant fluids by Sephadex G-100 gel filtraction showed that activities responsible for induction of schistomula killing by inflammatory macrophages and for induction of tumoricidal activity cochromatographed as a single peak in the 50,000 MW region. Thus, development of macrophage-mediated cytotoxicity against these two extracellular (tumor cell or helminth) targets was coincident in several cell populations activated in vivo or in vitro. However, activation for tumoricidal and schistosomulacidal capacity appeared to be quantitatively dissociated in macrophages from mice with chronic schistosomiasis; those cells demonstrated low, yet significant, levels of larval killing ($\text{1}\text{3}$ to $\text{1}\text{5}$ those of BCG or lymphokine-activated cells) but maximal levels of tumor cell cytotoxicity. Furthermore, cytotoxicity by peritoneal cells from S. mansoni-infected mice was not increased in vitro by exposure to lymphokine. Identification of this functional alteration in S. mansoni-activated cells may help to clarify the role of macrophages in the partial immunity against challenge infection which is demonstrated by mice with chronic primary S. mansoni infection.     

In vitro inhibition of the helper activity of GAT-specific T-cell lines by a syngeneic anti-idiotypic serum: preferential effect on the IgG response

We described in this paper the characteristics of a syngeneic anti-idiotypic serum made in BALB/c against BALB/c anti-poly (Glu⁶⁰ Ala³⁰ Tyr¹⁰) (GAT) antibodies. This serum recognizes idiotypic determinants present in all anti-GAT sera whatever the allotypic markers of the mice used to prepare the sera. The functional effect of this serum on two helper cell lines is also described. Cell line BDF₁/52 was obtained from GAT immunized lymph node cells (LNC). Cell line BDF₁/E₃ was selected from splenic T-cells educated in vitro on GAT-pulsed adherent cells. Both lines were propagated in presence of filler cells, antigen, and medium containing T-cell growth factor(s) from splenic cells activated with concanavalin A. Both cell lines exhibit a helper activity as measured by the plaque-forming cell (PFC) response they induce in vitro in the presence of DNP-GAT and DNP sensitized B cells. Their helper activity is specific and they require a hapten-carrier bridge to activate B cells. These lines are able to induce IgG₁, IgG_2a and IgG_2b anti-TNP PFC. Syngeneic anti-idiotypic serum B 658 inhibits specifically the function of these two lines but does not affect the helper activity of an OVA-specific T-cell line. The blocking activity of the serum can be adsorbed on a hybridoma protein with anti-GAT activity. This inhibition affects more dramatically the IgG₁ response than the IgG_2a and IgG_2b responses.     

Large-Scale In Vitro Expansion of Polyclonal Human Switched-Memory B Lymphocytes

Polyclonal preparations of therapeutic immunoglobulins, namely intravenous immunoglobulins (IVIg), are essential in the treatment of immunodeficiency and are increasingly used for the treatment of autoimmune and inflammatory diseases. Currently, patients’ accessibility to IVIg depends exclusively upon volunteer blood donations followed by the fractionation of pooled human plasma obtained from thousands of individuals. Presently, there are no in vitro cell culture procedures allowing the preparation of polyclonal human antibodies. All in vitro human therapeutic antibodies that are currently generated are based on monoclonal antibodies, which are mostly issued from genetic engineering or single cell antibody technologies. Here, we describe an in vitro cell culture system, using CD40-CD154 interactions, that leads to a 1×10⁶-fold expansion of switched memory B lymphocytes in approximately 50 days. These expanded cells secrete polyclonal IgG, which distribution into IgG₁, IgG₂, IgG₃ and IgG₄ is similar to that of normal human serum. Such in vitro generated IgG showed relatively low self-reactivity since they interacted moderately with only 24 human antigens among a total of 9484 targets. Furthermore, up to one liter of IgG secreting cells can be produced in about 40 days. This experimental model, providing large-scale expansion of human B lymphocytes, represents a critical step toward the in vitro production of polyclonal human IgG and a new method for the ex vivo expansion of B cells for therapeutic purposes.     

Upregulation of Retinal Dehydrogenase 2 in Alternatively Activated Macrophages during Retinoid-dependent Type-2 Immunity to Helminth Infection in Mice

Although the vitamin A metabolite retinoic acid (RA) plays a critical role in immune function, RA synthesis during infection is poorly understood. Here, we show that retinal dehydrogenases (Raldh), required for the synthesis of RA, are induced during a retinoid-dependent type-2 immune response elicited by Schistosoma mansoni infection, but not during a retinoid-independent anti-viral immune response. Vitamin A deficient mice have a selective defect in T_H2 responses to S. mansoni, but retained normal LCMV specific T_H1 responses. A combination of in situ imaging, intra-vital imaging, and sort purification revealed that alternatively activated macrophages (AAMφ) express high levels of Raldh2 during S. mansoni infection. IL-4 induces Raldh2 expression in bone marrow-derived macrophages in vitro and peritoneal macrophages in vivo. Finally, in vivo derived AAMφ have an enhanced capacity to induce Foxp3 expression in CD4+ cells through an RA dependent mechanism, especially in combination with TGF-β. The regulation of Raldh enzymes during infection is pathogen specific and reflects differential requirements for RA during effector responses. Specifically, AAMφ are an inducible source of RA synthesis during helminth infections and T_H2 responses that may be important in regulating immune responses.     

Purinergic P2Y12 Receptor Activation in Eosinophils and the Schistosomal Host Response

Identifying new target molecules through which eosinophils secrete their stored proteins may reveal new therapeutic approaches for the control of eosinophilic disorders such as host immune responses to parasites. We have recently reported the expression of the purinergic P2Y12 receptor (P2Y12R) in human eosinophils; however, its functional role in this cell type and its involvement in eosinophilic inflammation remain unknown. Here, we investigated functional roles of P2Y12R in isolated human eosinophils and in a murine model of eosinophilic inflammation induced by Schistosoma mansoni (S. mansoni) infection. We found that adenosine 5’-diphosphate (ADP) induced human eosinophils to secrete eosinophil peroxidase (EPO) in a P2Y12R dependent manner. However, ADP did not interfere with human eosinophil apoptosis or chemotaxis in vitro. In vivo, C57Bl/6 mice were infected with cercariae of the Belo Horizonte strain of S. mansoni. Analyses performed 55 days post infection revealed that P2Y12R blockade reduced the granulomatous hepatic area and the eosinophilic infiltrate, collagen deposition and IL-13/IL-4 production in the liver without affecting the parasite oviposition. As found for humans, murine eosinophils also express the P2Y12R. P2Y12R inhibition increased blood eosinophilia, whereas it decreased the bone marrow eosinophil count. Our results suggest that P2Y12R has an important role in eosinophil EPO secretion and in establishing the inflammatory response in the course of a S. mansoni infection.     

Schistosoma mansoni: identification of immunoglobulins associated with the tegument of adult parasites from mice.

Immunocytochemical and immunodiffusion studies were conducted in an attempt to identify the immunoglobulins associated with the tegumental surfaces of Schistosoma mansoni. Peroxidase-labeled monospecific rabbit anti-mouse immunoglobulin class or subclass sera revealed the presence of mouse IgG₁, IgG₂, IgG₃, IgA, and IgM on the surface of adult parasites recovered from mice. These observations were confirmed by double gel diffusion of the various rabbit antisera against an eluate obtained from mouse worms.     

Peptides from Paracoccidioides brasiliensis GP43 inhibit macrophage functions and inflammatory response

Paracoccidioidomycosis (PCM) is a systemic granulomatous disease caused by Paracoccidioides brasiliensis (Pb), a thermal dimorphic fungus. Its major antigen is a 43-kDa glycoprotein. Gp43 embodies different functions: it participates in evasion mechanisms during the installation of primary infection, stimulates granuloma-like formation in vitro and presents T-cell epitopes that induce protective response against the fungus. Here, we investigated epitopes from gp43 inhibitory of both, macrophage functions and inflammatory reaction. Different gp43 peptides, spanning the entire sequence of the molecule, were added to cultures of bone marrow-derived macrophages. After challenge with zymosan or Pb cells, phagocytic indexes were measured. Peptides expressed on the molecule surface were determined by graphic analysis using the Protean module; DNAstar Inc. Two peptides which decreased phagocytic index and were expressed at the surface of the molecule, P4 and P23, were selected for further studies. It was shown that both inhibited the release of NO by zymosan stimulated macrophages while enhanced release of H₂O₂. The release of TNF-α in culture supernatants from in vitro phagocytic tests showed different response depending of P4 concentration (data not shown). In vivo assays with Mycobacterium bovis – bacillus Calmette–Guérin (BCG) or Pb cells demonstrated that these peptides presented non-specific and specific anti-inflammatory properties.     

Macrophage Cholesterol Depletion and Its Effect on the Phagocytosis of Cryptococcus neoformans

Cryptococcosis is a life-threatening infection caused by pathogenic fungi of the genus Cryptococcus. Infection occurs upon inhalation of spores, which are able to replicate in the deep lung. Phagocytosis of Cryptococcus by macrophages is one of the ways that the disease is able to spread into the central nervous system to cause lethal meningoencephalitis. Therefore, study of the association between Cryptococcus and macrophages is important to understanding the progression of the infection. The present study describes a step-by-step protocol to study macrophage infectivity by C. neoformansin vitro. Using this protocol, the role of host sterols on host-pathogen interactions is studied. Different concentrations of methyl--cyclodextrin (MCD) were used to deplete cholesterol from murine reticulum sarcoma macrophage-like cell line J774A.1. Cholesterol depletion was confirmed and quantified using both a commercially available cholesterol quantification kit and thin layer chromatography. Cholesterol depleted cells were activated using Lipopolysacharide (LPS) and Interferon gamma (IFNγ) and infected with antibody-opsonized Cryptococcus neoformans wild-type H99 cells at an effector-to-target ratio of 1:1. Infected cells were monitored after 2 hr of incubation with C. neoformans and their phagocytic index was calculated. Cholesterol depletion resulted in a significant reduction in the phagocytic index. The presented protocols offer a convenient method to mimic the initiation of the infection process in a laboratory environment and study the role of host lipid composition on infectivity.     

Eosinophil-mediated destruction of Schistosoma mansoni eggs III. lymphokine involvement in the induction of eosinophil functional abilities

Granulomas isolated from the livers of CBA/J mice infected for 8 weeks with Schistosoma mansoni produced a chemotactic activity for eosinophils, in a manner which correlated with the production of the lymphokine eosinophil stimulation promoter (ESP). ESP and chemotactic activities were also produced when eosinophilrich peritoneal exudative cells from S. mansoni-infected mice were cultured with S. mansoni eggs. These S. mansoni-related eosinophils destroyed approximately 20% of the eggs whereas eosinophils from normal (uninfected) mice did not have this ability. However, normal cells exposed to ESP-containing fluids in the co-cultivation system actively participated in egg destruction. Eosinophil-rich peritoneal exudative cells obtained from Trichinella spiralis-infected mice were incapable of destroying S. mansoni eggs during the normal 24 hr co-cultivation period, but did achieve destruction if the incubation period was extended to 48 hr. Marginal levels of chemotactic activity for eosinophils were detected in the co-cultivation fluids from T. spiralis-related cells and S. mansoni eggs, although these fluids did not contain demonstrable levels of ESP. Together, these data indicate that ESP/chemotactic factor-containing culture fluids can induce in normal, unreactive eosinophils the functional ability to destroy S. mansoni eggs in vitro. This may account for the ability of T. spiralis-related eosinophils to do so upon extended incubation.     

Immunoregulation in experimental schistosomiasis: III. Role of macrophages in soluble egg antigen-induced chronic spleen cell augmentation of baseline lymphocyte reactivity

Spleen cells from mice infected for 20 weeks with Schistosoma mansoni, exposed in vitro to soluble schistosomal egg antigens (SEA), treated with mitomycin C (Mc), and cocultured with syngeneic responder spleen cells increased the baseline proliferation of the otherwise unstimulated responder cells in cocultures. The role of macrophages in this “spontaneous” thymidine incorporation was studied directly by removal of macrophages on Sephadex G-10 columns. Removal of esterase-positive, Sephadex G-10-adherent cells (macrophages) greatly reduced the amount of SEA-induced, chronically infected spleen cell-mediated stimulation observed in cocultures. It also reduced an elevated background of spontaneous DNA synthesis seen with control cultures of spleen cells from infected animals. Depletion of T lymphocytes from chronic spleen cell populations by treatment with anti-Thy 1.2 serum and complement prior to exposure to SEA partially abrogated the augmentation effect. Comparison of these results with mitogen (concanavalin A)induced spleen cell-mediated stimulation (which is elevated, rather than reduced, by macrophage removal) and with known alterations in splenic T- and B-lymphocyte ratios in chronic murine Schistosomiasis suggests that antigen-stimulated, chronically infected splenic macrophage-de-pendent baseline augmentation may depend on specific T-lymphocyte-derived lymphokine induction. These results may reflect a general mechanism whereby animals harboring a persistent, chronic infection can respond quickly to a second or challenge infection or a flareup of the primary infection.     

The induction of host cell autophagy triggers defense mechanisms against Trypanosoma cruzi infection in vitro

Trypanosoma cruzi causes Chagas disease, a neglected illness that affects millions of people worldwide, especially in Latin America. The balance between biochemical pathways triggered by the parasite and host cells response will ultimately define the progression of a life-threatening disease, justifying the efforts to understand cellular mechanisms for infection restrain. In this interaction, parasite and host cells are affected by different physiological responses as autophagy modulation, which could be under intense cellular stress, such as nutrient deprivation, hormone depletion, or infection. Autophagy is a constitutive pathway that leads to degradation of macromolecules and cellular structures and may induce cell death. In Trypanosoma cruzi infection, the relevance of host autophagy is controversial regarding in vitro parasite intracellular life cycle. In the present study, we evaluated host cell autophagy during T. cruzi infection in phagocytic and non-professional phagocytic cells. We described that the presence of the parasite increased the number of LC3 puncta, a marker for autophagy, in cardiac cells and peritoneal macrophages in vitro. The induction of host autophagy decreased infection in macrophages in early and late time-periods. We suggest that starved phagocytic cells reduced internalization, also confirmed by inert particles and dead trypomastigotes. Whereas, in cardiac cells, starvation-induced autophagy decreased lipid droplets and infection in later time-point, by reducing parasite differentiation/proliferation. In ATG5 knockout MEF cells, we confirmed our hypothesis of autophagy machinery activation during parasite internalization, increasing infection. Our data suggest that host autophagy downregulates T. cruzi infection through impairing parasite intracellular life cycle, reducing the infection in primary culture cells.     

Ly6Chi Monocyte Recruitment Is Responsible for Th2 Associated Host-Protective Macrophage Accumulation in Liver Inflammation due to Schistosomiasis

Accumulation of M2 macrophages in the liver, within the context of a strong Th2 response, is a hallmark of infection with the parasitic helminth, Schistosoma mansoni, but the origin of these cells is unclear. To explore this, we examined the relatedness of macrophages to monocytes in this setting. Our data show that both monocyte-derived and resident macrophages are engaged in the response to infection. Infection caused CCR2-dependent increases in numbers of Ly6C^hi monocytes in blood and liver and of CX₃CR1⁺ macrophages in diseased liver. Ly6C^hi monocytes recovered from liver had the potential to differentiate into macrophages when cultured with M-CSF. Using pulse chase BrdU labeling, we found that most hepatic macrophages in infected mice arose from monocytes. Consistent with this, deletion of monocytes led to the loss of a subpopulation of hepatic CD11c^hi macrophages that was present in infected but not naïve mice. This was accompanied by a reduction in the size of egg-associated granulomas and significantly exacerbated disease. In addition to the involvement of monocytes and monocyte-derived macrophages in hepatic inflammation due to infection, we observed increased incorporation of BrdU and expression of Ki67 and MHC II in resident macrophages, indicating that these cells are participating in the response. Expression of both M2 and M1 marker genes was increased in liver from infected vs. naive mice. The M2 fingerprint in the liver was not accounted for by a single cell type, but rather reflected expression of M2 genes by various cells including macrophages, neutrophils, eosinophils and monocytes. Our data point to monocyte recruitment as the dominant process for increasing macrophage cell numbers in the liver during schistosomiasis.     

Osteopontin-dependent regulation of Th1 and Th17 cytokine responses in Trypanosoma cruzi-infected C57BL/6 mice

Osteopontin (OPN) is a multifunctional protein participating in the regulation of different Th cell lineages and critically involved in the initiation of immune responses to diverse pathogens. Our study goal was to verify whether OPN helps modulate the protective Th1 and Th17 cytokine responses in C57BL/6 mice infected with Trypanosoma cruzi, the etiological agent of Chagas disease. Parasite infection induced OPN release from murine macrophages in vitro and acute Chagas mice displayed enhanced serum levels of this cytokine at the peak of parasitemia. Upon administration of a neutralizing anti-OPN antibody, recently infected mice presented lower Th1 and Th17 responses, increased parasitemia and succumbed earlier and at higher rates to infection than non-immune IgG-receiving controls. The anti-OPN therapy also resulted in reduced circulating levels of IL-12 p70, IFN-γ, IL-17A and specific IgG_2a antibodies. Furthermore, antibody-mediated blockade of OPN activity abrogated the ex vivo production of IL-12 p70, IFN-γ and IL-17A, while promoting IL-10 secretion, by spleen macrophages and CD4⁺ T cells from T. cruzi-infected mice. Th1 and Th17 cytokine release induced by OPN preferentially involved the α_vβ₃ integrin OPN receptor, whereas concomitant down-modulation of IL-10 production would mostly depend on OPN interaction with CD44. Our findings suggest that, in resistant C57BL/6 mice, elicitation of protective Th1 and Th17 cytokine responses to T. cruzi infection is likely to be regulated by endogenous OPN.     

Antibody-induced suppression and postsuppression stimulation of complement in vitro: I. Effects of anti-C4 on cultured guinea pig peritoneal cells

Suppression of the fourth component of complement in vitro was examined by exposing cultured guinea pig peritoneal cells to anti-C4 alloantisera or to control sera. We found that in contrast to similar experiments in vivo, C4 production could be suppressed by specific anti-C4 antisera over a wide range of doses with complete regularity. The suppression was not permanent, however, and postsuppression stimulation of C4 was frequently seen after recovery from suppression. Production of C2 and β-glucuronidase were also measured in these experiments. C2 was not suppressed by the anti-C4 treatment but stimulation of C2 was seen in those instances where C4 production was stimulated. β-Glucuronidase was neither suppressed nor stimulated. Purified IgG₁ IgG₂ and (Fab′)₂ fragments were as effective in causing suppression and postsuppression stimulation as whole antibody preparations. This suggests that complement activation, Fc receptors, and complement receptors do not play a significant role in these in vitro phenomena.     

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.     

Anti-inflammatory effects of IL-17A on Helicobacter pylori-induced gastritis

Helicobacter pylori-induced immune responses are skewed toward a T helper (Th) 1 phenotype. IL-17-producing Th17 cells have recently been discovered, and we examined the role of IL-17A in H. pylori-induced gastritis. Six months after inoculation with H. pylori, the mice received an intraperitoneal injection of recombinant IL-17A, anti-IL-17A antibody or irrelevant IgG_2a for 3 days. H. pylori infection markedly increased mRNA for IL-17A. Double immunofluorescence studies showed that IL-17A proteins were expressed on CD4⁺ T cells, macrophages, and dendritic cells. H. pylori infection elevated mRNAs for IL-12, IFN-γ, and TNF-α with increase in myeloperoxidase activity, whereas it did not affect mRNAs for IL-4 and IL-5. Neutralization of IL-17A elevated mRNAs for IFN-γ and TNF-α, and myeloperoxidase activity, whereas recombinant IL-17A had a tendency to reduce these parameters. In conclusion, IL-17A exerts anti-inflammatory effects on H. pylori-induced gastritis through suppression of Th1 differentiation.     

Stimulation and inhibition of neoplastic cell growth by tumor promoter-treated macrophages

Macrophages treated with 12-O-tetradecanoylphorbol-13-acetate (TPA), a potent inflammatory and tumor-promoting agent, can have the diametrically opposed functions of contact-mediated tumor cytotoxicity and release of soluble clonal proliferation factor(s) for tumor cells. In vitro TPA treatment of macrophages at 1.0 ng/ml induced prostaglandin E₂ release and morphological changes analogous to cell activation. In addition, conditioned medium from macrophages pulsed with TPA enhanced M109 carcinoma colony formation in vitro. Although macrophages were not rendered tumoricidal by TPA in vitro, cytotoxic macrophages were recovered from mice following ip treatment with TPA at 1–100 μg/kg. This indicated an indirect pathway for the activation of macrophages by TPA. The very weak tumor promoting 4-O-methyl-12-O-tetradecanoylphorbol-13-acetate lacked effects on macrophages at all doses tested. The possibility that macrophage secretions (e.g., prostaglandin E₂, angiogenesis-stimulating factor(s), and clonal proliferation factor(s) for carcinogen-triggered cells) may be involved in the tumor promotion process is discussed.     

Macrophage heterogeneity and Ir-gene control as factors involved in the immune response of guinea pigs to infection with Leishmania enrietti

Macrophages from strains 2/N, 13/N, and (2 × 13)F₁, guinea pigs have been fractionated by velocity sedimentation and the various subpopulations used as target cells for infection by Leishmania enrietti. The data presented show: (i) that the ability of infected macrophages to support the subsequent growth and replication of the parasite varies according to the cell subpopulation examined, (ii) that different subpopulations differ in their capacity to promote lymphocyte proliferation from lymph node cells of a guinea pig which have recovered from a primary lesion, (iii) that lymphocyte proliferation depends upon presentation of leishmanial antigens in the context of products of the original I-region-coded genes present during the initial (in vivo) infection and, (iv) that in immune animals, changes occur in terms of the ability of the macrophages to promote lymphocyte proliferation, but not apparently in terms of their ability to support parasite growth in vitro.     

Eosinophi-mediated destruction of Schistosoma mansoni eggs in vitro. II. The role of cytophilic antibody

Peritoneal exudative eosinophils obtained from Schistosoma mansoni-infected CBA/J mice cause morphological damage to isolated S. mansoni eggs in a 24 hr co-cultivation system in vitro. This egg-destructive activity was complement-independent and was abolished by trypsinization of the cells prior to co-cultivation. Trypsinized cells could be passively sensitized to renewed egg-destructive capacity by preincubation or co-gcultivation with immune sera, containing antibodies against a soluble egg antigenic preparation (SEA). Solid phase absorption of immune sera with SEA coupled to Sepharose 4B lowered the anti-egg antibody titers of these sera and eliminated their ability to sensitize trypsinized eosinophils. Sera from uninfected mice or from mice infected with Trichinella spiralis did not sensitize trypsinized cells. Addition of immune sera to eosinophil-rich cell populations obtained from uninfected mice also enhanced the egg-destructive capacity of these otherwise non-reactive cells. Therefore, eosinophil-mediated destruction of S. mansoni eggs may be directed by cytophilic antigen-specific factors in sera from S. mansoni infected hosts.     

In vivo studies of the early, peritoneal, cellular and free radical response in rats infected with Fasciola hepatica by flow cytometric analysis

Early recruitment of the peritoneal cell population was observed during migration of newly excysted juvenile flukes. The peritoneal lavages were examined for T cells, cytotoxic NK cells (CNK) and free radicals production of rats at an early stage of infection by Fasciola hepatica. Male Sprague–Dawley rats were infected with 50 metacercariae of F. hepatica and non-infected controls were euthanized 2, 4 and 7 days post infection (d.p.i.), respectively. The peritoneal fluid of experimental animals was analyzed by flow cytometry to estimate cell phenotypes. The peritoneal areas were infiltrated by inflammatory cells, particularly from numerous neutrophils, eosinophils and CD4+ lymphocytes, which were significantly higher for infected rats than non-infected. CNK cells dominated in the peritoneal fluid of infected rats as early as 2 d.p.i. However, after 4 d.p.i. there was a decreased level of CNK cells which may indicate a change from a cytotoxic natural killer (NK) to a regulatory NK response. The challenged group generated very high in vivo levels of inducible nitric oxide (NO) from eosinophils. Superoxide expression was very high in macrophages and neutrophils compared to the uninfected control. In conclusion, our studies suggest that early F. hepatica infection could directly affect lymphoid cells and generate a high in vivo NO production by eosinophils in the peritoneal cavity. Moreover juvenile flukes could stimulate the macrophages and neutrophils to generate H₂O₂ radicals. The host parasite interactions resulting from immune response regulation by effector cells and immune evasion are discussed.