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.     

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.     

Interactions between eosinophils and antibodies: In vivo protective role against rat schistosomiasis

An original protocol of cell transfer from Schistosoma mansoni-infected rats to normal recipient rats is used to investigate the protective role of phagocytic cell populations, described as effector cells in vitro, against a challenge infection with S. mansoni. Nonadherent, eosinophil-enriched and -adherent, macrophage-rich cell preparations, injected via intradermal and subcutaneous routes at the precise site of exposure to cercariae, were able to significantly protect the recipient rats. The time-course study of this protective effect according to the time after infection of donor rats revealed that eosinophils were the major cell population involved in the early phase of infection (4 to 5 weeks), whereas macrophages could also be incriminated thereafter. A rosette assay using anti-immunoglobulin-coated erythrocytes indicated a sequence of the various antibody isotypes under study (IgG₁, IgG_2a, IgE) on the eosinophil surface, during the course of infection. As previously shown in vitro, cytophilic antibodies seemed to participate in the protective effect of eosinophils, since eosinophil-enriched cells from normal rats, sensitized in vitro with immune complexes present in infected rat serum, could also confer significant protection. These observations establish therefore the relevance between our previous in vitro studies and rat resistance to a challenge infection with S. mansoni, underlining the major role played by the interaction between antibodies and phagocytic cells (eosinophils and macrophages).     

Schistosoma mansoni: Phenol oxidase's role in eggshell formation

Phenol oxidase may be involved in the formation of the eggshell in Schistosoma mansoni. ³H-Labeled female S. mansoni proteins were polymerized in vitro following incubation with S. mansoni phenol oxidase and excess l-tyrosine. Peroxidase inhibitors, autoxidation inhibitors, inhibitors of lipid peroxidation, and inactive analogs of phenol oxidase inhibitors did not inhibit eggshell formation. Fluorescent substances found in eggshell hydrolysates were similar to those formed from the reaction of phenol oxidase-generated quinones with protein-bound lysine. These observations support the classical concept of phenol oxidase-catalyzed protein hardening. However, fluorescent globules of egg material were still formed after the administration of 200 mg/kg of the phenol oxidase inhibitor diethyldithiocarbamate. These globules could not be destroyed by inhibitors of autoxidation and lipid peroxidation.     

Schistosoma japonicum soluble egg antigens induce apoptosis and inhibit activation of hepatic stellate cells: a possible molecular mechanism

Hepatic stellate cells play a key role in the development of hepatic fibrosis. Activated hepatic stellate cells can be reversed to a quiescent-like state or apoptosis can be induced to reverse fibrosis. Some studies have recently shown that Schistosoma mansoni eggs could suppress the activation of hepatic stellate cells and that soluble egg antigens from schistosome eggs could promote immunocyte apoptosis. Hence, in this study, we attempt to assess the direct effects of Schistosoma japonicum soluble egg antigens on hepatic stellate cell apoptosis, and to explore the mechanism by which the apoptosis of activated hepatic stellate cells can be induced by soluble egg antigens, as well as the mechanism by which hepatic stellate cell activation is inhibited by soluble egg antigens. Here, it was shown that S. japonicum-infected mouse livers had increased apoptosis phenomena and a variability of peroxisome proliferator-activated receptor γ expression. Soluble egg antigens induce morphological changes in the hepatic stellate cell LX-2 cell line, inhibit cell proliferation and induce cell-cycle arrest at the G₁ phase. Soluble egg antigens also induce apoptosis in hepatic stellate cells through the TNF-related apoptosis-inducing ligand/death receptor 5 and caspase-dependent pathways. Additionally, soluble egg antigens could inhibit the activation of hepatic stellate cells through peroxisome proliferator-activated receptor γ and the transforming growth factor β signalling pathways. Therefore, our study provides new insights into the anti-fibrotic effects of S. japonicum soluble egg antigens on hepatic stellate cell apoptosis and the underlying mechanism by which the liver fibrosis could be attenuated by soluble egg antigens.     

Schistosoma mansoni does not and cannot oxidise fatty acids,but these are used for biosynthetic purposes instead

Adult schistosomes, parasitic flatworms that cause the tropical disease schistosomiasis, have always been considered to be homolactic fermenters and, in their energy metabolism, strictly dependent on carbohydrates. However, more recent studies suggested that fatty acid β-oxidation is essential for egg production by adult female Schistosoma mansoni. To address this conundrum, we performed a comprehensive study on the lipid metabolism of S. mansoni. Incubations with [¹⁴C]-labelled fatty acids demonstrated that adults, eggs and miracidia of S. mansoni did not oxidise fatty acids, as no ¹⁴CO₂ production could be detected. We then re-examined the S. mansoni genome using the genes known to be involved in fatty acid oxidation in six eukaryotic model reference species. This showed that the earlier automatically annotated genes for fatty acid oxidation were in fact incorrectly annotated. In a further analysis we could not detect any genes encoding β-oxidation enzymes, which demonstrates that S. mansoni cannot use this pathway in any of its lifecycle stages. The same was true for Schistosoma japonicum and all other schistosome species that have been sequenced. Absence of β-oxidation, however, does not imply that fatty acids from the host are not metabolised by schistosomes. Adult schistosomes can use and modify fatty acids from their host for biosynthetic purposes and incorporate those in phospholipids and neutral lipids. Female worms deposit large amounts of these lipids in the eggs they produce, which explains why interference with the lipid metabolism in females will disturb egg formation, even though fatty acid β-oxidation does not occur in schistosomes. Our analyses of S. mansoni further revealed that during the development and maturation of the miracidium inside the egg, changes in lipid composition occur which indicate that fatty acids deposited in the egg by the female worm are used for phospholipid biosynthesis required for membrane formation in the developing miracidium.     

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.     

Cardamonin,a schistosomicidal chalcone from Piper aduncum L. (Piperaceae) that inhibits Schistosoma mansoni ATP diphosphohydrolase

Background: Schistosomiasis is one of the world's major public health problems, and praziquantel (PZQ) is the only available drug to treat this neglected disease with an urgent demand for new drugs. Recent studies indicated that extracts from Piper aduncum L. (Piperaceae) are active against adult worms of Schistosoma mansoni, the major etiological agent of human schistosomiasis.Purpose: We investigated the in vitro schistosomicidal activity of cardamonin, a chalcone isolated from the crude extract of P. aduncum. Also, this present work describes, for the first time, the S. mansoni ATP diphosphohydrolase inhibitory activity of cardamonin, as well as, its molecular docking with S. mansoni ATPDase1, in order to investigate its mode of inhibition.Methods: In vitro schistosomicidal assays and confocal laser scanning microscopy were used to evaluate the effects of cardamonin on adult schistosomes. Cell viability was measured by MTT assay, and the S. mansoni ATPase activity was determined spectrophotometrically. Identification of the cardamonin binding site and its interactions on S. mansoni ATPDase1 were made by molecular docking experiments.Results: A bioguided fractionation of the crude extract of P. aduncum was carried out, leading to identification of cardamonin as the active compound, along with pinocembrin and uvangoletin. Cardamonin (25, 50, and 100 µM) caused 100% mortality, tegumental alterations, and reduction of oviposition and motor activity of all adult worms of S. mansoni, without affecting mammalian cells. Confocal laser scanning microscopy showed tegumental morphological alterations and changes on the numbers of tubercles of S. mansoni worms in a dose-dependent manner. Cardamonin also inhibited S. mansoni ATP diphosphohydrolase (IC₅₀ of 23.54 µM). Molecular docking studies revealed that cardamonin interacts with the Nucleotide-Binding of SmATPDase 1. The nature of SmATPDase 1–cardamonin interactions is mainly hydrophobic and hydrogen bonding.Conclusion: This report provides evidence for the in vitro schistosomicidal activity of cardamonin and demonstrated, for the first time, that this chalcone is highly effective in inhibiting S. mansoni ATP diphosphohydrolase, opening the route to further studies of chalcones as prototypes for new S. mansoni ATP diphosphohydrolase inhibitors.     

Unique T Cells with Unconventional Cytokine Profiles Induced in the Livers of Mice during Schistosoma mansoni Infection

During infection with Schistosoma, serious hepatic disorders are induced in the host. The liver possesses unique immune systems composed of specialized cells that differ from those of other immune competent organs or tissues. Host immune responses change dramatically during Schistosoma mansoni infection; in the early phase, Th1-related responses are induced, whereas during the late phase Th2 reactions dominate. Here, we describe unique T cell populations induced in the liver of mice during the period between Th1- and Th2-phases, which we term the transition phase. During this phase, varieties of immune cells including T lymphocytes increase in the liver. Subsets of CD4⁺ T cells exhibit unique cytokine production profiles, simultaneously producing both IFN-γ and IL-13 or both IFN-γ and IL-4. Furthermore, cells triply positive for IFN-γ, IL-13 and IL-4 also expand in the S. mansoni-infected liver. The induction of these unique cell populations does not occur in the spleen, indicating it is a phenomenon specific to the liver. In single hepatic CD4⁺ T cells showing the unique cytokine profiles, both T-bet and GATA-3 are expressed. Thus, our studies show that S. mansoni infection triggers the induction of hepatic T cell subsets with unique cytokine profiles.     

A novel acetyl-CoA carboxylase inhibitor reduces de novo fatty acid synthesis in HepG2 cells and rat primary hepatocytes

To identify the novel inhibitor of de novo lipogenesis in hepatocytes, we screened for inhibitory activity of triglyceride (TG) synthesis using [¹⁴C]acetate in the human hepatoma cell line, HepG2. Using this assay system we discovered the novel compound, benzofuranyl α-pyrone (TEI-B00422). TEI-B00422 also inhibited the incorporation of acetate into the triglyceride (TG) fraction in rat primary hepatocytes. In HepG2 cells, the incorporation of oleate into TG was unaffected. TEI-B00422 inhibited rat hepatic acetyl-CoA carboxylase (ACC), K_i = 3.3 μM, in a competitive manner with respect to acety-CoA but not fatty acid synthase and acyl-CoA transferase/diacylglycerol. Thus, these results suggest that the inhibition of TG synthesis by TEI-B00422 is based on the inhibitory action of ACC. The structure of TEI-B00422 is totally different from the known inhibitors of ACC and may be useful in the development of therapeutic agents to combat a number of metabolic disorders.     

Cytochemical and biochemical observations on the digestive tracts of digenetic trematodes. 8. Acid phosphatase activity in Schistosoma mansoni and Schistosomatium douthitti

At the light microscope level, nonspecific acid phosphatase (AcPase) (EC 3.1.3.2) and N-acetyl glucosaminidase (NAGase) (EC 3.2.1.29) activities are in the esophageal gland cells of Schistosoma mansoni and Schistosomatium douthitti and in the gastrodermis of S. mansoni. The gastrodermis of S. douthitti is negative for these two enzymes. At the electron microscope level, AcPase activity in the esophageal gland cells of both species is observed in cytoplasmic vesicles. In S. mansoni, AcPase activity is also observed associated with the infoldings of the basal plasma membranes of the esophagus and the gastrodermis. It is hypothesized that this enzyme(s) is involved with membrane transport. AcPase activity is also associated with “droplets” and vesicles in the gastrodermis of S. mansoni. It is believed that the digestion of foodstuffs in both species occurs extracellularly.     

Calcium influx following fertilization of Urechis caupo eggs.

Measurements of ⁴⁵Ca flux into and out of Urechis eggs indicate that, during the first 10 min after insemination, the eggs take up 0.24 pmole of Ca/egg. Total egg Ca measured by atomic absorption (AA) spectroscopy increased by 0.23 pmole of Ca/egg (0.56, 0.79, and 0.76 pmole of Ca/egg for unfertilized, 10-min fertilized, and 60-min fertilized eggs, respectively). Thus, the total change in egg Ca is accounted for by the influx even though the rate of efflux, measured as a release of ⁴⁵Ca from preloaded eggs, increases to twice the unfertilized rate by 15 min. The fertilization influx follows saturation kinetics (K_a = 1.3 mM). It is competitively inhibited by procaine, but is not inhibited by dinitrophenol, mersalyl acid, or ruthenium red. Ten percent of the total Ca influx has occurred by 10 sec, and it is, therefore, the most rapid response to fertilization yet known in these eggs. The influx is also observed in eggs partially activated by insemination in pH 7 seawater (SW); the other fertilization responses, except sperm penetration, do not occur in pH 7 SW. Although Ca influx alone is insufficient to activate the eggs, it may be a prerequisite for cytoplasmic activation and development, inducing other secondary responses which are prevented by low external pH.     

Developmental regulation of protein kinase A expression and activity in Schistosoma mansoni

cAMP-dependent protein kinases (PKAs) are the main transducers of cAMP signalling in eukaryotic cells. Recently we reported the identification and characterisation of a PKA catalytic subunit (SmPKA-C) in Schistosoma mansoni that is required for adult schistosome viability in vitro. To gain further insights into the role of SmPKA-C in biological processes during the schistosome life cycle, we undertook a quantitative analysis of SmPKA-C mRNA expression in different life cycle stages. Our data shows that SmPKA-C mRNA expression is developmentally regulated, with the highest levels of expression in cercariae and adult female worms. To evaluate the biological role of SmPKA-C in these developmental stages, cercariae and adult worms were treated with various concentrations of PKA inhibitors. Treatment of cercariae with H-89 or PKI 14-22 amide resulted in loss of viability suggesting that, as in adults, PKA is an essential enzyme activity in this infectious larval stage. In adult worms, in vitro exposure to sub-lethal concentrations of H-89 or PKI 14-22 amide resulted in inhibition of egg production in a dose-dependent manner. Furthermore, using a murine model of schistosome infection where S. mansoni fecundity is impaired, we show that reduced rates of egg production in vivo correlate with significant reductions in SmPKA-C mRNA expression and PKA activity. Finally, restoration of parasite egg production in vivo also resulted in normalisation of SmPKA-C mRNA expression and PKA activity. Taken together, our data suggest that PKA signalling is required for cercarial viability and may play a specific role in the reproductive activity of adult worms.     

Effects of hypochlorite on cultured respiratory epithelial cells

Neutrophils and eosinophils are involved in the pathogenesis of many respiratory diseases. The enzymes myeloperoxidase and eosinophil peroxidase catalyze the reaction of H₂O₂ with Cl to produce the reactive oxygen species HOCl.

Normal human bronchial epithelial (NHBE) cells were exposed to 0.18–0.90 mM HOCl for 48 h, and studied with immunohistochemical, metabolic and morphological studies.

The ability of the cells to attach to each other and/or to the matrix was altered. Immunohistochemical studies showed a decreased amount of desmosomes and focal adhesion sites, although the morphology of the cells was not affected. The ability of the mitochondria to oxidize glucose was reduced. HOCl-exposed cells had an increased production of NO, probably by an increased activity of cNOS, due to increased intracellular Ca²⁺. The antioxidant N-acetylcysteine inhibited both the NO production and the effects of HOCl on glucose oxidation. The cNOS-inhibitor N-propyl-L-arginine inhibited HOCl-induced NO production. X-ray microanalysis showed an increase in the intracellular Na⁺/K⁺ ratio, which indicates cell damage.

In conclusion, exposure to HOCl results in cell detachment and metabolic alterations in normal human bronchial epithelial cells. Oxygen radicals could in part mediate the effects. Oxygen radicals could hence contribute to the observed epithelial damage in respiratory diseases.     

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.     

Radiorespirometer for continuous monitoring of chick embryo development.

A radiorespirometer is described that is capable of continuous monitoring of O₂ utilization, CO₂ and/or ¹⁴CO₂ production per minute, heart rate, and body activity of an embryonated egg while it develops for several days in a closed chamber with near normal pO₂ or other desired pO₂. Oxygen is supplied to the embryo by an electrolytic cell, and CO₂ is removed by a KOH solution flowing through a diffusion cell separated from the embryo chamber by a CO₂ permeable rubber membrane. The instrument permits selecting embryos for viability and developmental stage, according to their O₂ utilization per minute and respiratory quotient, without breaking the eggshell. Inoculation of the embryonated egg with ¹⁴C-labeled substrates, drugs, or toxins can occur without interfering with continuous recording of metabolic activity.     

A Bioluminescence Assay Using Nitrosomonas europaea for Rapid and Sensitive Detection of Nitrification Inhibitors

An expression vector for the luxAB genes, derived from Vibrio harveyi, was introduced into Nitrosomonas europaea. Although the recombinant strain produced bioluminescence due to the expression of the luxAB genes under normal growing conditions, the intensity of the light emission decreased immediately, in a time-and dose-dependent manner, with the addition of ammonia monooxygenase inhibitors, such as allylthiourea, phenol, and nitrapyrin. When whole cells were challenged with several nitrification inhibitors and toxic compounds, a close relationship was found between the change in the intensity of the light emission and the level of ammonia-oxidizing activity. The response of bioluminescence to the addition of allylthiourea was considerably faster than the change in the ammonia-oxidizing rate, measured as both the O₂ uptake and NO₂⁻ production rates. The bioluminescence of cells inactivated by ammonia monooxygenase inhibitor was recovered rapidly by the addition of certain substrates for hydroxylamine oxidoreductase. These results suggested that the inhibition of bioluminescence was caused by the immediate decrease of reducing power in the cell due to the inactivation of ammonia monooxygenase, as well as by the destruction of other cellular metabolic pathways. We conclude that the assay system using luminous Nitrosomonas can be applied as a rapid and sensitive detection test for nitrification inhibitors, and it will be used to monitor the nitrification process in wastewater treatment plants.     

Toxic Effects of Linear Alkylbenzene Sulfonate on Metabolic Activity, Growth Rate, and Microcolony Formation of Nitrosomonas and Nitrosospira Strains

Strong inhibitory effects of the anionic surfactant linear alkylbenzene sulfonate (LAS) on four strains of autotrophic ammonia-oxidizing bacteria (AOB) are reported. Two Nitrosospira strains were considerably more sensitive to LAS than two Nitrosomonas strains were. Interestingly, the two Nitrosospira strains showed a weak capacity to remove LAS from the medium. This could not be attributed to adsorption or any other known physical or chemical process, suggesting that biodegradation of LAS took place. In each strain, the metabolic activity (50% effective concentration [EC₅₀], 6 to 38 mg liter⁻¹) was affected much less by LAS than the growth rate and viability (EC₅₀, 3 to 14 mg liter⁻¹) were. However, at LAS levels that inhibited growth, metabolic activity took place only for 1 to 5 days, after which metabolic activity also ceased. The potential for adaptation to LAS exposure was investigated with Nitrosomonas europaea grown at a sublethal LAS level (10 mg liter⁻¹); compared to control cells, preexposed cells showed severely affected cell functions (cessation of growth, loss of viability, and reduced NH₄⁺ oxidation activity), demonstrating that long-term incubation at sublethal LAS levels was also detrimental. Our data strongly suggest that AOB are more sensitive to LAS than most heterotrophic bacteria are, and we hypothesize that thermodynamic constraints make AOB more susceptible to surfactant-induced stress than heterotrophic bacteria are. We further suggest that AOB may comprise a sensitive indicator group which can be used to determine the impact of LAS on microbial communities.