Your search keyword '"Yoshino, TP"' showing total 15 results

1. Circulating Biomphalaria glabrata hemocyte subpopulations possess shared schistosome glycans and receptors capable of binding larval glycoconjugates.

Author

Yoshino TP, Wu XJ, Gonzalez LA, and Hokke CH

Subjects

Animals, Antibodies, Monoclonal, Biomphalaria parasitology, Blotting, Western, Electrophoresis, Polyacrylamide Gel, Epitopes analysis, Hemocytes immunology, Hemocytes parasitology, Host-Parasite Interactions, Immunohistochemistry, Larva metabolism, Mice, Microscopy, Fluorescence, Molecular Mimicry, Polysaccharides immunology, Schistosoma mansoni immunology, Biomphalaria metabolism, Glycoconjugates metabolism, Hemocytes metabolism, Polysaccharides metabolism, Receptors, Pattern Recognition metabolism, Schistosoma mansoni metabolism

Abstract

Host lectin-like recognition molecules may play an important role in innate resistance in Biomphalaria glabrata snails to larval schistosome infection, thus implicating parasite-expressed glycans as putative ligands for these lectin receptors. While host lectins may utilize specific glycan structures for parasite recognition, it also has been hypothesized that the parasite may use this system to evade immune detection by mimicking naturally-expressed host glycans, resulting in reduced immunorecognition capacity. By employing immunocytochemical (ICC) and Western blot assays using schistosome glycan-specific monoclonal antibodies (mABs) we sought to identify specific glycan epitopes (glycotopes) shared in common between larval Schistosoma mansoni and B. glabrata hemocytes, the primary immune effector cells in snails. Results confirmed the presence of selected larval glycotopes on subpopulations of hemocytes by ICC and association with numerous hemocyte proteins by Western blot analyses, including a trimannosyl core N-glycan (TriMan), and two fucosylated lacdiNAc (LDN) variants, F-LDN and F-LDN-F. Snail strain differences were seen in the prevalence of constitutively expressed F-LDN on hemocytes, and in the patterns of protein immunoreactivity with these mABs. In contrast, there was little to no hemocyte reactivity with mABs for Lewis X (LeX), LDN, LDN-F or LDN-DF. When intact hemocytes were exposed to larval transformation products (LTPs), distinct cell subpopulations displayed weak (LeX, LDN-DF) to moderate (LDN, LDN-F) glycotope reactivity by ICC, including snail strain differences in the prevalence of LDN-reactive cellular subsets. Far-Western blot analyses of the hemocytes following exposure to larval transformation proteins (LTPs) also revealed multiple mAB-reactive hemocyte protein bands for LeX, LDN, LDN-F, and LDN-DF. These results demonstrate the existence of complex patterns of shared larval glycan constitutively expressed on hemocytes and their proteins, as well as the ability of hemocytes to acquire shared glycans by the selective binding of parasite-released LTP. Unraveling the functional significance of these naturally expressed and acquired shared glycans on specific hemocyte populations represents an important challenge for future investigations., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

2. The identification of inhibitors of Schistosoma mansoni miracidial transformation by incorporating a medium-throughput small-molecule screen.

Author

Taft AS, Norante FA, and Yoshino TP

Subjects

1-Methyl-3-isobutylxanthine pharmacology, Animals, Benzophenanthridines pharmacology, Calcimycin pharmacology, Calcium Channel Blockers pharmacology, Citalopram pharmacology, Clomipramine pharmacology, Colforsin pharmacology, Cyclic AMP metabolism, Dimethyl Sulfoxide, Dose-Response Relationship, Drug, Drug Evaluation, Preclinical methods, Immunohistochemistry, Mice, Schistosoma mansoni growth & development, Tetradecanoylphorbol Acetate pharmacology, Triflupromazine pharmacology, Anthelmintics pharmacology, Schistosoma mansoni drug effects

Abstract

In Schistosoma mansoni, the miracidium-to-primary sporocyst transformation process is associated with many physiological, morphological, transcriptional and biochemical changes. In the present study, we use a medium-throughput small-molecule screen to identify chemical compounds inhibiting or delaying the in vitro transformation of miracidia to the sporocyst stage. The Sigma-Aldrich Library of Pharmacologically Active Compounds (LOPAC) contains 1280 well-characterized chemical compounds with various modes of action including enzyme inhibitors, antibiotics, cell-cycle regulators, apoptosis inducers and GPCR ligands. We identified 47 compounds that greatly reduce or delay this transformation process during a primary screen of live miracidia. The majority of compounds inhibiting larval transformation were from dopaminergic, serotonergic, ion channel and phosphorylation classes. Specifically, we found that dopamine D2-type antagonists, serotonin reuptake inhibitors, voltage-gated calcium channel antagonists and a PKC activator significantly reduced in vitro miracidial transformation rates. Many of the targets of these compounds regulate adenylyl cyclase activity, with the inhibition or activation of these targets resulting in increased cAMP levels in miracidia and concomitant blocking/delaying of larval transformation., (Copyright (c) 2010 Elsevier Inc. All rights reserved.)

Published

2010

3. Developmental expression analysis and immunolocalization of a biogenic amine receptor in Schistosoma mansoni.

Author

El-Shehabi F, Vermeire JJ, Yoshino TP, and Ribeiro P

Subjects

Animals, Antibodies, Helminth biosynthesis, Antibodies, Helminth immunology, Biomphalaria, Blotting, Western, Electrophoresis, Polyacrylamide Gel, Female, Fluorescent Antibody Technique, Gene Expression Regulation, Immunoprecipitation, Male, Mice, Microscopy, Confocal, RNA, Messenger analysis, RNA, Messenger biosynthesis, Rabbits, Receptors, Biogenic Amine biosynthesis, Receptors, Biogenic Amine genetics, Receptors, Biogenic Amine immunology, Receptors, G-Protein-Coupled biosynthesis, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled immunology, Reverse Transcriptase Polymerase Chain Reaction, Schistosoma mansoni immunology, Transfection, Receptors, Biogenic Amine analysis, Receptors, G-Protein-Coupled analysis, Schistosoma mansoni metabolism

Abstract

A Schistosoma mansoni G-protein coupled receptor (SmGPCR) was previously cloned and shown to be activated by the biogenic amine, histamine. Here we report a first investigation of the receptor's subunit organization, tissue distribution and expression levels in different stages of the parasite. A polyclonal antibody was produced in rabbits against the recombinant third intracellular loop (il3) of SmGPCR. Western blot studies of the native receptor and recombinant protein expressed in HEK293 cells showed that SmGPCR exists both as a monomer (65 kDa) and an apparent dimer of approximately 130 kDa These species were verified by immunoprecipitation of SmGPCR from S. mansoni extracts, using antibody that was covalently attached to agarose beads. Further investigation determined that the SmGPCR dimer was resistant to treatment with various detergents, 4 M urea and 0.1 M DTT but could be made to dissociate at acidic pH, suggesting the dimer is non-covalent in nature. Confocal immunofluorescence studies revealed significant SmGPCR immunoreactivity in sporocysts, schistosomula and adult worms but not miracidia. SmGPCR was found to be most widely expressed in the schistosomula, particularly the tegument, the subtegumental musculature and the acetabulum. In the adult stage we detected SmGPCR immunofluorescence mainly in the tubercles of male worms and, to a lesser extent, the body wall musculature. Localization in sporocysts was mainly confined to the tegument and cells within parenchymal matrices. A real-time quantitative reverse-transcription PCR analysis revealed that SmGPCR is upregulated at the mRNA level in the parasitic stages compared to the free-living miracidium and cercariae, and it is particularly elevated during early sporocyst and schistosomula development. The results identify SmGPCR as an important parasite receptor with potential functions in muscle and the tegument of S. mansoni.

Published

2009

4. Profiling Schistosoma mansoni development using serial analysis of gene expression (SAGE).

Author

Williams DL, Sayed AA, Bernier J, Birkeland SR, Cipriano MJ, Papa AR, McArthur AG, Taft A, Vermeire JJ, and Yoshino TP

Subjects

Animals, Biomphalaria parasitology, Cluster Analysis, DNA, Complementary chemistry, DNA, Helminth chemistry, Disease Vectors, Expressed Sequence Tags chemistry, Female, Gene Expression genetics, Gene Library, Genes, Homeobox genetics, Helminth Proteins genetics, Male, Mice, RNA, Helminth genetics, RNA, Helminth isolation & purification, Reverse Transcriptase Polymerase Chain Reaction, Schistosoma mansoni metabolism, Schistosomiasis mansoni parasitology, Schistosomiasis mansoni therapy, Sex Differentiation genetics, Sex Factors, Gene Expression physiology, Gene Expression Profiling methods, Life Cycle Stages genetics, Schistosoma mansoni genetics, Schistosoma mansoni growth & development

Abstract

Despite the widespread use of chemotherapy and other control strategies over the past 50years, transmission rates for schistosomiasis have changed little. Regardless of the approach used, future control efforts will require a more complete understanding of fundamental parasite biology. Schistosomes undergo complex development involving an alteration of parasite generations within a mammalian and freshwater molluscan host in the completion of its lifecycle. Little is known about factors controlling schistosome development, but understanding these processes may facilitate the discovery of new control methods. Therefore, our goal in this study is to determine global developmentally regulated and stage-specific gene expression in Schistosoma mansoni using serial analysis of gene expression (SAGE). We present a preliminary analysis of genes expressed during development and sexual differentiation in the mammalian host and during early larval development in the snail host. A number of novel, differentially expressed genes have been identified, both within and between the different developmental stages found in the mammalian and snail hosts.

Published

2007

5. Schistosoma mansoni: effects of serotonin and serotonin receptor antagonists on motility and length of primary sporocysts in vitro.

Author

Boyle JP, Zaide JV, and Yoshino TP

Subjects

Analysis of Variance, Animals, Carboxylic Acids pharmacology, Chlorpromazine pharmacology, Dopamine Antagonists pharmacology, Dose-Response Relationship, Drug, Indoles pharmacology, Methiothepin pharmacology, Mianserin pharmacology, Movement drug effects, Schistosoma mansoni growth & development, Schistosoma mansoni physiology, Serotonin administration & dosage, Time Factors, Schistosoma mansoni drug effects, Serotonin pharmacology, Serotonin Antagonists pharmacology, Tryptamines pharmacology

Abstract

The effects of serotonin (5-hydroxytryptamine; 5-HT) on in vitro transformed primary sporocysts of Schistosoma mansoni were investigated. Serotonin treatment significantly increased parasite motility (percentage of motile sporocysts) and length at concentrations as low as 1 microM. These effects were mimicked by the 5-HT agonist tryptamine, albeit with 10- to 100-fold less potency. The effects of 10 microM 5-HT on sporocyst motility were observed within 15 min posttreatment and on parasite length by 6 h posttreatment, and both effects were stable for up to 48 h. Receptor antagonists with varying affinities for defined vertebrate neurotransmitter receptor subtypes were examined for their effects on parasite behavior in the absence and presence of 10 microM 5-HT. In the absence of 5-HT, only methiothepin significantly inhibited normal parasite growth after 48 h of incubation. In the presence of 10 microM 5-HT, the serotonin receptor antagonists mianserin, ketanserin (both at 100 microM), and methiothepin (at 10 microM) significantly inhibited 5-HT-induced lengthening of primary sporocysts, while 3-tropanyl-indole-3-carboxylate and chlorpromazine had no significant effect. The effects of these same drugs on parasite motility were also examined. In the absence of 5-HT, 10 microM chlorpromazine increased parasite motility, while the other antagonists had no effect. When sporocysts were treated with 10 microM 5-HT for 2 h in the continued presence of antagonist, 100 microM mianserin, ketanserin, 3-tropanyl-indole-3-carboxylate, and 10 microM methiothepin inhibited 5-HT induced increases in parasite motility, while 10 microM chlorpromazine had no effect. These results show that primary sporocysts of S. mansoni exhibit behavioral responses to serotonin much like adult stages of this parasite. Furthermore, these responses appear to be mediated via receptors with pharmacological similarities to those previously described in adult worms., (Copyright 2000 Academic Press.)

Published

2000

6. Flukes without snails: advances in the in vitro cultivation of intramolluscan stages of trematodes.

Author

Coustau C and Yoshino TP

Subjects

Animals, Biomphalaria cytology, Biomphalaria embryology, Cell Line, Coculture Techniques, Trematoda growth & development

Abstract

In vitro cultivation of parasitic helminths, including the digenetic trematodes, has long been a valuable tool in medical and veterinary parasitology, permitting and/or facilitating the development of diagnostic reagents, chemotherapeutic agents, and vaccines and providing insights into naturally complex host-parasite interactions. In vitro cultivation of the intramolluscan stages of trematodes has been particularly challenging, given the ontogenic complexities involved in the production of multiple larval generations from germinal tissues through an asexual "budding" process. Recently, however, advanced larval development has been achieved by incorporating the Biomphalaria glabrata embryonic (Bge) cell line into cocultivation systems. Most notably, the entire intramolluscan cycle (from miracidium to cercaria) has been completed for the human blood fluke Schistosoma mansoni, while significant primary sporocyst development has been attained for several other digeneans including S. japonicum and Fascioloides magna. Here we review recent advances in the cultivation of several larval trematode species and discuss the potential use of this culture system for addressing fundamental questions of host-parasite compatibility., (Copyright 2000 Academic Press.)

Published

2000

7. Schistosoma japonicum: in vitro cultivation of miracidium to daughter sporocyst using a Biomphalaria glabrata embryonic cell line.

Author

Coustau C, Ataev G, Jourdane J, and Yoshino TP

Subjects

Animals, Biomphalaria cytology, Cell Count, Cell Line, Coculture Techniques, Culture Media, Microscopy, Electron, Scanning, Schistosoma japonicum ultrastructure, Biomphalaria embryology, Schistosoma japonicum growth & development

Abstract

In vitro cultivation of Schistosoma japonicum miracidia to the mother sporocyst (MS) and then to the daughter sporocyst (DS) stage was achieved using the Biomphalaria glabrata embryonic (Bge) cell line as a coculture system. When comparing the effect of Bge cell and MS density on MS development, it was apparent that Bge cell density had a highly significant effect on both MS viability and growth. Viability and growth rate of MS cultured under high cell density conditions (350 cells/mm2) were almost 2 times greater than those of MS cultured under conditions of low cell density (60 cells/mm2). Growth under high cell density conditions corresponded to a 20 to 30 times increase in MS estimated volume within the first 9 weeks of cultivation. Emergence of fully formed motile DS was first observed after 11 weeks of cocultivation. A few DS lived for 14 weeks after emergence and attained a size of 770 +/- 100 microns in length and 48 +/- 13 microns in width. In contrast to what was observed in Bge cell/Schistosoma mansoni cocultures, Bge cells did not encapsulate S. japonicum MS. Our results show that, although the cellular interactions between Bge cells and schistosomes MS display some level of specificity, Bge cells apparently secrete soluble factors that permit excellent survival and can trigger advanced in vitro development of S. japonicum.

Published

1997

8. Schistosoma mansoni: excretory-secretory polypeptides exhibit selective binding to plasma components of the snail Biomphalaria glabrata.

Author

Davids BJ and Yoshino TP

Subjects

Animals, Biomphalaria immunology, Biomphalaria parasitology, Blood Proteins chemistry, Blood Proteins immunology, Blood Proteins metabolism, Helminth Proteins chemistry, Helminth Proteins immunology, Lectins chemistry, Lectins immunology, Lectins metabolism, Molecular Weight, Peptides chemistry, Peptides immunology, Peptides metabolism, Schistosoma mansoni chemistry, Schistosoma mansoni immunology, Biomphalaria metabolism, Disease Vectors, Helminth Proteins metabolism, Hemolymph metabolism, Schistosoma mansoni metabolism

Abstract

Previous studies have shown that Schistosoma mansoni excretory-secretory polypeptides (ESP) inhibit various internal defense functions of hemocytes from Biomphalaria glabrata and that plasma also may exert a modulatory effect on hemocyte activity. To better understand how plasma may influence hemocyte-schistosome interactions in inbred strains of snails, biotinylated ESP (b-ESP) were used as probes to identify ESP-reactive plasma components and partially characterize the nature of their binding interactions. In a plasma binding assay, b-ESP bound in a dose-dependent fashion to immobilized snail plasma, although no quantitative differences in ESP reactivity to plasma of schistosome-susceptible (M-line) and -resistant (13-16-R1) snail strains were detected. Moreover, co-incubation of b-ESP with homologous plasma or pretreatment of plasma with nonbiotinylated ESP in the plate assay significantly reduced b-ESP binding to immobilized plasma, indicating a specific interaction between ESP and plasma. Pretreatment of b-ESP with mannose, porcine stomach mucin, fetuin, and asialofetuin resulted in a significant inhibition of b-ESP binding to plasma, whereas pretreatment of immobilized plasma with a cocktail of monosaccharides (including mannose), porcine stomach mucin, and fetuin had no inhibitory effect. These data suggest the presence of a carbohydrate-binding protein(s) in sporocyst ESP that is targeted to plasma glycoconjugates. Based on the carbohydrate content of the major inhibitory glycoproteins, galactosyl and n-acetyl-galactosaminyl sugars may represent putative determinants for the lectin-like ESP molecule(s). However, ESP binding to plasma from M-line and 13-16-R1 B. glabrata strains exhibited similar sugar and glycoprotein inhibition patterns. SDS-PAGE and electroblot analyses further demonstrated that ESP bound to a subset of separated plasma polypeptides, most prominently to a doublet of 52 and 54 kDa, and a complex of proteins with molecular masses greater than 150 kDa. Other polypeptides exhibiting weaker binding interactions included components of 34, 60, 64, 86, and 125 kDa. Although both M-line and 13-16-R1 snail strains contained a similar complement of ESP-binding plasma proteins, ESP binding to the 34- and 86-kDa proteins occurred at higher frequencies in susceptible M-line plasma. It is concluded that ESP, released during in vitro transformation of S. mansoni miracidia, contain carbohydrate-reactive proteins capable of selectively binding to components of snail plasma. Quantitative differences between snail strains in the occurrence of ESP-binding plasma molecules was documented.

Published

1995

9. Schistosoma mansoni: characterization of excretory-secretory polypeptides synthesized in vitro by daughter sporocysts.

Author

Crews-Oyen AE and Yoshino TP

Subjects

Animals, Biomphalaria, Densitometry, Electrophoresis, Polyacrylamide Gel, Helminth Proteins chemistry, Molecular Weight, Peptides chemistry, Helminth Proteins biosynthesis, Peptide Biosynthesis, Schistosoma mansoni metabolism

Abstract

Excretory-secretory (ES) products of daughter sporocysts have been implicated in the modulation of snail host reproductive physiology. Because of the potentially important role of ES products in snail reproduction, newly synthesized ES polypeptides of in vitro-cultured Schistosoma mansoni daughter sporocysts were examined in pulse-chase studies using [35S]methionine followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), fluorography, and scanning densitometry. Fluorograms of SDS-PAGE-separated ES proteins revealed that sporocysts released a wide variety of polypeptides ranging in molecular weight from 17 to 200 kDa into supernatants during 6 days of in vitro culture at 26 degrees C. Moreover, the general pattern of synthesis and release of daughter sporocyst polypeptides into culture supernatants differed from those ES components previously described from primary or mother sporocysts. Although quantitative densitometry revealed that total labeled ES protein released into culture supernatants was consistent for all three pulse-chase periods, there were significant differences in the quantities of individual polypeptide peaks. The dynamics of the synthesis and release of eight polypeptides chosen for further analysis varied over time. Several ES polypeptides (110, 95, and 25 kDa) were released in relatively constant amounts, while some (69 and 44 kDa) increased and others (38 and 35 kDa) decreased in quantity over the same period of culture. It is hypothesized that the 38- and 35-kDa polypeptides may be important candidate inhibitory molecules because of the correlation between their early release into culture supernatants and the inhibitory effect of Day 1-2 daughter sporocyst ES products on polysaccharide synthesis in the albumen gland of the snail host.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1995

10. Schistosoma mansoni: modulation of hemocyte surface polypeptides detected in individual snails, Biomphalaria glabrata, following larval exposure.

Author

Coustau C and Yoshino TP

Subjects

Animals, Biomphalaria chemistry, Cell Membrane chemistry, Colorimetry, Hemocytes parasitology, Hemocytes ultrastructure, Larva physiology, Luminescent Measurements, Microspheres, Sensitivity and Specificity, Biomphalaria parasitology, Hemocytes chemistry, Membrane Proteins analysis, Peptides analysis, Schistosoma mansoni physiology

Abstract

As an approach to better understand the molecular mechanisms underlying the differential cellular response to larval Schistosoma mansoni observed in Biomphalaria glabrata, we have analyzed hemocyte membrane-associated polypeptides from inbred susceptible and resistant strains of B. glabrata. A combination of techniques involving biotin-labeling of cell surface-exposed polypeptides and a highly sensitive chemiluminescent detection technique has allowed the identification of major polypeptides expressed on nonadherent and adherent hemocyte subpopulations from individual snails and an assessment of the variability in their expression in response to S. mansoni exposure and latex bead injection. Results showed that S. mansoni exposure and latex bead injection differentially modulate the expression of 4 of 10 major hemocyte surface polypeptides with estimated molecular weights of 155/130, 120/110, 85, and 66 kDa. Little correlation was observed between the expression of any given polypeptide and a specific response to S. mansoni exposure. Moreover, the complex pattern of hemocyte surface polypeptides observed in snails subjected to the two treatments suggests that multiple signals may be influencing either the expression of these four polypeptides at the hemocyte surface or the hemodynamic of specific peptide-bearing hemocyte subpopulations released into the circulation. The fact that a natural and an artificial insult in the two snail strains elicit a differential response in the occurrence of these four polypeptides suggests that they may be involved in defense-related activities.

Published

1994

11. Schistosoma mansoni: influence of infection on levels of translatable mRNA and on polypeptide synthesis in the ovotestis and albumen gland of Biomphalaria glabrata.

Author

Crews AE and Yoshino TP

Subjects

Animals, Biomphalaria genetics, Biomphalaria metabolism, Genitalia metabolism, Genitalia parasitology, Gonads metabolism, Gonads parasitology, Host-Parasite Interactions, Organ Culture Techniques, RNA, Messenger genetics, Biomphalaria parasitology, Protein Biosynthesis, RNA, Messenger metabolism, Schistosoma mansoni physiology

Abstract

Larval trematode infection causes a disruption of normal reproductive activity in the molluscan intermediate host. Because relatively little is known about the dynamics of this host-parasite interaction, the effect of Schistosoma mansoni infection on translatable mRNA pools and on polypeptide synthesis was examined in the ovotestis (OT) and albumen gland (AG) of Biomphalaria glabrata. Total RNA was isolated from OTs and AGs from uninfected control snails and snails at 14, 21, and 28 days postinfection (pi) with 20 S. mansoni miracidia and subjected to a rabbit reticulocyte in vitro translation system. Quantitative densitometry of autofluorograms of one-dimensional SDS-PAGE slab gels revealed reductions in quantities of total proteins synthesized in vitro from RNA isolated from infected OTs at 21 and 28 days pi, but not at Day 14 pi. Similar reductions were seen in 10 individual polypeptides selected for a more detailed analysis. In contrast to the OT, Day 14 pi-infected AGs exhibited an initial increase in total protein synthesized in the in vitro translation system utilized, followed by significant reductions at 21 and 28 days pi. Selective modulation of labeled polypeptides was evident in 11 polypeptides chosen for a more detailed analysis. This general pattern of parasite inhibitory effects was also seen in parallel pulse-chase studies using [35S]methionine metabolic labeling of in vitro-cultured OTs and AGs. In these experiments, significant reductions in the amounts of labeled polypeptides found in culture supernatants at 14, 21, and 28 days pi were evident. Total polypeptide synthesis also was solubilized AGs from infected snails at 21 and 28 days pi. Results indicate that larval trematode infection induced a generalized disruption of polypeptide metabolism in OTs and AGs of B. glabrata. Such inhibition may occur at both the transcriptional and the translational levels and is initially manifested early in infection, during the time that daughter sporocysts begin to migrate and colonize the digestive gland and OT.

Published

1991

12. Schistosoma mansoni: origin and expression of a tegumental surface antigen on the miracidium and primary sporocyst.

Author

Dunn TS and Yoshino TP

Subjects

Animals, Antibodies, Monoclonal immunology, Antigens, Surface analysis, Blotting, Western, Electrophoresis, Polyacrylamide Gel, Epitopes analysis, Fluorescent Antibody Technique, Immunohistochemistry, Microscopy, Electron, Schistosoma mansoni growth & development, Schistosoma mansoni ultrastructure, Antigens, Helminth analysis, Schistosoma mansoni immunology

Abstract

A monoclonal antibody, recognizing a carbohydrate epitope associated with several tegumental surface components on Schistosoma mansoni primary sporocysts, was used to follow tegumental formation during transformation of the miracidium to sporocyst and its subsequent development in vitro and in vivo. Indirect fluorescent antibody and direct immunogold labeling methods confirm a structural connection between the intercellular ridges and a submuscular, multinucleate syncytium in the miracidium. Immunoreactive vesicles within this latter system directly contribute to elaboration of the tegumental surface membrane, through the process of membrane fusion. Lateral expansion of intercellular ridges by vesicular fusion ultimately result in fully transformed sporocysts exhibiting vesicular membrane epitopes as prominent tegumental surface components. Light microscopical and ultrastructural observations, together with Western immunoblot analyses, suggest a gradual depletion of intracellular and surface immunoreactive material of vesicular origin in primary sporocysts grown in culture for up to 12 days. In contrast, similar immunoreactive vesicles appear to be continuously synthesized throughout in vivo primary sporocyst development. Monoclonal antibody reactive epitopes appear to be uniquely expressed in the miracidium/primary sporocyst since similar molecules are absent from daughter sporocysts, cercariae, adults, and snail tissues.

Published

1988

13. Schistosoma mansoni: passive transfer of resistance by serum in the vector snail, Biomphalaria glabrata.

Author

Granath WO Jr and Yoshino TP

Subjects

Animals, Antigens, Helminth immunology, Biomphalaria parasitology, Schistosoma mansoni growth & development, Biomphalaria immunology, Immunization, Passive, Schistosoma mansoni immunology

Abstract

Passive transfer of natural resistance to Schistosoma mansoni (PR-1 strain) has been successfully accomplished in the snail intermediate host, Biomphalaria glabrata (PR albino, M-line strain). Injection of serum (cell-free hemolymph) from a naturally schistosome-resistant strain of B. glabrata (10-R2) into PR albino snails induced a complete protection from a primary infection with the parasite in 29 of 48 snails (60.4%). In comparison, inoculation of homologous PR albino serum or heterologous proteins (fetal calf serum) had no effect. Moreover, this protection could be induced 24 hr prior to, or 24 hr after, exposure to the parasite, although heating of 10-R2 serum to 70 C for 30 min destroyed its protective ability. When in vitro transformed sporocysts were preincubated in 10-R2 or PR albino serum and then were injected into susceptible snails, a high level of infection (88.5 and 83.3%, respectively) was produced in both groups. Thus, the 10-R2 serum factor does not appear to be mediating specific parasite recognition by host hemocytes. Alternatively, our results suggest that 10-R2 serum possesses a heat-labile factor which specifically activate B. glabrata hemocytes to encapsulate and destroy sporocysts whereas PR albino serum lacks this factor.

Published

1984

14. Schistosoma mansoni: effect of infection on reproduction and gonadal growth in Biomphalaria glabrata.

Author

Crews AE and Yoshino TP

Subjects

Animals, Biomphalaria physiology, Fertility, Gonads growth & development, Host-Parasite Interactions, Schistosoma mansoni growth & development, Biomphalaria parasitology, Schistosoma mansoni physiology

Abstract

Sexually mature Biomphalaria glabrata were exposed to 12 miracidia of Schistosoma mansoni, and egg production of snails was monitored over a period of 5 weeks. During the study period, exposed snails grew at approximately the same rate as unexposed controls. Castration, as measured by a reduction in the mean number of eggs laid per snail occurred between 14 and 21 days postexposure (PE). The reduction in fecundity in infected snails coincided with the migration and establishment of daughter sporocysts in the digestive gland and gonad. Enumeration of individual oocytes in longitudinal sections of the ovotestis revealed that uninfected snails contained significantly more oocytes per section than infected snails at 27, 31, and 40 days PE. In addition, the mean area of gonadal sections of control snails increased over the 40-day experimental period, whereas there was no such increase in gonadal area of infected snails. These data suggest that there is an inhibition in gonadal growth in infected snails. When oocyte data were expressed in terms of mean gonadal area, the mean number of oocytes per mm2 of gonad of uninfected and infected snails did not differ significantly over the study period, except at Day 14 PE, when infected snails contained a significantly greater number of oocytes per mm2 of gonad than did uninfected controls. It is hypothesized that daughter sporocysts of S. mansoni are primarily responsible for the inhibition of host reproductive activity, and may be mediating their effects through mechanisms involved in the regulation of gonadal growth.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1989

15. Schistosoma mansoni: relationship between cercarial production levels and snail host susceptibility.

Author

Ward RD, Lewis FA, Yoshino TP, and Dunn TS

Subjects

Animals, Biomphalaria immunology, Disease Vectors immunology, Host-Parasite Interactions, Schistosoma mansoni immunology, Biomphalaria parasitology, Disease Vectors parasitology, Schistosoma mansoni growth & development

Abstract

Two populations of Biomphalaria glabrata snails differing slightly in their susceptibility to Schistosoma mansoni infection showed dramatic differences in cercarial output per snail. Exposed to five or more miracidia, snails from a group with a 90-100% susceptibility rate (Group A) produced nearly twice the number of cercariae as those from a group with a 70-80% susceptibility rate (Group B). Exposure of individual snails to known numbers of miracidia resulted in higher numbers of primary (mother) sporocysts in Group A snails than in Group B snails. However, monomiracidial exposure of snails from both groups resulted in equivalent numbers of cercariae produced per positive snail, indicating that, once established, all primary sporocysts possess a similar reproductive potential. Morphometric analysis of serially sectioned 9-day-old primary sporocysts supported this conclusion; the size of the primary sporocysts and the size and numbers of secondary (daughter) sporocysts within each primary sporocyst were comparable in snails from both groups. The data indicate cercarial production in this system is regulated prior to, and/or during, early development of the primary sporocyst.

Published

1988