EFFECT OF ADENYLATE KINASE 1 ON THE GROWTH AND DEVELOPMENT OF SCHISTOSOMA JAPONICUM SCHISTOSOMULUM.

We investigated the effect of Schistosoma japonicum adenylate kinase 1 (Sjak1) on the growth and development of schistosomula. Quantitative real-time PCR showed that Sjak1 mRNA was expressed in 3-, 10-, 14-, 18-, and 21-day-old schistosomula, and its levels increased gradually with the development of S. japonicum. Using immunohistochemical techniques, ak1 protein was found to be mainly distributed in the tegument and some parenchymal tissues of the schistosomula. Double-stranded RNA-mediated knockdowns of ak1 decreased ak1 mRNA transcripts by more than 90%, and western blot results showed that expression of ak1 protein was decreased by 66%. Scanning electron microscopy following the RNA-mediated ak1 knockdown showed that the sensory papillae did not develop. Transmission electron microscopy showed a lower mean thickness of the tegument in the Sjak1 interference group than in the negative control group. Terminal deoxynucleotidyl transferase dUTP nick-end labeling suggested higher apoptosis in the interference group than the negative control group. These results showed that ak1 may be involved in the growth and development of S. japonicum schistosomula and especially in the development of the integument. Consequently, ak1 may be a potential target in developing prevention methods for schistosomiasis in the future.

Influence of Schistosoma japonicum programmed cell death protein 10 on the growth and development of schistosomula.

BACKGROUND: Schistosomiasis caused by Schistosoma japonicum is among the most serious endemic zoonoses in China. To study interactions between schistosomula, the pre-adult juvenile stage, and hosts, it is important to study the functions of key genes involved in schistosomula growth and development. Programmed cell death protein 10 (pcdp10) is an important apoptosis-related gene with various biological functions. This study described the molecular characterization of S. japonicum PCDP10 (SjPCDP10) and evaluated its functions in schistosomula. METHODS: Real-time quantitative polymerase chain reaction (qPCR) and western blot were used to detect Sjpcdp10 mRNA and protein levels, respectively, at different developmental stages. Immunolocalization was performed to determine SjPCDP10 expression in the parasite. RNA interference (RNAi) experiments were used to assess gene functions associated with SjPCDP10 in schistosomula growth and development. RESULTS: Real-time qPCR revealed that Sjpcdp10 was expressed during all investigated developmental stages and upregulated during schistosomula growth and development. Histochemical localization showed that SjPCDP10 was mainly distributed in the teguments of schistosomula in all investigated stages and part of the parenchymal area of 14-, 18-, and 21-day-old schistosomula. Following Sjpcdp10 knockdown by RNAi, the lengths, widths, areas, and volumes of schistosomula were significantly lower than those in the control group. Scanning electron microscopy showed that the body surfaces of schistosomula subjected to RNAi were seriously damaged, with few tegumental spines and sensory papillae. Transmission electron microscopy indicated that the teguments of Sjpcdp10-knockdown schistosomula were incomplete, the number of layers was reduced, and the thickness decreased significantly as compared with those in the control group. Furthermore, terminal deoxynucleotidyl transferase dUTP nick-end labelling results showed that the rate of apoptosis in Sjpcdp10-knockdown schistosomula was significantly higher than that in the control group. CONCLUSIONS: Sjpcdp10-knockdown influenced the growth and development of schistosomula. Therefore, our results indicated that SjPCDP10 contributes to the regulation of cell apoptosis and is essential for schistosomula growth and development.

Distribution of lethal giant larvae (Lgl) protein in the tegument and negative impact of siRNA-based gene silencing on worm surface structure and egg hatching in Schistosoma japonicum.

Lethal giant larvae (Lgl) are an evolutionarily conserved tumor suppressor present in fungi and animals. It plays an essential role in establishing apical-basal cell polarity, cell proliferation, differentiation, and tissue organization. Here, we report the presence of Lgl gene in the blood fluke Schistosoma japonicum (SjLgl) (GenBank: KF246684). SjLgl protein was mainly distributed in the unique surface tegument structure by immunofluorescence microscopic staining. Using a simple soaking method, a short interfering RNA (siRNA)-based RNA interference approach knocked down the expression of SjLgl in schistosomula in vitro by up to 89.0%. Moreover, tail vein injection of SjLgl-siRNA into the infected mice reduced SjLgl mRNA levels in vivo by 48.6-85.3%, depending on the duration of treatments. SjLgl-specific siRNA treatment during the infection in mice significantly altered the surface structure of adult worm, featured by the disappearance or significant reduction of sharp spines on the inner all of oral and ventral suckers. The siRNA also reduced the hatching rates in eggs produced by treated mice by up to 85.3%. These observations implied that Lgl plays an important role in the development of tegument in schistosomes, and may be explored as a novel target for developing immuno- and/or small molecule-based therapeutics to control and treat the infections caused by schistosome and other flatworms.

Microarray analysis of gene expression profiles of Schistosoma japonicum derived from less-susceptible host water buffalo and susceptible host goat.

BACKGROUND: Water buffalo and goats are natural hosts for S. japonicum in endemic areas of China. The susceptibility of these two hosts to schistosome infection is different, as water buffalo are less conducive to S. japonicum growth and development. To identify genes that may affect schistosome development and survival, we compared gene expression profiles of schistosomes derived from these two natural hosts using high-throughput microarray technology. RESULTS: The worm recovery rate was lower and the length and width of worms from water buffalo were smaller compared to those from goats following S. japonicum infection for 7 weeks. Besides obvious morphological difference between the schistosomes derived from the two hosts, differences were also observed by scanning and transmission electron microscopy. Microarray analysis showed differentially expressed gene patterns for parasites from the two hosts, which revealed that genes related to lipid and nucleotide metabolism, as well as protein folding, sorting, and degradation were upregulated, while others associated with signal transduction, endocrine function, development, immune function, endocytosis, and amino acid/carbohydrate/glycan metabolism were downregulated in schistosomes from water buffalo. KEGG pathway analysis deduced that the differentially expressed genes mainly involved lipid metabolism, the MAPK and ErbB signaling pathways, progesterone-mediated oocyte maturation, dorso-ventral axis formation, reproduction, and endocytosis, etc. CONCLUSION: The microarray gene analysis in schistosomes derived from water buffalo and goats provide a useful platform to disclose differences determining S. japonicum host compatibility to better understand the interplay between natural hosts and parasites, and identify schistosome target genes associated with susceptibility to screen vaccine candidates.

Beyond heme detoxification: a role for hemozoin in iron transport in S. japonicum.

Hemozoin (Hz) is considered a disposal product during the digestion of red blood cells by some blood-feeding parasites, such as Plasmodium, Schistosome, and Rhodnius. The only function of Hz that has been reported is to detoxify the free heme (Fe((III))-protoporphyrin-IX) in worms. Here we report a new role for Hz in iron transport in Schistosoma japonicum. Using transmission electron microscopy (TEM), we observed that S. japonicum hemozoin (sjHz) granules were a group of electron-dense, globe-, and comma-shaped granules. At the anterior end of female worm gut, these dark brown granules were found to be mixed with biconcave disc-shaped erythrocytes, in the middle portion of the gut these granules attached to destroyed erythrocytes and in the posterior portion of the gut no intact erythrocytes were observed except free sjHz granules. By energy dispersive spectroscopy (EDS) and Prussian blue iron staining, we found that these iron-containing sjHz granules are degraded near the microvilli adjacent to vitelline glands, resulting in the accumulation of a large amount of iron in the vitelline cells and eggs of developed S. japonicum. The accumulation of iron in vitelline glands was synchronized with the increase of sjHz granules in the gut. When S. japonicum just contained a little amount of sjHz granules in gut, hardly any accumulation of iron was detected in vitelline glands. However, when the lumen of gut filled full with sjHz granules, large amounts of iron was detected in vitelline glands. Solexa sequencing revealed that expression of iron store protein, ferritin-1 (CAX77379.1), is just significantly up-regulated in worms that contained a large amount of sjHz in gut. In contrast to the idea that sjHz granules are simply by-product of heme detoxification, we found that formation and degradation of sjHz granules in vivo likely serve for the iron transport. Our findings provide new insights into the biological significance of Hz formation.

3-oxoacyl-ACP reductase from Schistosoma japonicum: integrated in silico-in vitro strategy for discovering antischistosomal lead compounds.

BACKGROUND: Schistosomiasis is a disease caused by parasitic worms and more than 200 million people are infected worldwide. The emergence of resistance to the most commonly used drug, praziquantel (PZQ), makes the development of novel drugs an urgent task. 3-oxoacyl-ACP reductase (OAR), a key enzyme involved in the fatty acid synthesis pathway, has been identified as a potential drug target against many pathogenic organisms. However, no research on Schistosoma japonicum OAR (SjOAR) has been reported. The characterization of the SjOAR protein will provide new strategies for screening antischistosomal drugs that target SjOAR. METHODOLOGY/PRINCIPAL FINDINGS: After cloning the SjOAR gene, recombinant SjOAR protein was purified and assayed for enzymatic activity. The tertiary structure of SjOAR was obtained by homology modeling and 27 inhibitor candidates were identified from 14,400 compounds through molecular docking based on the structure. All of these compounds were confirmed to be able to bind to the SjOAR protein by BIAcore analysis. Two compounds exhibited strong antischistosomal activity and inhibitory effects on the enzymatic activity of SjOAR. In contrast, these two compounds showed relatively low toxicity towards host cells. CONCLUSIONS/SIGNIFICANCE: The work presented here shows the feasibility of isolation of new antischistosomal compounds using a combination of virtual screening and experimental validation. Based on this strategy, we successfully identified 2 compounds that target SjOAR with strong antischistosomal activity but relatively low cytotoxicity to host cells.

Contribution of silver ions to the inhibition of infectivity of Schistosoma japonicum cercariae caused by silver nanoparticles.

Blockage of pathogen transmission through water decontamination is considered an important strategy for the prevention of schistosome infection. Many believe that this strategy is feasible, but it has yet to be achieved. Silver has a long history of use as a disinfectant. With the emergence of nanotechnology, silver can be shaped into nanoparticles which have been found to possess superb antimicrobial activities. In this light, we investigated the effects of silver nanoparticles (AgNPs) on Schistosoma japonicum cercariae. AgNPs rapidly induced cercarial tail-shedding, agitated behaviour and a decrease in cercarial secretion in a dose-dependent manner. Prolonged treatment was found to be cercariocidal, which nevertheless might be attributable to AgNP-induced cercarial tail loss rather than to toxicity. Higher concentrations of AgNPs (125 µg mL-1 and above) completely blocked cercarial infectivity. Despite decreased infectivity, cercariae exposed to lower concentrations of AgNPs for 30 min were still found capable of infecting hosts even without their tails, suggesting that tail loss does not necessarily signify a total loss of infective ability. We also found that silver ions (Ag+) were heavily involved in the observed cercarial responses of AgNPs. Our observations provide insight into the interactions between the larvae of helminth parasites and nanoparticles.

Ultrastructural alterations of adult Schistosoma japonicum harbored in mice treated with a single oral dose of OZ78.

OBJECTIVE: To observe the ultrastructural alterations of adult Schistosoma japonicum induced by synthetic trioxolane OZ78. METHODS: Eight out of ten mice infected with 40-60 S. japonicum cercariae for 35 d were treated orally with OZ78 at a single dose of 400 mg/kg. Four groups of two mice were killed at 24 h, 3 d, 7 d, and 14 d post treatment, and schistosomes were recovered by perfusion technique, fixed, and examined by transmission electron microscopy. Schistosomes obtained from the remaining two untreated mice served as control. RESULTS: After infected mice were treated with OZ78 for 24 h, the prominent alterations in tegument of both male and female worms were observed, which revealed in flattened surface due to swelling of cytoplasmic processes, irregular expansion in distal end of cytoplasmic processes accompanied by decrease in rod-like and discoid-like secretory bodies, focal lysis of tegumental matrix; fusion of some cytoplasmic processes to form a large piece, disruption or disappearance of basal membrane, and destruction of internal structures in sensory organelles. In the subtegument, no or slight swelling and focal lysis of muscle bundles were seen, while the syncytium beneath the muscle showed enlargement of nucleus with indistinction of partial nuclear membrane, formation of small vacuoles due to focal lysis of chromatin, and emergence of degenerated mitochondria in perinuclear cytoplasm. As to parenchymal tissues, the major alterations included degeneration of mitochondria, formation of some small vacuoles and myelin-like structures. In gut epithelial cells, the prominent alterations were irregular enlargement of nucleus with light lysis of nucleoli and fusion of partial bi-layer nuclear membrane, degeneration of mitochondria in cytoplasm and collapse of microvilli. At this time point, in the vitelline cells of female worms, the most significant alteration was the collapse of many vitelline droplets, which led to release of the vitelline balls, followed by their lysis and fusion. Three to 7 d post treatment, the damage to the worms aggravated either in extent or in severity along with time. The significant damages to male and female worms were fusion of cytoplasmic processes, peeling or collapse of damaged cytoplasmic processes resulting in exposure of muscle bundles, severe destruction of sensory organelles and syncytium, focal or extensive swelling and lysis of muscle bundles, emergence of some larger piece of degenerated parenchymal tissues and severe damage to the gut epithelial cell. While in the vitelline cells of female worms, decrease in the number of vitelline droplet, focal lysis of nucleus and extensive lysis of parenchymal tissues among the vitelline cells were also observed. Fourteen days post OZ78 dosing, male and female worms which survived the treatment showed some renovation in damaged tegument and subtegument, while most gut epithelial cells and vitelline cells still revealed in prominent injury. CONCLUSION: The results demonstrate that OZ78 possesses an extensive damage to the ultrastructure in tegument and subtegument tissues including syncytium, parenchymal tissues, gut epithelial cells, and vitelline cells of adult S. japonicum.

Ultrastructural observation and gene expression profiling of Schistosoma japonicum derived from two natural reservoir hosts, water buffalo and yellow cattle.

Water buffalo and yellow cattle are the two of the most important natural reservoir hosts for Schistosoma japonicum in endemic areas of China, although their susceptibility differs, with water buffalo being less conducive to the growth and development of S. japonicum. Results from the current study show that the general morphology and ultrastructure of adult schistosomes derived from the two hosts also differed. Using high-throughput microarray technology, we also compared the gene expression profiles of adult schistosomes derived from the two hosts. We identified genes that were differentially expressed in worms from the two natural hosts. Further analysis revealed that genes associated with protein kinase and phosphatase, the stimulus response, and lipid and nucleotide metabolism were overexpressed, whereas genes associated with reproduction, anatomical structure morphogenesis and multifunctional motif were underexpressed in schistosomes from water buffalo. These differentially expressed genes were mainly involved in nucleotide, energy, lipid metabolism, energy metabolism, transcription, transport and signaling pathway. This suggests that they are key molecules affecting the survival and development of schistosomes in different natural host species. The results of this study add to current understanding of the interplay between parasites and their natural hosts, and provide valuable information for the screening of vaccine candidates or new drug targets against schistosomiasis in the natural reservoir hosts in endemic areas.

siRNA-mediated knockdown of two tyrosinase genes from Schistosoma japonicum cultured in vitro.

The cross-linking process of eggshell proteins in helminths is dependent on the activities of tyrosinases (TYRs), which can be inhibited by phenol oxidase inhibitors. Two genes encoding TYRs, SjTYR1 and SjTYR2, have been identified in Schistosoma japonicum. In this study, siRNA-mediated RNA interference (RNAi) was performed to silence these two SjTYR genes to evaluate their roles in eggshell formation. The effects of individual or double knockdown of the SjTYR genes were compared by determining SjTYR1/SjTYR2 transcript levels, enzyme activities, and by observing the morphology and amounts of intrauterine eggs. Results showed that SjTYR transcript levels were significantly reduced on the 3rd day post-RNAi. Significant reductions in TYR enzyme activities, as well as obvious changes in morphology and the number of intrauterine eggs followed the reductions in SjTYR transcript levels. On the 8th day after simultaneous knockdown of both SjTYR genes, which effected a 40% reduction in SjTYR1 transcript level and a 59% reduction in SjTYR2 transcript level, we observed an 80% reduction in diphenol oxidase (DPO) activity of TYRs, and a 74% reduction in the number of normal eggs in female uteri. Knockdown of both SjTYR genes has a greater effect than single knockdown of the SjTYR genes. These results demonstrate that both SjTYRs play an important role in eggshell sclerotization of S. japonicum, and that their enzyme activities depend on the transcript levels of two SjTYR genes.

Prevention of Schistosoma japonicum infection in mice with long-acting praziquantel implants.

This work reports the prevention outcomes of a praziquantel (PZQ) implant against the infection of Schistosoma japonicum in mice. The PZQ implant produced stable plasma PZQ concentrations in a range of 100-1300 ng/mL for a period of 70 days, by releasing PZQ in subcutaneous tissues in a sustained manner. To assess the prevention effects, the mice were infected at varying times after implantation. All the mice were sacrificed at 6 weeks after infection for worm and egg recovery and counting, worm morphological examination, determination of egg-hatching rates, and analysis of hepatic histology. The infection was successfully prevented for mice with early infection times (within 2-3 weeks), as nearly no worms, paired worms, eggs, or miracidia were recovered. However, in mice with late infection times (after 3 weeks), the prevention effects were diminished due to the decreased plasma PZQ concentrations at late times. Interestingly, the implants showed robust prevention effects on repeated infection at 1 and 3 weeks. In the infection-prevented mouse livers, no granuloma formation or granulomatous inflammation was observed. The results demonstrated that by blocking the development of infecting miracidia and by deactivating the eggs, the PZQ implants encouragingly prevented the S. japonicum infection and avoided liver damage.

Studies on the establishment of a co-culture system of lung stage Schistosoma japonicum with host cells.

Due to their role in eliciting protective Th1 cell-mediated immune responses in definitive hosts lung stage schistosomula are in the focus of intensive research. In vitro culture approaches in the past exhibited significant differences in gene expression profiles between lung stage schistosomula isolated from hosts and those cultured conventionally. Therefore, new approaches to culture schistosomula are of broad interest. In the present study, co-culture systems of schistosomula of Schistosoma japonicum and different vertebrate host cells were tested. Among these, human hepatic venous endothelial cells (ED25) turned out to be very suitable and interesting feeder cells. Compared with controls cultured in vitro or co-cultured with other cells, schistosomula co-cultured with ED25 cells shared more similarities in morphology and tegumental structures with schistosomula directly obtained from infected mice as microscopically determined. According to results from a suppression subtractive hybridization approach to compare transcriptional differences of co-cultured and host group or control group parasites, four candidate transcripts encoding cathepsin L precursor, heat shock protein 70, glyceraldehyde 3-phosphate dehydrogenase, and programmed cell death protein 10 were shown to be differently expressed among the three groups by real-time PCR. Sodium dodecyl sulfate polyacrylamide gel electrophoresis analysis finally confirmed not only congruent protein patterns but also interesting differences among the compared schistosomula groups. The co-culture system between schistosomula of S. japonicum and ED25 cells established in the present study improved existing cultivation attempts. Although some differences to host-derived schistosomula were still observed, co-culture with ED25 cells positively influenced parasite morphology and gene expression in a more host-like manner.

Ultrastructural alterations of juvenile Schistosoma japonicum harbored in mice following mefloquine administration.

The aim of the present study was to assess the ultrastructural alterations of juvenile Schistosoma japonicum induced by mefloquine. Mice infected with 14-day-old S. japonicum were treated orally with mefloquine at a single dose of 400 mg/kg. Between 8 h and 7 days after treatment, groups of two mice were sacrificed, and schistosomula were recovered for transmission electron microscopic observations. Ultrastructural damage was seen in the tegument, subtegumental musculature, parenchymal tissues, and gut epithelial cell. It was already prominent 8 h after drug administration and increased in severity rapidly to reach a peak 3 days post-treatment. Tegumental alterations were characterized by emergence of irregular and elongated cytoplasmic processes, which further fused together accompanied by indistinction of matrix and roughness of external plasma membrane. Meanwhile, in the subtegument, damage to the syncytium, swelling, and lysis of muscle bundles and parenchymal tissues were universal, which further aggravated the lesion on the tegument, followed by collapse or disintegration of damaged tegument to form numerous fragment or debris of cytoplasmic process detached from the worm surface. Severe damage to the gut epithelial cell was also observed 8 h post-mefloquine treatment, which included focal lysis of cytoplasm accompanied by formation of vacuoles and degeneration of mitochondria, emergence of enlarged and contracted nucleus with indistinct or focal disrupted nuclear membrane, and decrease in microvilli. All these alterations further increased in severity and reached the peak 3 days post-treatment. The findings of our study indicate that mefloquine exhibits a fast and potent ability to cause extensive ultrastructural damage to juvenile S. japonicum, which correlates with its high efficacy against juvenile schistosomes.

Worm morphology of Schistosoma japonicum using confocal laser scanning microscopy.

Male and female Schistosoma japonicum worms have dissimilar appearances in their final host. In this study, a morphometric and morphological assessment of whole worms derived from unisexual and mixed infections in mice was conducted using confocal laser scanning microscopy. Worms from mixed infections showed significant morphological changes between 15 and 25 days post-infection (PI). On the fifteenth day PI, 33% of males had formed the conspicuous gynecophoric canal, but only 8% of them had testicular lobes containing a few germinative cells; 13% of females had incipient ovaries with a few immature ovarian cells inside. On the twentieth day PI, the testicular lobes contained more germinative cells in all male worms, while female worms presented vitelline glands. On the twenty-fifth day PI, more germinative cells were observed in the male testicular lobes, and differentiated cells were present in the female ovaries. All worms had fully developed reproductive organs from 30 days PI onwards. Morphometric analysis showed significant differences between mixed and unisexual infections at 35 days PI. Ovaries of worms from unisexual infections contained cells in one stage of maturation and vitelline glands had undifferentiated cells. Our study of S. japonicum provides a detailed comparison of different morphological traits from worms of mixed and unisexual infections throughout development.

[Effects of male worm extraction on ultrastructure of cultured vitelline cells from Schistosoma japonicum].

OBJECTIVE: To study the effects of male worm extraction on the proliferation and metabolic activity of cultured vitelline cells from Schistosoma japonicum. METHODS: The 28-day S. japonicum worms were harvested by perfusion. The male and female of them were isolated after asepsis separately. The vitelline glands of female worms were isolated, and the vitelline cells were harvested by the cold digestion, then they were inoculated with the moist system method on the walls of culture flasks. The cultured vitelline cells were randomly divided into test and control groups. The cells in the control group were cultured in routine media and those in the test group were cultured in routine media containing male worm extraction of the concentration of 100 microg/ml. When cultured for 7 days, the cells in both groups were prepared for observation under a transmission electron microscope. RESULTS: In the test group, the numbers of mature vitelline cells were more than those in the control group; the cytoplasm and nucleus of mature vitelline cells were homogeneous stain. The nucleolus and rough-surfaced endoplasm reticula were clear, the intervals of vitelline globules were clear and their numbers could be counted. The number of mitochondria was small and the electron density was low; abundant rough-surfaced endoplasm reticula were found in the immature vitelline cells. There were more immature vitelline cells in the control group. The cytoplasm of the cultured vitelline cells took changes of balloon, especially in mature vitelline cells, vitelline globules fused each other, no mitochondria were found; in immature vitelline cells, the space between vitelline globules and the membrane surrounding them broadened gradually and vitelline globules were released and uncovered; rough-surfaced endoplasmic reticula enlarged, space vacuolated and the ribosomes dropped; and the number of lipid increased. CONCLUSION: The S. japonicum male worm extraction can stimulate the development and survival of the cultured vitelline cells.

Apoptosis governs the elimination of Schistosoma japonicum from the non-permissive host Microtus fortis.

The reed vole, Microtus fortis, is the only known mammalian host in which schistosomes of Schistosoma japonicum are unable to mature and cause significant pathogenesis. However, little is known about how Schistosoma japonicum maturation (and, therefore, the development of schistosomiasis) is prevented in M. fortis. In the present study, the ultrastructure of 10 days post infection schistosomula from BALB/c mice and M. fortis were first compared using scanning electron microscopy and transmission electron microscopy. Electron microscopic investigations showed growth retardation and ultrastructural differences in the tegument and sub-tegumental tissues as well as in the parenchymal cells of schistosomula from M. fortis compared with those in BALB/c mice. Then, microarray analysis revealed significant differential expression between the schistosomula from the two rodents, with 3,293 down-regulated (by ≥ 2-fold) and 71 up-regulated (≥ 2 fold) genes in schistosomula from the former. The up-regulated genes included a proliferation-related gene encoding granulin (Grn) and tropomyosin. Genes that were down-regulated in schistosomula from M. fortis included apoptosis-inhibited genes encoding a baculoviral IAP repeat-containing protein (SjIAP) and cytokine-induced apoptosis inhibitor (SjCIAP), genes encoding molecules involved in insulin metabolism, long-chain fatty acid metabolism, signal transduction, the transforming growth factor (TGF) pathway, the Wnt pathway and in development. TUNEL (terminal deoxynucleotidyl transferase dUTP nick end labeling) and PI/Annexin V-FITC assays, caspase 3/7 activity analysis, and flow cytometry revealed that the percentages of early apoptotic and late apoptotic and/or necrotic cells, as well as the level of caspase activity, in schistosomula from M. fortis were all significantly higher than in those from BALB/c mice.

Tegumental alterations of adult Schistosoma japonicum harbored in mice treated with a single oral dose of mefloquine.

OBJECTIVE: To observe the effect of mefloquine on the tegument of adult Schistosoma japonicum harbored in mice. METHODS: Twelve mice were each infected with 60-80 S. japonicum cercariae. At 35 days post-infection, 10 mice were treated orally with mefloquine at a single dose of 400 mg/kg. Two mice were sacrificed at 8 h, 24 h, 3 days, 7 days, and 14 days post-treatment respectively, and schistosomes were collected by the perfusion technique, fixed and examined under a scanning electron microscope. Schistosomes obtained from the remaining 2 untreated mice served as control. RESULTS: 8 h post-treatment, male and female schistosomes showed focal swelling of the worm body accompanied by extensive swelling, tough junction and fusion of tegumental ridges. Meanwhile, some of the sensory structures showed enlargement and part of them collapsed. 24 h after mefloquine administration, head portion of some male and female worms revealed high swelling accompanied by severe damage to oral sucker. 3 days post-treatment, focal swelling of worm body along the whole worm was universal. In some male and female worms, the damaged tegument fused together to form a large mass protruding from the tegumental surface. In addition, focal or extensive peeling of tegumental ridges was seen or collapse of enlarged sensory structure resulted in formation of hole-like appearance. 7 days post administration, focal swelling of worm body and damage to tegument induced by mefloquine were similar to those aforementioned, but focal peeling, collapse of enlarged sensory structures, and deformation of oral sucker in male and female worms were universal. 14 days post-treatment, individual male worm survived the treatment revealed normal appearance of tegumental ridges in head portion, although light focal swelling of worm body was still observed. CONCLUSION: Mefloquine causes focal swelling of worm body, extensive and severe damage to the tegument in adult S. japonicum.

Transmission electron microscopic observation on ultrastructural alterations in Schistosoma japonicum caused by mefloquine.

The purpose of the study was to explore the ultrastructural alterations of adult Schistosoma japonicum induced by mefloquine. Eight out of ten mice infected with 60-80 S. japonuicum cercariae for 35 days were treated orally with mefloquine at a single dose of 400 mg/kg. Four groups of two mice were killed at 8 h, 24 h, 3 days, and 7 days post-treatment, and schistosomes were collected by perfusion technique, fixed, and examined under a transmission electron microscope. Schistosomes obtained from the remaining two mice served as control. Eight hours after mefloquine 400 mg/kg was administered to the infected mice, various alterations in the tegument and subtegument tissues of both male and female worms were seen, which included focal lysis of tegmental matrix resulted in vacuole formation, decrease in rod-like and discoid-like secretary bodies, light swelling or focal lysis of musculature, extensive lysis of internal structure of sensory organelles, and appearance of vacuole or myelin-like structure in perinuclear cytoplasm of syncytium and epithelial cells. In vitelline cells of female worms, the most significant alteration was extensive lysis or fusion of vitelline balls in vitelline droplets and decrease in granular endoplasmic reticulum Twenty-four hours post-treatment, damage to the tegument and subtegument tissues had increased in severity. In male worms, the most prominent alterations were emergence of large vacuoles in the tegument, detachment of cytoplasmic process from the tegumental surface, focal collapse of internal structure of sensory organelle, and loss of definition of syncytium and gut epithelial cell. In female worms, focal lysis in tegumental matrix, musculature, and parenchymal tissues resulted in emergence of vacuole or myelin-like structure, reduction of nucleoli, fusion of partial nuclear membrane together with cytoplasm in epithelial cell, and lysis of interstitial tissues among the vitelline cells which were universal. Three and 7 days post-treatment, besides the aforementioned alterations, the significant damage to the male worms were disrupted outer plasma membrane detached from the cytoplasmic process, swelling of individual cytoplasmic process, extensive swelling and focal lysis in the musculature, parenchymal tissues and perinuclear cytoplasm of syncytium, accompanied by emergence of swollen mitochondria, vacuoles, and myelin-like structure, and severe damage to gut epithelial cell. In female worms, apart from disruption of outer plasmic membrane in cytoplasmic process, severe swelling of tegumental matrix accompanied by emergence of vacuoles, swollen mitochondria and myelin-like structure, focal lysis of heterochromatin and nucleoli, disappearance of microvilli in gut epithelial cells, and emergence of myelin-like structures in vitelline cells were observed. The results indicate that administration of mefloquine to mice infected with adult S. japonicum exhibits an extensive damage to the ultrastructure in tegument and subtegument tissues including syncytium, gut epithelial cells, parenchymal tissues, and vitelline cells of schistosomes.

Correlative and dynamic imaging of the hatching biology of Schistosoma japonicum from eggs prepared by high pressure freezing.

BACKGROUND: Schistosome eggs must traverse tissues of the intestine or bladder to escape the human host and further the life cycle. Escape from host tissues is facilitated by secretion of immuno-reactive molecules by eggs and the formation of an intense strong granulomatous response by the host which acts to exclude the egg into gut or bladder lumens. Schistosome eggs hatch on contact with freshwater, but the mechanisms of activation and hatching are poorly understood. In view of the lack of knowledge of the behaviour of egg hatching in schistosomes, we undertook a detailed dynamic and correlative study of the hatching biology of Schistosoma japonicum. METHODOLOGY/PRINCIPAL FINDINGS: Hatching eggs of S. japonicum were studied using correlative light and electron microscopy (EM). The hatching behaviour was recorded by video microscopy. EM preparative methods incorporating high pressure freezing and cryo-substitution were used to investigate ultrastructural features of the miracidium and extra-embryonic envelopes in pre-activated and activated eggs, and immediately after eggshell rupture. Lectin cytochemistry was performed on egg tissues to investigate subcellular location of specific carbohydrate groups. CONCLUSIONS/SIGNIFICANCE: The hatching of S. japonicum eggs is a striking phenomenon, whereby the larva is liberated explosively while still encapsulated within its sub-shell envelopes. The major alterations that occur in the egg during activation are scission of the outer envelope-eggshell boundary, autolysis of the cellular inner envelope, and likely hydration of abundant complex and simple polysaccharides in the lacunal space between the miracidial larva and surrounding envelopes. These observations on hatching provide insight into the dynamic activity of the eggs and the biology of schistosomes within the host.

Schistosoma japonicum: inhibition of Mago nashi gene expression by shRNA-mediated RNA interference.

RNA interference (RNAi) mediated by short interfering RNA (siRNA) is a powerful reverse genetics tool and holds enormous therapeutic potential for various diseases, including parasite infections. siRNAs bind their complementary mRNA and lead to degradation of their specific mRNA targets. RNAi has been widely used for functional analysis of specific genes in various cells and organisms. In this paper, we tested the potential of silencing the expression of the Mago nashi gene in Schistosoma japonicum by siRNAs derived from shRNA expressed by mammalian Pol III promoter H1. Schistosomula, transformed from cercariae by mechanical shearing of the tails, were electroporated with Mago nashi shRNA expression vector. Aliquots of parasites were harvested at days 1, 3, and 5 after electroporation, respectively. Levels of Mago nashi mRNA and protein were determined by RT-PCR and Western blotting analysis. The results showed that shRNA expressed from mammalian Pol III promoter H1 specifically reduced the levels of Mago nashi mRNA and proteins in S. japonicum. Changes in testicular lobes were apparent when parasites were introduced into mammalian hosts. Thus, vector-mediated gene silencing is applicable to S. japonicum, which provides a means for the functional analysis of genes in this organism.