Project description:Oxamniquine resistance evolved in the human blood fluke (Schistosoma mansoni) in Brazil in the 1970s. We crossed parental parasites differing ~500-fold in drug response, determined drug sensitivity and marker segregation in clonally-derived F2s, and identified a single QTL (LOD=31) on chromosome 6. A sulfotransferase was identified as the causative gene using RNAi knockdown and biochemical complementation assays and we subsequently demonstrated independent origins of loss-of-function mutations in field-derived and laboratory-selected resistant parasites. These results demonstrate the utility of linkage mapping in a human helminth parasite, while crystallographic analyses of protein-drug interactions illuminate the mode of drug action and provide a framework for rational design of oxamniquine derivatives that kill both S. mansoni and S. haematobium, the two species responsible for >99% of schistosomiasis cases worldwide. mRNA profiles from adult worms resistant (HR, 3 replicates) and susceptible (LE, 2 replicates) to the oxamniquine drug were compared to identify differential expression in genes related to drug resistance

Project description:Schistosomiasis increases the risk of HIV acquisition in women, by mechanisms that are incompletely defined. Our objective was to determine how the cervical environment is impacted by Schistosoma haematobium or S. mansoni infection using mucosal gene expression and cervicovaginal lavage cytokine levels. We recruited women with/without S. haematobium and with/without S. mansoni infections from separate villages in rural Tanzania, as determined by urine and stool microscopy and serum circulating anodic antigen. RNA was extracted from cervical cytobrush samples for transcriptome analysis. Cytokine levels were measured by magnetic bead immunoassay. In the S. haematobium village, 110 genes were differentially expressed in the cervical mucosa of women with (n=18) versus without (n=39) S. haematobium. Among the 27 cytokines analyzed in cervicovaginal lavage fluids, interleukin 15 (IL-15) was lower in women with S. haematobium (62.8 versus 102.9 pg/mL, adjusted p=0.0013). Differences were not observed in the S. mansoni setting between women with (n=11) or without (n=29) S. mansoni. We demonstrate altered cervical mucosal gene expression and lower IL-15 levels in women with S. haematobium but not S. mansoni, which may impact HIV acquisition and cancer risks. Studies to determine effects of anti-schistosome treatment on these mucosal alterations are needed.

Project description:Schistosoma mansoni is one of the most common etiological agents responsible for the disease schistosomiasis. More than 200 million people suffer from this disease making it the most severe tropical disease after malaria in terms of morbidity. Praziquantel (PZQ) is the treatment of choice for schistosomiasis and has been used almost exclusively to treat the disease since the 1970s. However, while the drug is lethal for sexually mature schistosomes, it is ineffective against juveniles. Thus, while morbidity can be eased, a cure is difficult to achieve. As a result there is an urgent need to develop a new generation of anti-schistosomal drugs, a task that will be made easier by understanding the mechanism of action of PZQ. As yet, neither the molecule to which PZQ binds nor the means by which it kills mature schistosomes is known. The overarching aim of this study was to understand the molecular basis of PZQ sensitivity in S. mansoni. We believe that juvenile worms survive PZQ treatment in vivo due to the induction of, as yet, unidentified protective molecular pathways. To address this hypothesis juvenile and adult PR1 S. mansoni were treated in vitro with sub-lethal concentrations of PZQ. mRNA was extracted from replicate samples, cRNA prepagreen and labeled with cyanine dyes for analysis using a 44K S. mansoni microarray. The data was then analyzed using Genespring. Our findings suggest that a number of genes associated with drug transport, iron homeostasis and apoptosis are induced in juvenile but not adult schistosomes and that this allows the juvenile worms to protect themselves against the lethal effects of PZQ long enough for the drug to be metabolized by the human host.

Project description:Schistosomes infect more than 200 million of the world's poorest people. These parasites live in the vasculature, producing eggs that spur a variety of chronic, potentially life-threatening, pathologies exacerbated by the long lifespan of schistosomes, that can thrive in the host for decades. How schistosomes maintain their longevity in this immunologically hostile environment is unknown. Here, we demonstrate that somatic stem cells in Schistosoma mansoni are biased towards generating a population of cells expressing factors associated exclusively with the schistosome host-parasite interface, a structure called the tegument. We show cells expressing these tegumental factors are short-lived and rapidly turned over. We suggest that stem cell-driven renewal of this tegumental lineage represents an important strategy for parasite survival in the context of the host vasculature.

Project description:We report the transcriptional effects of long-term stem cell depletion in Schistosoma mansoni

Project description:To date, 115 miRNAs genes (precursors) have been registered in miRBase for Schistosoma mansoni, and 56 for Schistosoma japonicum (225 and 79 mature miRNA, respectively). miRNAs have not been systematically described in Schistosoma haematobium. Our aim in this study was to systematically characterize and quantify miRNA in Schistosoma by species, developmental stage and sex and to test the usefulness of this characterization in biomarker discovery for infection. We found read evidence for the expression of 65/225 (36 precursors) known S. mansoni miRNA and 76/79 (55 precursors) of the known S. japonicum miRNA. We report a handful of novel miRNA in each of these species and provide a curated list of S. haematobium miRNA. We report differences of miRNA expression by species, sex and developmental stages. Lastly, we present preliminary results of miRNA deep sequencing from infected specimens (mouse and human).

Project description:Schistosoma mansoni is one of the most common etiological agents responsible for the disease schistosomiasis. More than 200 million people suffer from this disease making it the most severe tropical disease after malaria in terms of morbidity. Praziquantel (PZQ) is the treatment of choice for schistosomiasis and has been used almost exclusively to treat the disease since the 1970s. However, while the drug is lethal for sexually mature schistosomes, it is ineffective against juveniles. Thus, while morbidity can be eased, a cure is difficult to achieve. As a result there is an urgent need to develop a new generation of anti-schistosomal drugs, a task that will be made easier by understanding the mechanism of action of PZQ. As yet, neither the molecule to which PZQ binds nor the means by which it kills mature schistosomes is known. The overarching aim of this study was to understand the molecular basis of PZQ sensitivity in S. mansoni. We believe that juvenile worms survive PZQ treatment in vivo due to the induction of, as yet, unidentified protective molecular pathways. To address this hypothesis juvenile and adult PR1 S. mansoni were treated in vitro with sub-lethal concentrations of PZQ. mRNA was extracted from replicate samples, cRNA prepagreen and labeled with cyanine dyes for analysis using a 44K S. mansoni microarray. The data was then analyzed using Genespring. Our findings suggest that a number of genes associated with drug transport, iron homeostasis and apoptosis are induced in juvenile but not adult schistosomes and that this allows the juvenile worms to protect themselves against the lethal effects of PZQ long enough for the drug to be metabolized by the human host. 42 days post exposure (DPE) male schistosomes were exposed to 0 and 1 µg/mL praziquantel (PZQ) for 1 or 20 h and 10 µg/mL PZQ for 1 h. 42 DPE female schistosomes were exposed to 0, 1 and 10 µg/mL PZQ for 20 h. 28 DPE mixed-sex schistosomes were exposed to 0, 1 and 10 µg/mL PZQ for 1 and 20 h. All experiments were performed in biological triplicates. The 0 µg/mL PZQ exposures were used as controls to the appropriate groups and a universal reference was used in all experiments that was comprised of RNA derived from 100 mixed sex, unexposed 42 DPE schistosomes spiked with 0.5 % (v/v) RNA isolated from 42 DPE mixed sex worms exposed to 10 µg/mL PZQ, 0.5 % (v/v) RNA isolated from 28 DPE worms exposed to 10 µg/mL PZQ and 0.5 % (v/v) RNA isolated from 28 DPE worms unexposed to PZQ. Transcriptional response to praziquantel exposure by time and concentration

Project description:Transcriptional profile of BS-90 snails injected with a cocktail of four FREP3 specific 27-mer DSiRNA oligos and two hours later exposed to S. mansoni miricidia. Compared to BS-90 snails injected with a cocktail of three GFP specific DSiRNA oligos and two hours later exposed to S. mansoni miricidia. Experiments were done over the course of 49 days. Snails were collected (10each) at 2 and 4 dpe to S. mansoni for comparison.

Project description:Transcriptional profiling of S. mansoni adult females treated with Herbimycin A (4.5 µM ) or TGF beta receptor type I kinase inhibitor (TRIKI, 300 nM) or a combined treatment with both inhibitors (Herbimycin A 4.5µM and TRIKI 300nM) vs. Non-treated S.mansoni adult females (DMSO during 48h)

Project description:Transcriptional profile of snails exposed to irradiated E. paraensei miricidia and four days later challenged with S. mansoni miricidia. Compared to snails exposed to only irradiated E. paraensei miricidia.