Project description:We present a comparative analysis of sex-specific tegument proteins of paired or virgin Schistosoma mansoni. By apply a new and highly sensitive workflow, detection of even low abundance proteins from the worm was achieved Therefore, a streptavidin-biotin affinity purification technique in combination with single pot solid-phase enhanced sample preparation was established for subsequent LC-MS/MS analysis. We were able to identify 1519 tegument proteins for male and female as to virgin and paired worms. Sex-specific proteins were screened, present in both virgin and paired adult schistosomes to reduce the impact of mating. Bioinformatic analysis revealed an involvement of female-specific tegument proteins in signaling pathways of cellular processes and antioxidant mechanisms. Male-specific proteins were found to be enriched in processes linked to phosphorylation and signal transduction. This suggests a task sharing between the sexes that might be necessary for survival in the host. Our datasets provide a basis for further studies to understand and ultimately decipher the strategies of the two worm sexes to evade the immune system.

Project description:Although praziquantel (PZQ) has been used to treat schistosomiasis for over 20 years its mechanism of action remains unknown. We have developed an assay based on the transcriptional response of S. mansoni PR-1 to heat shock to confirm that while 6 week post infection (p.i.) schistosomes are sensitive to PZQ, 4 week p.i. schistosomes are not. Further, we have used this assay to demonstrate that this sensitivity develops between days 37 and 40 p.i. PZQ linked to the fluorophore BODIPY appears to easily enter the cells of intact 4 and 6 week p.i. schistosomes as well as mammalian NIH 3T3 cells and together, these data suggest that the differential effects of PZQ is not based on cell exclusion but probably due the differential expression of a target molecule at 6 weeks p.i. A transcriptomal analysis of gene expression between 4 and 6 weeks p.i. revealed 607 candidate genes whose products are potential PZQ targets. A comparison of this gene list with that of genes expressed by PZQ sensitive miracidia reduced this target list to 247 genes, including a number involved in aerobic metabolism and cytosolic calcium regulation. Finally, we also report the effect of an in vitro sub-lethal exposure of PZQ on the transcriptome of S. mansoni PR-1. Annotation of genes differentially regulated by PZQ exposure suggests that schistosomes may undergo a transcriptomic response similar to that observed during oxidative stress. Keywords: cell type comparison, time course Cell type comparison: Four biologial replactes of schistosomes harvasted 4 and 6 week post-infection were performed. Time course: Four samples performed in duplicate for exposure to a sub-lethal dose of PZQ (50 M-BM-5g/ml) at time points 0, 30, 60, and 240 min over a common reference sample.

Project description:Transcriptional profile of snails with induced acquired resistance (exposed first to irradiated E. paraensei miricidia) after secondary challenge with viable miricidia. Compared to snails exposed to irradiated miricidia only or to viable miricidia only. Experiments were done over the course of 16 days, with 8 day intervals between sensitization and secondary challenge. Keywords: Dose response Each replicate is comprised of 5 individual snails from the specified treatment group. Three replicates of each treatment were analyzed on the Snail oligo array.

Project description:Transcriptional profiles ofBS-90 snails sized 8-12mm exposed to E. paraensei (BS-90 are susceptible) and S. mansoni (BS-90 are resistant) and unexposed controls Keywords: Dose response Five individual snails from the treatment group were pooled to make up 3 repliactes. After exposure to the indicated parasite snails were collected and RNA was isolated at 12hours, 1, 2, 4, 8, 16, and 32 days. Three unexposed control groups were also analyzed.

Project description:Transcriptional profiles of snails sized 12-20mm exposed to E. paraensei and unexposed controls Keywords: Dose response Five individual snails from the treatment group were analyzed at 12hours, 1, 2, 4, 8, and 16 days. Five unexposed control snails were also analyzed.

Project description:The highly prevalent gut helminth, Ascaris suum, compromise pigs health and reduce farm productivity worldwide. The closely related human parasite, A. lumbricoides, infects more than 800 million people and causes approximately 1.31 million disability-adjusted life years. The humaninfections are often chronic by nature and the parasites have a profound ability to modulate their hosts immune responses. This study provides the first in-depth characterization of extracellular vesicles (EVs) from different developmental stages and body parts of A. suum and their potential role in the host-parasite interplay. The release of EVs during the third larval stage (L3), L4 and adults was demonstrated by Transmission Electron Microscopy, and the uptake of EVs from adult A. suum in intestinal epithelial cells followed by accumulation of RNA in the nucleus by confocal microscopy. Next Generation Sequencing of EV-derived mi/m?RNA identified a number of micro(mi)RNAs from the different A. suum life stages and body parts and potential transcripts of potential host immune targets, such as IL-13, IL-25 and IL-33, were identified. Proteomics of EVs identified several proteins with immunomodulatory properties and other proteins previously shown to be associated with parasite EVs. Furthermore, EVs from A. suum body fluid stimulated the production of the pro-inflammatory cytokines IL-6 and TNF-α in dendritic cells in vitro. Taken together, these results suggest that A. suum EVs and their cargo may play a role in host-parasite interactions. This knowledge may pave the way for novel strategies for helminth infection control and knowledge of their immune modulatory role.

Project description:Time series analysis of the transcriptional responses of Biomphalaria glabrata throughout the course of intramolluscan development of Schistosoma mansoni and Echinostoma paraensei. Time series transcriptional profiling of Biompharlia glabrata comparing control uninfected M line B.glabrata with trematdoe infected groups. The experimental groups are: Echinostoma paraensei infected and Schistoma mansoni infected at 12 hours(0.5day), 1 day, 2 days, 4 days, 8 days, 16 days adn 32 days post infection. Samples: control and two trematode infected B.glabrata in a time series: 0.5, 1, 2, 4, 8, 16 and 32 days post exposure were analyzed in triplicate Stress and immune response

Project description:Schistosoma mansoni is the major causative agent of schistosomiasis in the Americas. This parasite takes advantage from host signaling molecules such as cytokines and hormones to complete its development inside the host. TNF-α is the most important cytokine involved in the inflammatory response when cercaria, the infective stage, penetrates the human skin and a severe inflammatory response is started. In this work the authors describe the complete sequence of a possible TNF-α receptor in S. mansoni and detect that the receptor is most highly expressed in cercaria among all life cycle stages. In an attempt to mimic the situation at the site of skin penetration cercariae have been mechanically transformed in vitro into schistosomula and immediately exposed to human TNF-α . Exposure of these early schistosomula to the human hormone caused a large-scale change in the expression of parasite genes. Exposure of adult worms to human TNF-α caused gene expression changes as well, although the set of parasite altered genes was entirely different from that of schistosomula. This work increases the number of known signaling pathways of the parasite, and opens new perspectives into understanding the molecular components of TNF-α response as well as possibly interfering with parasite-host interaction. A platform previously designed by our group (PMID: 17517391) was used. 300 ng of RNA from adult schistosomes treated with TNF and its control were used for the hybridization. RNA amplification and labeling kit (Agilent Technologies) were used according to manufacturer´s instructions. Each sample was separately labeled with either Cy3 or Cy5. 825 ng cRNA from each amplification were used for hybridization; self-self experiments were performed. Washing and scanning procedures were according to the manufacturer´s instructions using GenePix 4000B scanner (Molecular Devices, Sunnyvale, CA, USA). Data was extracted using Feature Extraction software (Agilent Technologies). We calculated a virtual Log2 ratio between intensities of TNF-α Treated/Control, for each gene. With these ratios, we used two different approaches for SAM statistical analyses. SAM one-class approach was used to identify genes with sustained changes in their expression levels along the entire time period of observation (1 and 24 h); SAM two-class approach was used to identify genes with transient changes in their expression levels. In both cases, genes were considered differentially expressed at q-value � 0.05. Hierarchical clustering of selected genes was generated using Spotfire Decision Site software (TIBCO Software Inc., Palo Alto, CA, USA). For a gene that was represented in the array by multiple probes, we picked a single representative probe by selecting the probe with the highest absolute value of the Log2 ratio between intensities of TNF-α Treated/Control.

Project description:Effects of several nemorosone concentrations on three pancreatic cancer cell lines with different degrees of differentiation were studied

Project description:Anoplocephala perfoliata is a common tapeworm in horse with an ability to cause colic and increase mortality. At present, current diagnostic methods are not sensitive enough to detect A. perfoliata and immunoreactive excretory/secretory (E/S) proteins produced by this parasite, which comprise the most promising candidates for diagnostic tests. Here, we compared the E/S proteins produced by A. perfoliata worms of two different physiological states (small- and large-sized worms) in vitro by label-free quantitative (LFQ) proteomics with protein database composed of proteins encoded by Hymenolepis diminuta, Echinococcus multilocularis/granulosus and Taenia aseatica for protein identifications. The quantitative proteomics data was complemented with one-dimensional gel electrophoresis combined with immunoblotting using antisera from horses diagnosed positive and negative for this tapeworm. Protein bands cross-reacting most efficiently with the anti-A. perfoliata antibodies were subjected to in-gel digestion with LC-MS/MS identification. Both the non-gel and gel-based proteomic results were compared to propose a list of candidate proteins for further studies. These proteins will be validated for their suitability as diagnostic markers specific to cestodes and A. perfoliata.