Project description:In this study, high-performance liquid chromatography-tandem mass spectrometry was conducted to analyze the differences in the expression of F. hepatica

Project description:Fasciola hepatica is considered an emergent human pathogen, causing liver fibrosis or cirrhosis, conditions that are known to be direct causes of cancer. Some parasites have been categorized by WHO as carcinogenic agents such as Opisthorchis viverrini, a relative of F. hepatica. Although these two parasites are from the same class (Trematoda), the role of F. hepatica in carcinogenesis is unclear. We hypothesized that F. hepatica might share some features with O. viverrini and to be responsible to induce proliferation of host cells. We analyzed the recently released genome of F. hepatica looking for a gene coding a granulin-like growth factor, a protein secreted by O. viverrini (Ov-GRN-1), which is a potent stimulator of proliferation of host cells. Using computational biology tools, we identified a granulin-like molecule in F. hepatica, here termed FhGLM, which has high sequence identity level to Ov-GRN-1 and human progranulin. We found evidence of an upstream promoter compatible with the expression of FhGLM. The FhGLM architecture showed to have five granulin domains, one of them, the domain 3, was homologue to Ov-GRN-1 and human GRNC. The structure of the FhGLM granulin domain 3 resulted to have the overall folding of its homologue the human GRNC. Our findings show the presence of a homologue of a potent modulator of cell growth in F. hepatica that might have, as other granulins, a proliferative action on host cells during fascioliasis. Future experimental assays to demonstrate the presence of FhGLM in F. hepatica are needed to confirm our hypothesis.

Project description:Background The parasite Fasciola hepatica infects a broad range of mammals with impunity. Following ingestion of parasites (metacercariae) by the host, newly excysted juveniles (NEJ) emerge from their cysts, rapidly penetrate the duodenal wall and migrate to the liver. Successful infection takes just a few hours and involves negotiating hurdles presented by host macromolecules, tissues and micro-environments, as well as the immune system. Results Transcriptome and proteome analysis of F. hepatica metacercariae and NEJ revealed the rapidity and multitude of metabolic and developmental alterations this parasite undergoes to accomplish infection. We show that metacercariae are metabolically active, contrary to the view that this stage is dormant. Following ingestion, the NEJ expend vital energy stores and rapidly adjust their metabolic pathways to cope with their new increasingly anaerobic environment. Temperature increases induce neoblast proliferation and the remarkable up-regulation of genes associated with growth and development. Cysteine proteases synthesised by gastrodermal cells are secreted to facilitate invasion and tegumental transporters are varied to deal with osmotic/salinity changes. Major proteins of the total NEJ secretome include proteases, proteases inhibitors, anti-oxidants as well as an array of immunomodulators that likely disarm host innate immune effector cells. Conclusions The challenges of infection by F. hepatica parasites are met by rapid metabolic and physiological adjustments that expedite tissue invasion and immune evasion that facilitate growth, development and maturation. Our molecular analysis of the critical process of host invasion has identified key targets for future drug and vaccine strategies directed at preventing parasite infection.

Project description:Transcriptome of adult Fasciola hepatica

Project description:The miRNome of Fasciola hepatica juveniles endorse the existence of a reduced set of highly divergent miRNAs in parasitic flatworms.

Project description:Transcriptomic analysis of F. hepatica Southamerican drug resistant isolates

Project description:Fasciola hepatica (liver fluke) Transcriptome Assembly

Project description:Identification and Genetic Characterization of Fasciola spp. Isolated from Cattle in Saudi Arabia

Project description:This parasite is known as the "sheep liver fluke" and is a digenetic trematode

Project description:Pilot EST project for Fasciola hepatica