Genome-wide identification of microRNA targets in the neglected disease pathogens of the genus Echinococcus.

MicroRNAs (miRNAs), a class of small non-coding RNAs, are key regulators of gene expression at post-transcriptional level and play essential roles in biological processes such as development. MiRNAs silence target mRNAs by binding to complementary sequences in the 3'untranslated regions (3'UTRs). The parasitic helminths of the genus Echinococcus are the causative agents of echinococcosis, a zoonotic neglected disease. In previous work, we performed a comprehensive identification and characterization of Echinococcus miRNAs. However, current knowledge about their targets is limited. Since target prediction algorithms rely on complementarity between 3'UTRs and miRNA sequences, a major limitation is the lack of accurate sequence information of 3'UTR for most species including parasitic helminths. We performed RNA-seq and developed a pipeline that integrates the transcriptomic data with available genomic data of this parasite in order to identify 3'UTRs of Echinococcus canadensis. The high confidence set of 3'UTRs obtained allowed the prediction of miRNA targets in Echinococcus through a bioinformatic approach. We performed for the first time a comparative analysis of miRNA targets in Echinococcus and Taenia. We found that many evolutionarily conserved target sites in Echinococcus and Taenia may be functional and under selective pressure. Signaling pathways such as MAPK and Wnt were among the most represented pathways indicating miRNA roles in parasite growth and development. Genome-wide identification and characterization of miRNA target genes in Echinococcus provide valuable information to guide experimental studies in order to understand miRNA functions in the parasites biology. miRNAs involved in essential functions, especially those being absent in the host or showing sequence divergence with respect to host orthologs, might be considered as novel therapeutic targets for echinococcosis control.

Nucleolin promotes in vitro translation of feline calicivirus genomic RNA.

Feline calicivirus depends on host-cell proteins for its replication. We previously showed that knockdown of nucleolin (NCL), a phosphoprotein involved in ribosome biogenesis, resulted in the reduction of FCV protein synthesis and virus yield. Here, we found that NCL may not be involved in FCV binding and entry into cells, but it binds to both ends of the FCV genomic RNA, and stimulates its translation in vitro. AGRO100, an aptamer that specifically binds and inactivates NCL, caused a strong reduction in FCV protein synthesis. This effect could be reversed by the addition of full-length NCL but not by a ΔrNCL, lacking the N-terminal domain. Consistent with this, FCV infection of CrFK cells stably expressing ΔrNCL led to a reduction in virus protein translation. These results suggest that NCL is part of the FCV RNA translational complex, and that the N-terminal part of the protein is required for efficient FCV replication.

Identification of proteins interacting with HSP70 mRNAs in Leishmania braziliensis.

HSP70 protein is involved in Leishmania differentiation, apoptosis, antimony-resistance and host-immune response. Therefore, this protein and the regulatory mechanisms of HSP70 gene expression are promising targets for therapeutic intervention against leishmaniasis. The regulation of mRNA expression in trypanosomatids operates mostly through the interaction of trans-acting proteins, and elements located in the untranslated regions of mRNAs. The aim of this work was to identify protein factors interacting specifically with the Leishmania braziliensis HSP70 mRNAs. Thus, the 5' UTR and the two types of 3' UTRs (UTR-I and UTR-II) from L. braziliensis HSP70 genes were used as baits in pull down assays using total protein extracts from parasites cultured at 26 or 35°C. The captured proteins were resolved by two-dimensional gel electrophoresis (2-DE) and identified by mass spectrometry (MS) analysis. As a result, 52 different proteins were identified based on their binding to the L. braziliensis HSP70-mRNAs. As expected, several of the identified proteins were related to RNA metabolism (27%) and translation process (7%). In addition, five hypothetical conserved proteins having motifs related with RNA interaction were also identified (9.6%). Nevertheless, unexpected proteins, apparently unrelated to the mRNA expression, were also identified. The biological significance of these and others L. braziliensis detected proteins, including the HSP70 itself, is discussed. BIOLOGICAL SIGNIFICANCE: For the first time, a riboproteomic analysis of the proteins interacting with the untranslated regions of the heat shock protein 70 (HSP70) mRNA from Leishmania braziliensis was carried out. This work provides new insights related to protein factors putatively involved in the regulation of HSP70 gene expression in L. braziliensis, and thereby, contributes to a better understanding of the parasite biology, and ultimately to the development of novel therapeutic interventions for controlling the important diseases caused by this parasite.