Characterization of microRNA expression profiles in Leishmania-infected human phagocytes.

Leishmania are intracellular protozoa that influence host immune responses eliciting parasite species-specific pathologies. MicroRNAs (miRNAs) are short single-stranded ribonucleic acids that complement gene transcripts to block protein translation and have been shown to regulate immune system molecular mechanisms. Human monocyte-derived dendritic cells (DC) and macrophages (MP) were infected in vitro with Leishmania major or Leishmania donovani parasites. Small RNAs were isolated from total RNA and sequenced to identify mature miRNAs associated with leishmanial infections. Normalized sequence read count profiles revealed a global downregulation in miRNA expression among host cells following infection. Most identified miRNAs were expressed at higher levels in L. donovani-infected cells relative to L. major-infected cells. Pathway enrichments using in silico-predicted gene targets of differentially expressed miRNAs showed evidence of potentially universal MAP kinase signalling pathway effects. Whereas JAK-STAT and TGF-ß signalling pathways were more highly enriched using targets of miRNAs upregulated in L. donovani-infected cells, these data provide evidence in support of a selective influence on host cell miRNA expression and regulation in response to differential Leishmania infections.

Indoleamine 2,3-dioxygenase (IDO) induced by Leishmania infection of human dendritic cells.

Dendritic cells (DC) play a pivotal role in regulating immunity, establishing immunologically privileged tissue microenvironments and maintaining homoeostasis. It is becoming increasingly clear that one key mechanism that mediates many DC functions is production of the immunomodulatory enzyme indoleamine 2,3-dioxygenase (IDO). For pathogens that cause chronic infection, exploitation of host DCs is a solution to establish and persist within a host. Leishmania parasites cause a range of clinical manifestations, all involving chronic infection, and are proficient at avoiding immune responses. We demonstrate here that infection of human myeloid-derived DC with L. major and L. donovani induces IDO expression using a mechanism that involves autocrine or paracrine stimulation with a DC-secreted factor. Leishmania-induced IDO suppresses allogeneic and tetanus toxoid-specific lymphocyte proliferation, an inhibition that is reversed with the IDO inhibitor, 1-methyl tryptophan (1-MT). Furthermore, IDO expression by human DC does not require live Leishmania infection, as parasite lysates also up-regulate IDO mRNA production. Our data suggest that one mechanism Leishmania parasites utilize to circumvent immune clearance may be to promote the induction of IDO among host DC within the infection microenvironment.

Tick genomics: the Ixodes genome project and beyond.

Ticks and mites (subphylum Chelicerata; subclass Acari) include important pests of animals and plants worldwide. The Ixodes scapularis (black-legged tick) genome sequencing project marks the beginning of the genomics era for the field of acarology. This project is the first to sequence the genome of a blood-feeding tick vector of human disease and a member of the subphylum Chelicerata. Genome projects for other species of Acari are forthcoming and their genome sequences will likely feature significantly in the future of tick research. Parasitologists interested in advancing the field of tick genomics research will be faced with specific challenges. The development of genetic tools and resources, and the size and repetitive nature of tick genomes are important considerations. Innovative approaches may be required to sequence, assemble, annotate and analyse tick genomes. Overcoming these challenges will enable scientists to investigate the genes and genome organisation of this important group of arthropods and may ultimately lead to new solutions for control of ticks and tick-borne diseases.