Project description:Trypanosoma congolense IL3000 parasites were grown in adult MF1 mice with parasites harvested on day 5 post infection ('ascend') or on day 6/7 post infection ('peak').

Project description:Trypanosomatid parasites undergo developmental regulation to adapt to the different environments encountered during their life cycle. In Trypanosoma brucei, a genome wide selectional screen previously identified a regulator of the protein family ESAG9, which is highly expressed in stumpy forms, a morphologically distinct bloodstream stage adapted for tsetse transmission. This regulator, TbREG9.1, has an orthologue in Trypanosoma congolense, despite the absence of a stumpy morphotype in that parasite species, which is an important cause of livestock trypanosomosis. RNAi mediated gene silencing of TcREG9.1 in Trypanosoma congolense caused a loss of attachment of the parasites to a surface substrate in vitro, a key feature of the biology of these parasites that is distinct from T. brucei. This detachment was phenocopied by treatment of the parasites with a phosphodiesterase inhibitor, which also promotes detachment in the insect trypanosomatid Crithidia fasciculata. RNAseq analysis revealed that TcREG9.1 silencing caused the upregulation of mRNAs for several classes of surface molecules, including transferrin receptor-like molecules, immunodominant proteins, and molecules related to those associated with stumpy development in T. brucei. Depletion of TcREG9.1 in vivo also generated an enhanced level of parasites in the blood circulation consistent with reduced parasite attachment to the microvasculature. The morphological progression to insect forms of the parasite was also perturbed. We propose a model whereby TcREG9.1 acts as a regulator of attachment and development, with detached parasites being adapted for transmission.

Project description:Evidence for viable and stable triploid Trypanosoma congolense parasites.

Project description:Transcriptome analysis of irradiated T evansi parasites The protozoan parasite Trypanosoma evansi is responsible for causing Surra in a variety of mammalian hosts over a wide geographical area. In order to identify which genes and processes are required to establish disease in mice, parasites were irradiated over a range using a Cobalt60 gamma source. A custom Trypanosome spp. array that covers the genomes of three trypanosome species, T. brucei, T. evansi and T. congolense was designed by Affymetrix with an average of 9300 whole gene transcripts from all three species were targeted. Irradiation differentially affected the abundance of gene transcripts in a dose-dependent trend. We present these genes as necessary for repair from irradiation damage, and essential for disease establishment in mice post irradiation.

Project description:African trypanosomes are dixenous eukaryotic parasites that impose a significant human and veterinary disease burden on sub-Saharan Africa. Diversity between species and life-cycle stages is concomitant with distinct host and tissue tropisms within this group. Here, the spatial proteomes of two African trypanosome species, Trypanosoma brucei and Trypanosoma congolense, have been mapped, each in mammalian and insect life-stages represented by bloodstream form (BSF) and procyclic form (PCF) respectively. Using the hyperLOPIT (hyperplexed localisation of organelle proteins by isotope tagging) methodology, this work has provided four highly comprehensive spatial proteomes.

Project description:The protozoan parasite Trypanosoma evansi is responsible for causing Surra in a variety of mammalian hosts over a wide geographical area. In order to identify which genes and processes are required to establish disease in mice, parasites were irradiated over a range using a Cobalt60 gamma source. A custom Trypanosome spp. array that covers the genomes of three trypanosome species, T. brucei, T. evansi and T. congolense was designed by Affymetrix with an average of 9300 whole gene transcripts from all three species were targeted. Irradiation differentially affected the abundance of gene transcripts in a dose-dependent trend. We present these genes as necessary for repair from irradiation damage, and essential for disease establishment in mice post irradiation.

Project description:Liver and Spleen RNA samples were compared between A/J and C57BL/6 mice and between C57BL/6 wildtype and TNF knockouts at five time points following Trypanosoma Congolense infection

Project description:Liver and Spleen RNA samples were compared between A/J and C57BL/6 mice and between C57BL/6 wildtype and TNF knockouts at five time points following Trypanosoma Congolense infection

Project description:Transcriptomic profiling of Trypanosoma congolense mouthpart parasites from naturally-infected flies

Project description:Trypanosoma congolense metacyclic RNAseq