BSP Spring Meeting 2018
Schedule : Back to Ibrahim Alfayez
Poster
61

An Investigation of 5-Fluorouracil Resistance in Kinetoplast Parasites

Authors

I Alfayez1; K Alzahrani1; A Juma2; H de Koning21 Institute of Infection, Immunity & Inflammation, University of Glasgow, UK;  2 Institute of Infection, Immunity and Inflammation, University of Glasgow, UK

Discussion

Kinetoplastid parasites are a widespread group of flagellated protozoan pathogens and the defining feature of these parasites is the presence of a large mitochondrial DNA region known as the ‘kinetoplast’. The most common human diseases caused by kinetoplastid parasites are: 1) African trypanosomes (African sleeping sickness), 2) Leishmania species (leishmaniasis) and 3) Trypanosoma cruzi (Chagas' disease). The two types of nucleotides in the cell are purine and pyrimidine which have a very significant role in nucleic acid synthesis (DNA and RNA) and the metabolism of prokaryotic and eukaryotic cells. Kinetoplastid parasites are capable of salvage as well as synthesis of pyrimidine nucleotides. Kinetoplastid protozoa express many such membrane transport proteins which enable them to take up nutrients, efflux metabolites, regulate physiological concentrations, translocate various molecules, and import or export drugs. Resistance to 5-fluorouracil (5-FU) was generated in both T. b. brucei BSF s427- wild type and Leishmania mexicana promastigotes, yielding clonal lines Tbb-5FURes and Lmex-5FURes, respectively. The gene family encoding pyrimidine nucleobase transporters in kinetoplast parasites has not yet been discovered. We try to identify these using the antimetabolite 5-FU as a probe. Previous work in our laboratories (RNA-seq and RIT-seq) analyses of 5-FU resistant cell lines has identified candidate genes for pyrimidine transporters, including genes annotated as cation transporters (Tbb-CATs), fatty acid desaturase (Tbb-FAD and Lmex-FAD) and glucose transporters (2A, 1B and 1E). Apart from some glucose transporters, none of these potential transport genes have been previously characterised in protozoa and as such they are of interest in their own right as well. The main aim of this study therefore is to identify the gene(s) encoding the protozoan transporters of pyrimidines, particularly uracil, and assess candidate genes that may be involved in transport of, or sensitivity to, 5-FU. For this we will use reverse genetics approaches such as knockout constructs, targeted RNAi, and overexpression of the target genes. We determined the sensitivity of the 5-FU and 6-Azauracil (6-AU) in a sKO of Tbb-CATs and T. b. brucei 427 WT with the use of alamar blue drug sensitivity assay, and found no significant difference. We were unable to make a full double knockout for the CATs, as this led to the death of the cells, showing that their function is essential for the growth of BSF T. b. brucei in vitro. Also, the effect of increased gene expression of Tbb-FAD in Tbb-5FURes and Lmex-FAD inLmex-5FURes on 5-FU and 6-AU sensitivities were analysed using the alamar blue assay. Results showed no significant differences in the EC50 values of 5-FU and 6-AU between the overexpressing cell lines and the control lines. Efforts to identify the pyrimidine transporter genes are presently ongoing and identification of these genes will significantly improve our understanding of drug and nutrient transporters of kinetoplast parasites.

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British Society for Parasitology (BSP)

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