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Fatty acid synthesis as a target for new antimalarials

Urch, Jonathan Edward 2004. Fatty acid synthesis as a target for new antimalarials. PhD Thesis, Cardiff University.

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Malaria can be regarded as one of the world's worst health problems and its incidence is rising inexorably. It already accounts for the deaths of approximately three children every minute. This situation is exacerbated by the increased frequency of parasite resistance to current antimalarial agents and necessitates the development of new drugs to combat this disease P. falciparum possesses a plastid-like organelle, termed the apicoplast, which contains a small, highly reduced 35kb genome encoding tRNA, DNA polymerases and ribosomal proteins. Nuclear proteins are targeted to the apicoplast using clearly defined N-terminal signal and target peptide sequences. This led to the discovery that the apicoplast may be the site of at least two anabolic pathways isoprenoid synthesis and Type II fatty acid synthesis (FAS). This system is also present in bacteria and plants and differs significantly from the Type I FAS system found in humans. This makes the pathway an attractive target for novel antimalarials. Furthermore, the antibiotic thiolactomycin, inhibits the growth of bacteria via inhibition of Type II FAS. This project describes the characterisation of pfFabF and pfFabH, the p-ketoacyl-ACP synthase enzymes in the Type II FAS pathway of P. falciparum. One of these proteins, pfFabF, was shown to be the target of thiolactomycin inhibition. This enzyme was also capable of catalysing the final step of the unsaturated FAS pathway. Thiolactomycin derivatives synthesised in this project were tested against cultures of the parasite and both the condensing enzymes of P. falciparum. Significant improvements in the inhibitory activity against parasite cultures and one of the condensing enzymes were achieved compared to thiolactomycin. Although the inhibitory effects of these compounds was only in the micromolar range, this study demonstrates that thiolactomycin derivatives may provide lead compounds for the inhibition of P. falciparum by targeting either of the p-ketoacyl-ACP synthase proteins.

Item Type: Thesis (PhD)
Status: Unpublished
Schools: Biosciences
ISBN: 9781303200571
Date of First Compliant Deposit: 30 March 2016
Last Modified: 10 Oct 2017 15:29

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