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Title: A genetic analysis of two strains of Plasmodium chabaudi adami that differ in growth and pathogenicity
Author: Gadsby, Naomi Jane
ISNI:       0000 0004 2727 1345
Awarding Body: University of Edinburgh
Current Institution: University of Edinburgh
Date of Award: 2008
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Malaria is still a significant public health problem in the Tropics, with an estimated 200 million cases a year and more than 1 million deaths, mostly in young children in sub-Saharan Africa. Plasmodium falciparum is the parasite responsible for the majority of the morbidity and mortality due to malaria. We know from the historical use of malaria to treat neurosyphilis that there were several different strains of P. falciparum, some of which were more pathogenic and had higher multiplication rates than others. High multiplication rates of P. falciparum isolates have been associated with severe disease in Thailand, but not in Kenya or Mali. In determining what differences exist between fast- and slow-growing malaria parasites, and understanding their relationship with clinical outcome, we may discover a way of targeting those parasites that cause most disease. This thesis describes a genetic analysis of the determinants of growth and pathogenicity in the rodent malaria parasite, Plasmodium chabaudi. The use of rodent malaria parasite strains for genetic analysis has several experimental, ethical and financial advantages over the use of human malaria parasites. In addition, rodent malaria parasite strains also vary significantly in their growth and pathogenicity, making them excellent candidates for a genetic analysis of these characteristics. The first section of this thesis is concerned with the characterisation of the growth, pathogenicity and transmissibility of two strains, DS and DK, of the rodent malaria parasite P. c. adami. The DS strain is fast-growing, pathogenic, non-selective in its invasion of red blood cells and a poor transmitter to mosquitoes. The DK strain is slow-growing, non-pathogenic, selective in its invasion of red blood cells and a good transmitter to mosquitoes. In the second section of this thesis is a detailed study of the growth characteristics of DS and DK in mixed infections, relative to their growth in single infections. Both sections provide information relevant for the main objective of this thesis, but also contribute to the body of work on pathogenicity and transmissibility, and pathogenicity and strain behaviour in mixed infections, which has been carried out in rodent malaria parasites to-date. The third section of the thesis contains the results of a genetic analysis of the difference in growth between P. c. adami strains DS and DK, using the Linkage Group Selection (LGS) technique. On several occasions, DS and DK were crossed in the mosquito vector and, following selection for fast growth in mice, the cross progeny were initially screened with genome-wide, quantitative AFLP markers. Markers specific to the slow-growing parent DK which were greatly reduced in intensity after selection were found on P. chabaudi chromosomes 6, 7 and 9. This result suggests that the difference in growth between the two strains is determined by multiple genetic loci. The selection on chromosomes 7 and 9 was then looked at in greater detail, using SNP-based markers quantified by Pyrosequencing™. It was found, consistently, that a region at one end of DS chromosome 9 was inherited as a single, non-recombining unit in cross progeny selected for fast growth. As this was the region most strongly selected against, it suggests that a gene (or genes) in this region has a major role in the determination of growth characteristics, and therefore pathogenicity, in P. c. adami. Narrowing down this region further, in order to identify the candidate gene(s), remains a key future objective.
Supervisor: Carter, Richard. Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID:  DOI: Not available
Keywords: Biology ; Immunology ; Malaria ; Plasmodium falciparum ; pathogenicity