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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Exploration of interaction between Plasmodium falciparum Hsp70-x (PfHsp70-x) and human Hsp70-Hsp90 organizing protein (human Hop)

Mabate, Blessing 09 1900 (has links)
MSc (Biochemistry) / Department of Biochemistry / Malaria is a disease that claims about half a million lives annually, mainly children. There are 5 Plasmodium species that cause malaria; namely, P. falciparum, P. ovale, P. malariae, P. knowlesi and P. vivax. P. falciparum is the most virulent of them all. The parasite upregulates some heat shock proteins (Hsps) in response to stress it encounters during its life cycle. These Hsps play a major role in proteostasis. The drug resistance of P. falciparum to traditionally used remedies has led to a need for the development of novel drugs. Hsps have been implicated as antimalarial drug targets. Hsps act as molecular chaperones and some make complexes, which are important in facilitating protein folding. As an example, heat shock protein 70 (Hsp70) and heat shock protein 90 (Hsp90) form a functional complex through an adaptor protein, Hsp70-Hsp90 organizing protein (Hop). P. falciparum expresses six Hsp70s that are localized in different subcellular compartments. Amongst them, P. falciparum Hsp70-x (PfHsp70-x), is exported to the erythrocyte where it is implicated in host cell remodeling. PfHsp70-x possesses an ATPase domain, substrate binding domain and a C-terminal subdomain. PfHsp70-x possesses an EEVN motif on its C-terminus which is implicated in interactions with co-chaperones amongst them, Hop. Although some of the chaperone functions of PfHsp70-x have been reported, its interaction with human chaperones has not been investigated. The availability of PfHsp70-x in the infected erythrocyte cytosol presents a possibility that this protein may functionally cooperate with human Hsp90 via human Hop (human Hop). This hypothesis that PfHsp70-x interacts with human chaperones is strengthened by the absence of Hsp90 and Hop of parasite origin in the infected erythrocytes. The main aim of this study was to explore the chaperone activity of PfHsp70-x and its functional co-operation with human Hop. Recombinant PfHsp70-x (full length and EEVN deletion mutant) proteins were expressed in E. coli XL1 Blue cells and purified using nickel affinity chromatography. PfHsp70-x was found to be structurally comprised of mostly alpha helices and demonstrated heat stability based on circular dichroism (CD) spectrometry studies. It was established that the EEVN motif may be important for the ATPase activity of PfHsp70-x. However, it was established that the EEVN motif was not important in regulating the holdase chaperone (protein aggregation suppression) function of PfHsp70-x. Furthermore, PfHsp70-x and its mutant preferentially bound to asparagine-rich peptides. Parasite proteins have high asparagine repeat regions as compared to human proteins. In addition, preference for asparagine-rich proteins iii could signify that PfHsp70-x is biased towards binding proteins of parasitic origin. Surface plasmon resonance (SPR) analysis suggested that PfHsp70-x interacts with human Hop with relatively higher affinity compared to its EEVN minus derivative. In conclusion, the removal of the EEVN motif of PfHsp70-x does not affect the chaperone function of PfHsp70-x. However, the EEVN motif is essential for the interaction of PfHsp70-x with human Hop.
2

Establishment of interaction partners of Plasmodium falciparum heat shock protein 70-x(PfHsp 70-x)

Monyai, Florina Semakaleng 18 May 2018 (has links)
MSc (Biochemistry) / Department of Biochemistry / Plasmodium falciparum is a unicellular protozoan parasite that causes malaria in humans. The parasite is passed to humans through mosquito bites and migrates to the liver before it infects host erythrocytes. It is at the erythrocytic stage of development that the parasite causes malaria pathology. Malaria is characterized by the modification of host erythrocytes making them cytoadherent. This is as a result of formation of protein complexes (knobs) on the surface of the erythrocyte. The knobs that develop on the surface of the erythrocyte are constituted by proteins of host origin as well as some proteins that the parasite ‘exports’ to the host cell surface. Nearly 550 parasite proteins are thought to be exported to the infected erythrocyte. Amongst the exported proteins is P. falciparum heat shock protein 70-x (PfHsp70-x). Hsp70 proteins are known to maintain protein homeostasis. Thus, the export of PfHsp70-x may be important for maintaining protein homeostasis in the host cell. PfHsp70-x is not essential for parasite survival although is implicated in the development of parasite virulence. This is possibly through its role in facilitating the trafficking of parasite proteins to the erythrocyte as well as supporting the formation of protein complexes that constitute the knobs that develop on the surface of the infected erythrocyte. The main objective of the current study was to investigate protein interaction partners of PfHsp70-x. It is generally believed that PfHsp70-x interacts with various proteins of human and parasite origin. Potential candidate interactors include its protein substrates, Hsp70 co-chaperones such as Hsp40 members, and human Hsp70-Hsp90 organizing protein (hHop). The establishment of the PfHsp70-x interactome would highlight the possible role of PfHsp70-x in the development of malaria pathogenicity. Based on bioinformatics analysis, PfHsp70-x was predicted to interact with some exported P. falciparum Hsp40s, hHop and human Hsp90 (hHsp90). Recombinant forms of PfHsp70-x (full length and a truncated form that lacks the C-terminal EEVN motif implicated in co-chaperone binding) were expressed in E. coli BL21 Star (DE3) cells. Recombinant hHop and hHsp70 were expressed in E. coli JM109 (DE3) cells. The proteins were successfully purified using nickel affinity chromatography. Co-affinity chromatography using recombinant PfHsp70-x and immuno-affinity chromatography using PfHsp70-x specific antibody did not confirm the direct interaction of PfHsp70-x with human Hop. However, the direct interaction of hHop and PfHsp70-x has previously been validated in vitro and the current bioinformatics data support ii the existence of such a complex. PfHsp70-x was not stable in the cell lysate that was prepared and this could explain why its interaction with hHop could not be ascertained. However, taken together the evidence from a previous independent study, and the predicted interaction of PfHsp70-x with human chaperones suggests cooperation of chaperone systems which possibly facilitates the folding and function of parasite proteins that are exported to the infected erythrocyte. / NRF

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