Masters Degrees (Haematology and Cell Biology)
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Browsing Masters Degrees (Haematology and Cell Biology) by Subject "Blood -- Coagulation"
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Item Open Access Characterization of a human inhibitory antibody fragment against tissue factor(University of the Free State, 2011-11) Vermeulen, Jan-G.; Meiring, S. M.; Van Heerden, E.English: Tissue factor is a transmembrane glycoprotein that functions as the primary initiator of coagulation in response to mechanical or chemical damage. Due to its key position within the coagulation cascade it also plays an important role in the pathology of thrombosis and thrombotic complications associated with cardiovascular disease as well as in non-thrombotic disorders and diseases such as obesity, diabetes, cancer and HIV-AIDS. Recognising the potential in tissue factor inhibition as a novel approach to antithrombotic therapy, our laboratory utilized phage display technology in a previous study, in order to identify a 26 kDa single chain antibody fragment which functionally inhibits human tissue factor. In the current study, the tissue factor inhibitory single chain variable fragment (TFIscFv) was expressed by means of the pIT2 plasmid vector by Escherichia coli HB2151. This expression system was utilised in an up-scale setting in an attempt to improve the TFI-scFv yield. Although functional TFI-scFv was successfully purified from the culture media by means of Protein A affinity chromatography, the process was hampered by large sample volumes, low levels of expression as well as the high cost involved in Protein A purification. Due to an initial focus on improving TFI-scFv yield through the processing of larger sample volumes rather than the improvement of the expression system, immobilised nickel affinity chromatography was investigated as a more cost effective alternative to Protein A affinity chromatography. It was found that the original expression system was incompatible with immobilised nickel affinity chromatography as the protein was expressed into the culture media. The culture media contained nickel chelating elements that stripped the nickel from the column and consequently prevented TFIscFv purification. Subsequently the TFI-scFv gene was isolated, cloned into an over-expression system and modified to redirect the expression to the bacterial cytoplasm. Although TFI-scFv was successfully redirected to the bacterial cytoplasm and purified by means of nickel affinity chromatography, it was found that expression was hampered due to the presence of rare codons. The detrimental effect of rare codons on TFI scFv yield was addressed through the modification of the expression host by the coexpression of the pRARE plasmid as well as by the rare codon optimization of the TFI-scFv gene sequence for expression in E. coli. Although the co-expression of the pRARE plasmid only slightly improved TFI-scFv yield, a sufficient amount of TFIscFv was generated for functional testing. The modified TFI-scFv displayed a similar inhibition effect with reference to the original construct. The rare codon optimisation resulted in a substantial increase in TFI-scFv yield but consequently resulted in the loss of solubility and the production of inclusion bodies. Although the loss of TFIscFv solubility is unwanted, the high level of expression achieved provides an ideal platform for the further development and characterization TFI-scFv in animal thrombosis models.Item Open Access The effect of inflammatory cytokines and coagulation factors on Von Willebrand factor synthesis and cleavage(University of the Free State, 2012-02) Allers, Werner Ernst; Meiring, S. M.When injured, endothelial cells secrete inflammatory cytokines such as interleukin-6 (IL-6), interleukin-8 (IL-8), and tumour necrosis factor-α (TNF-α). These inflammatory cytokines stimulate the endothelial release of ultra large Von Willebrand factor (ULVWF) multimers that bind platelets to form thrombi in small vessels. The interaction between thrombosis and inflammation is not fully elucidated. A disintegrin-like metalloprotease with thrombospondin type I repeats-13 (ADAMTS-13) is freshly released from Weibel-Palade bodies of endothelial cells into the plasma and it cleaves the ultra large and hyperactive VWF multimers into smaller and less active forms. These VWF multimers mediate the initial adhesion of activated platelets, the first step in both inflammation and thrombosis. This process may be affected by the amount of ULVWF released and the processing capacity of ADAMTS-13. Little is known about the initial onset of HIV-associated TTP, a fatal thrombotic disease that is characterised by the absence of ADAMTS-13. The mechanisms underlying the initial onset and/or burst of TTP episodes still remain poorly understood. Interrelated components, such as coagulation factors and inflammatory cytokines, all contribute to the development of TTP, since increased levels of cytokines interleukin-6 and tumour necrosis factor and the coagulation factor, tissue factor is measured in these patients. Therefore, we hypothesised that certain inflammatory cytokines and coagulation factors released during inflammation may stimulate the release of VWF simultaneously while inhibiting the synthesis of ADAMTS-13, which results in an acquired deficiency of plasma ADAMTS-13 and ultimately in a TTP episode. Our aim was to examine the effects of inflammatory cytokines and coagulation factors such as tissue factor and thrombin as well as combinations thereof on the release and cleavage of ULVWF by cultured human umbilical vein endothelial cells (HUVECs). HUVECs were treated with cytokines, IL-6, IL-8, and TNF-α and coagulation factors, tissue factor and thrombin, and their combinations, for 24 hours under static conditions. The cells were then exposed to a shear stress of 2.5 dyne/cm2 to expose the VWF cleaving sites. The VWF, VWF propeptide and ADAMTS-13 secretion were measured by an ELISA technique. ADAMTS-13 content was measured using Western blot technology with densitometry. All treatments and their combinations, excluding IL-6, significantly stimulated the release of VWF and VWF propeptide from HUVECs. The VWF propeptide levels were constantly higher than the major VWF protein levels suggesting that the measurement of the VWF propeptide levels may be a better representation of the amount of VWF secreted from endothelial cells. Tissue factor alone and in combination with inflammatory cytokines increase the amount of VWF release from endothelial cells substantially. This correlates with the situation in thrombotic patients with inflammation where extremely high VWF levels are measured. Densitometric analysis of the Western blots indicated that lower levels of ADAMTS-13 secretion were found with all treatments. These results suggest that inflammatory cytokines such as IL-8 and TNF-α, coagulation factors such as thrombin and tissue factor, as well as combinations thereof, stimulate the release of ULVWF and inhibit the release of ADAMTS-13 in HUVECs, resulting in the accumulation of hyperreactive ULVWF in plasma and on the surface of endothelial cells to induce platelet aggregation and adhesion on the vascular endothelium. Our study may offer a logical explanation of how systemic inflammation and thrombosis might trigger the onset and/or burst of TTP in patients with HIV-associated TTP.Item Open Access Microparticles derived from stimulation of human umbilical endothelium(University of the Free State, 2013) Le Roux, Elzette; Meiring, S. M.; Coetzee, M. J.English: Endothelial microparticle reseach is currently a very novel and exciting topic in the field of haemosistasis and thrombosis. The role of microparticles in inflammatory and thrombotic disorders is however not fully understood. Dysfunction of endothelial cells is hypothesized to be a trigger of microparticle formation. In inflammatory disorders like sepsis and thrombotic disorders like atherosclerosis and thrombotic thrombocytopenic purpura, endothelial microparticle formation is altered and the numbers thereof may increase or decrease. It is not known if microparticles are the cause or the consequence of these disorders. To understand the role of endothelial microparticles in inflammation and thrombosis, the effect of inflammatory cytokines and coagulation stimuli was studied as well as combinations thereof on endothelial microparticle formation and on microparticle VWF and its regulating protease, ADAMTS-13 in HUVEC. In this study, the formation of microparticles in cultured human umbilical vein endothelial cells (HUVEC) was stimulated by different inflammatory agents: IL-6 (100 ng/ml), IL-8 (100 ng/ml) and TNF-α (100 ng/ml), coagulation stimuli: TF (2 U/ml) and thrombin (2 U/ml) and combinations thereof. The number of endothelial microparticles that formed was determined using flow cytometry. VWF and ADAMTS-13 levels of the microparticles were assessed by ELISAs and microparticle thrombin generation was measured by thrombin generation assays. VWF multimers were visualized by a Western Blot technique. IL-6 did not have any effect on HUVEC-derived microparticles due to the lack of the receptor for IL-6 on these cells. IL-8 only slightly increased effect on microparticle VWF and ADAMTS-13 levels. TNF-α had a significant effect on microparticle numbers and contributed to almost 80% of thrombin generated by the microparticles. It has however almost no effect on VWF levels. The coagulation stimulus TF, on the other hand, induced the highest increase in microparticle VWF levels and increased microparticle numbers impressively. Yet, it had no effect on the thrombin generation by the microparticles. TF in combination with TNF-α also induced an increase in microparticle VWF and a small decrease in ADAMTS-13 levels. So, TF may contribute to the increased VWF levels that are commonly found in TTP patients where inflammation and thrombosis occur. Interestingly, thrombin had a protective effect on the intact HUVEC by preventing microparticle formation. The combination stimuli of thrombin and inflammatory agents also had a protective effect on HUVEC. This highlighted the regulatory role of thrombin in intact endothelial cells and also the protection that it provides against thrombosis in extremely inflammatory environments. Endothelial microparticles can therefore be detrimental or beneficial, depending on the different stimuli and different environments. Inflammatory and coagulation stimuli may still pose a significant risk of clotting by altering microparticle quantity and content. This study contributes to understand the role that endothelial microparticles play in inflammation and thrombosis.