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Zebrafish Von Willebrand FactorCarrillo, Maira M. 08 1900 (has links)
In humans, von Willebrand factor (vWF) is a key component in hemostasis and acts as a 'cellular adhesive' by letting the circulating platelets bind to exposed subendothelium. It also acts as a carrier and stabilizer of factor VIII (FVIII). A dysfunction or reduction of vWF leads to von Willebrand disease (vWD), resulting in bleeding phenotype which affects 1% of the population. Currently there are a variety of animal models used for the study of vWF and vWD; however, they do not possess the advantages found in zebrafish. Therefore, we set out to establish zebrafish as a model for the investigation of vWF and vWD through the use of bioinformatics and various molecular techniques. Using bioinformatics we found that the vWF gene is located on chromosome 18, that the GPIb? protein sequence is conserved. Confirmation of vWF production was shown by means of immunostaining and by RT-PCR, in thrombocytes as well as in veins and arteries. Evidence of vWF involvement in hemostasis and thrombosis was shown using MO and VMO technology to produce a vWD like phenotype, resulting in an increase in TTO and TTA, as well as a reduction in FVIII when blood was tested using the kPTT assay, coinciding with a decrease in vWF. Stimate treatment provided opposite results of MO and VMO, showing a decrease in TTO and TTA. Investigation of the role of microparticles in hemostasis and their interaction with vWF resulted in a conclusion that the GPIb? receptor should exist on MPs and that it may interact not only with zebrafish vWF but also with human UL-vWF. Agglutination of MPs in the presence of UL-vWF but in the absence of ristocetin and plasma, treatment with ADAMTS-13 abolishing the interaction between MPs and UL-vWF provided evidence that vWF interacts with MPs probably with the GPIb?. We also found that TMPs agglutinate within the vessel wall in vivo when treated with Stimate. In conclusion, this research provided evidence for the presence of vWF in zebrafish and its conserved role in hemostasis. In addition to this we also showed that MPs also participation in hemostasis.
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A preliminary analysis of platelet von willebrand factor oligosaccharidesKagami, Kazuo, Williams, Sybil, Horne, McDonald, Gralnick, Harvey 05 1900 (has links)
No description available.
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FUNCTIONS OF MULTIMERIN 1 (MMRN1) IN PLATELET ADHESION AND THROMBUS FORMATION, THROUGH INTERACTIONS WITH VON WILLEBRAND FACTOR (VWF) / FUNCTIONS OF MMRN1 IN PLATELET ADHESION & THROMBUS FORMATIONPARKER, D'ANDRA 11 1900 (has links)
Multimerin 1 (MMRN1) is a massive, homopolymeric platelet and endothelial cell protein with functions that are emerging to support platelet adhesive processes. MMRN1 supports platelet adhesion under arterial flow conditions by a mechanism dependent on interactions with von Willebrand factor (VWF). The goals of this thesis were to further define the platelet adhesive functions of MMRN1 by: 1) characterizing the molecular mechanisms of VWF interactions with MMRN1; and 2) investigating if multimerin 1 is important for platelet adhesive functions using mice with and without a selective multimerin 1 (Mmrn1) deficiency. Studies of the mechanism of MMRN1-VWF binding indicated that MMRN1 bound to shear exposed VWF, and that MMRN1 interacted with the A1 and A3 domains in the VWF A1A2A3 region. VWF A1A2A3 also bound to MMRN1 with a physiologically relevant binding affinity, and supported platelet adhesion to MMRN1 at a high shear rate. The selective loss of Mmrn1 in mice had limited effects on tail bleeding times, although it impaired collagen-induced aggregation of washed platelets, as well as high shear platelet adhesion of whole blood on collagen surfaces, in vitro. Additionally, the selective loss of Mmrn1 in mice was associated with impaired and delayed platelet-rich thrombus formation in vivo, in arterioles treated with ferric chloride. These findings provide new insights on platelet adhesive, haemostatic functions at arterial shear rates, and the involvement of the platelet and endothelial cell protein, multimerin 1, to support these processes. / Thesis / Doctor of Philosophy (PhD)
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The mechanism of endothelial cell specific gene expression of Von Willebrand Factor in vivoNassiri, Marjan 06 1900 (has links)
In vivo analyses of the Von Willebrand Factor (VWF) promoter previously demonstrated that a fragment spanning sequences -487 to +247 targets promoter activation to brain vascular endothelial cells. This fragment is active in all embryonic vessels of transgenic mice but in adult mice its activity is restricted to brain vascular endothelial cells, while endogenous VWF gene is expressed in vasculature of all major organs.
In this study we demonstrate that a DNase I hypersensitive (HSS) sequences in intron 51 of the VWF gene contain cis-acting elements that are necessary for the VWF gene transcription in a subset of lung endothelial cells in vivo.
Our results demonstrated that Nuclear Factor 1 (NF1) and Nuclear transcription Factor Y (NFY) repressors contribute to VWF organ-specific regulation. Mutation of the NF1 binding site resulted in promoter activation in lung and heart, while mutation of the repressor corresponding to a novel binding site for NFY resulted in promoter activation in kidney vasculature. / Experimental Medicine
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The mechanism of endothelial cell specific gene expression of Von Willebrand Factor in vivoNassiri, Marjan Unknown Date
No description available.
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Small GTP-binding proteins and regulated secretion of von Willebrand factor by endothelial cellsLeeuw, Hubertus Petrus Johannes Cornelis de, January 2000 (has links)
Proefschrift Universiteit van Amsterdam. / Auteursnaam op omslag: Hubert de Leeuw. Met lit. opg. - Met samenvatting in het Nederlands.
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A novel microscopic assay of transient platelet - von Willebrand Factor adhesion, kinetics, margination, and blood rheology /Kim, Chang-Beom. Wootton, David Macmullen. Kresh, J Yasha. January 2006 (has links)
Thesis (Ph. D.)--Drexel University, 2006. / Includes abstract and vita. Includes bibliographical references (leaves 146-156).
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Development of von Willebrand Factor Zebrafish Mutant Using CRISPR/Cas9 Mediated Genome EditingToffessi Tcheuyap, Vanina 05 1900 (has links)
von Willebrand factor (VWF) protein acts in the intrinsic coagulation pathway by stabilizing FVIII from proteolytic clearance and at the site of injury, by promoting the adhesion and aggregation of platelets to the exposed subendothelial wall. von Willebrand disease (VWD) results from quantitative and qualitative deficiencies in VWF protein. The variability expressivity in phenotype presentations is in partly caused by the action of modifier genes. Zebrafish has been used as hemostasis animal model. However, it has not been used to evaluate VWD. Here, we report the development of a heterozygote VWF mutant zebrafish using the genome editing CRISPR/Cas9 system to screen for modifier genes involved in VWD. We designed CRISPR oligonucleotides and inserted them into pT7-gRNa plasmid. We then prepared VWF gRNA along with the endonuclease Cas9 RNA from Cas9 plasmid. We injected these two RNAs into 1-4 cell-stage zebrafish embryos and induced a mutation in VWF exon 29 of the zebrafish with a mutagenesis rate of 16.6% (3/18 adult fish). Also, we observed a germline transmission with an efficiency rate of 5.5% (1/18 adult fish). We obtained a deletion in exon 29 which should result in truncated VWF protein.
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Investigating the Genetic Basis of Type 3 of Von Willebrand Disease (VWD)Bowman, MACKENZIE 18 October 2013 (has links)
von Willebrand Disease (VWD) is the most common inherited bleeding disorder in humans, resulting from quantitative or qualitative deficiencies of von Willebrand factor (VWF). Type 3 VWD is the rarest and most severe form of the disease. This thesis characterizes the phenotype-genotype correlations of a cohort of Canadian type 3 VWD patients and their family members. Three main findings are highlighted: 1) 50% of families showed evidence of co-dominant inheritance as opposed to recessive, 2) 42% of mutations identified were located in the VWF propeptide region (VWFpp), 3) index cases (IC) with mutations in the VWFpp had a more severe bleeding diatheses than IC with mutations elsewhere.
We investigated two of the identified VWFpp mutations (ex4-5del and Cys633Arg) to elucidate their molecular mechanisms using two cellular models. Patient-derived blood outgrowth endothelial cells (BOEC) are ideal for studying the underlying molecular mechanism of VWF mutations as they represent the native vascular endothelium. BOEC were isolated from type 3 VWD IC and family members with the mutations of interest. A heterologous cellular system was also used to study the VWF mutations in vitro. The VWFpp mutations caused impaired VWF secretion, defective multimerization, qualitative and quantitative defects in Weibel-Palade body (WPB) formation, and resulted in VWF retention within the endoplasmic reticulum. We attempted to restore secretion and multimerization by co-transfecting each mutant with the wild-type VWF propeptide (VWFpp), which was unsuccessful.
Additionally, we investigated a third mutation, c.8419_8422dupTCCC, which is unique to the Canadian VWD population and is found at a high frequency in a specific geographic population. While we hypothesized that this mutation would disrupt dimerization due to its location in the C-terminal cysteine knot (CK) domain of VWF we did not find this to be true.
The results presented within this thesis provide new insight into the genetics and pathobiology of type 3 VWD, the functional contribution of the VWFpp to type 3 VWD and highlight the utility of BOEC as a cellular model for evaluating the pathogenic mechanisms of VWF mutations. / Thesis (Ph.D, Pathology & Molecular Medicine) -- Queen's University, 2013-10-17 21:15:37.685
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Development of Novel Antidote Controlled Antithrombotic AptamersOney, Sabah, January 2008 (has links)
Thesis (Ph. D.)--Duke University, 2008.
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