Global ETD Search

51	Saturation and foaming of thermoplastic nanocomposites using supercritical CO2. Strauss, William C. 05 1900 (has links) Polystyrene (PS) nanocomposite foams were prepared using supercritical fluid (SCF) CO2 as a solvent and blowing agent. PS was first in-situ polymerized with a range of concentrations of montmorillonite layered silicate (MLS). The polymerized samples were then compression molded into 1 to 2mm thick laminates. The laminates were foamed in a batch supercritical CO2 process at various temperatures and pressures from 60°-85°C and 7.6-12MPa. The resulting foams were analyzed by scanning electron microscopy to determine effect of MLS on cellular morphology. Differential scanning calorimetry was used to determine the impact of nanocomposite microstructure on glass transition of the foamed polymer. X-ray diffraction spectra suggested that the PS/MLS composite had an intercalated structure at both the 1% and 3% mixtures, and that the intercalation may be enhanced by the foaming process. Thermoplastic composites. Nanostructured materials. Polystyrene. polystyrene (PS) nanocomposite foams supercritical fluid (SCF), CO2 montmorillonite layered silicate (MLS)
52	A Self-Consistent-Field Perturbation Theory of Nuclear Spin Coupling Constants Blizzard, Alan Cyril 05 1900 (has links) Scope and Content stated in the place of the abstract. / The principal methods of calculating nuclear spin coupling constants by applying perturbation theory to molecular orbital wavefunctions for the electronic structure of molecules are discussed. A new method employing a self-consistent-field perturbation theory (SCFPT) is then presented and compared with the earlier methods. In self-consistent-field (SCF) methods, the interaction of an electron with other electrons in a molecule is accounted for by treating the other electrons as an average distribution of negative charge. However, this charge distribution cannot be calculated until the electron-electron interactions themselves are known. In the SCF method, an initial charge distribution is assumed and then modified in an iterative calculation until the desired degree of self-consistency is attained. In most previous perturbation methods, these electron interactions are not taken into account in a self consistent manner in calculating the perturbed wavefunction even when SCF wavefunctions are used to describe the unperturbed molecule. The main advantage of the new SCFPT approach is that it treats the interactions between electrons with the same degree of self-consistency in the perturbed wavefunction as in the unperturbed wavefunction. The SCFPT method offers additional advantages due to its computational efficiency and the direct manner in which it treats the perturbations. This permits the theory to be developed for the orbital and dipolar contributions to nuclear spin coupling as well as for the more commonly treated contact interaction. In this study, the SCFPT theory is used with the Intermediate Neglect of Differential Overlap (INDO) molecular orbital approximation to calculate a number of coupling constants involving 13c and 19F. The usually neglected orbital and dipolar terms are found to be very important in FF and CF coupling. They can play a decisive role in explaining the experimental trend of JCF among a series of compounds. The orbital interaction is found to play a significant role in certain CC couplings. Generally good agreement is obtained between theory and experiment except for JCF and JFF in oxalyl fluoride and the incorrect signs obtained for cis JFF in fluorinated ethylenes. The nature of the theory permits the latter discrepancy to be rationalized in terms of computational details. The value of JFF in difluoracetjc acid is predicted to be -235 Hz. The SCFPT method is used with a theory of dπ - pπ bonding to predict in agreement with experiment that JCH in acetylene will decrease when that molecule is bound in a transition metal complex. / Thesis / Doctor of Philosophy (PhD)
53	Investigation into the regulatory mechanism of BRCA2 stability Gruber, Claudia January 2013 (has links) Inherited mutations in the BRCA2 gene predispose individuals to the development of breast and ovarian cancers. The BRCA2 protein plays a fundamental role in the repair of DNA double strand breaks by homologous recombination (HR). BRCA2 mediates the recruitment of the RAD51 recombinase to DNA damage sites, which in turn promotes homologous pairing and strand exchange during HR. It has been reported that increased BRCA2 mRNA levels correlate with poor cancer prognosis, and recently it has been shown that increased levels of BRCA2 suppress HR. As HR is regulated through the cell cycle and can only be employed during S and G2 phases of the cell cycle, in this study, the cell cycle-dependent regulation of BRCA2, as a key player of HR, was investigated. In this study I report that BRCA2 stability is regulated by the ubiquitin-proteasome system (UPS), which has become increasingly evident as an important regulator of DNA repair. In line with this, I found that BRCA2 can be ubiquitylated in vivo and that it interacts with proteins of the UPS. Interestingly, I observed that BRCA2 levels and its ubiquitylation status change during the cell cycle. Using a siRNA-based approach, I identified a candidate E3 ubiquitin ligase, the SCF<sup>FBXW7</sup> complex, which is also a known major cell cycle regulator. siRNA-mediated knockdown of FBXW7 led to stabilization of BRCA2 and overexpression of FBXW7 resulted in BRCA2 ubiquitylation in vivo. Furthermore, I have refined the regions that the SCF<sup>FBXW7</sup> interacts with on BRCA2, which likely occurs in a phosphorylation-dependent manner. Taken together, these observations suggest that BRCA2 stability is regulated by the UPS in a cell cycle-dependent manner, which may be an important regulatory mechanism for BRCA2 function. 612
54	Neural Stem Cell Differentiation and Migration Erlandsson, Anna January 2003 (has links) Neural stem cells are the precursors of neurons, astrocytes and oligodendrocytes. During neural development, the division of stem cells takes place close to the lumen of the neural tube, after which they migrate to their final positions within the central nervous system (CNS). Soluble factors, including growth factors, regulate neural stem cell proliferation, survival, migration and differentiation towards specific cell lineages. This thesis describes the function of platelet-derived growth factor (PDGF) and stem cell factor (SCF) in neural stem cell regulation. PDGF was previously suggested to stimulate neuronal differentiation, but the mechanisms were not defined. This study shows that PDGF is a mitogen and a survival factor that expands a pool of immature cells from neural stem cells. The PDGF-treated cells can be stained by neuronal markers, but need further stimuli to continue their maturation. They can become either neurons or glia depending on the secondary instructive cues. Moreover, neural stem cells produce PDGF. Inhibition of this endogenous PDGF negatively affects the cell number in stem cell cultures. We find that SCF stimulates migration and supports the survival of neural stem cells, but that it has no effect on their proliferation or differentiation into neurons and glia. Intracellular signaling downstream from the receptors for PDGF and SCF includes activation of extracellular signal-regulated kinase (ERK). This investigation shows that active ERK is not needed for the differentiation of stem cells into neurons, at least not during early stages. Neural stem cells have a future potential in the treatment of CNS disorders. To be able to use neural stem cells clinically we need to understand how their proliferation, differentiation, survival and migration are controlled. The results presented in this thesis increase our knowledge of how neural stem cells are regulated by growth factors. Medicine CNS stem cells neuron PDGF SCF differentiation migration ERK Medicin
55	Mécanisme d’action du PBI-1402 impliqué dans l’expansion des progéniteurs érythroïdes humains et murins Vinet, Sabrina 08 1900 (has links) Une des complications importantes d’un traitement intensif de chimio/radio-thérapie est l’aplasie de la moelle osseuse qui peut persister longtemps même après une greffe de cellules souches. Le PBI-1402 est un petit lipide qui a été associé à la diminution de l’apoptose des neutrophiles induite par des agents cytotoxiques. Nos travaux ont démontré que la culture in vitro de progéniteurs hématopoiétiques humains en présence de PBI-1402 induit une augmentation significative du nombre de progéniteurs érythroides (PEryth) (p<0,05). En évaluant la sensibilité des PEryth à l’érythropoietine (Epo), nous avons démontré que le PBI-1402 n’a pas d’effet sensibilisateur et que les cellules répondent de façon similaire aux cellules contrôles. De plus, la combinaison de l’Epo et du « stem cell factor » avec le PBI-1402 permet de prolonger et d’augmenter l’activation d’ERK1/2 (p<0,05), un important signal mitogène. Cet effet est associé à une inhibition de l’activation de la phosphatase MKP-1 dans les cellules exposées au PBI-1402. Nous démontrons aussi la capacité du PBI-1402 à amplifier la prolifération des PEryth et sa capacité à réduire la durée et l’intensité de l’anémie dans un modèle in vivo murin. Des souris ayant reçu une dose létale d’irradiation et subi une transplantation syngénique de moelle osseuse, ont été traitées oralement avec le PBI-1402 pendant 14 jours. Ces souris démontrent une réduction significative de l’anémie post-transplantation versus les souris contrôle (p<0,05). De plus, la moelle osseuse des souris traitées au PBI-1402 présente un nombre de BFU-E et CFU-E plus élevé comparativement au contrôle. Ces résultats démontrent donc le potentiel du PBI-1402 à réduire l’anémie post-transplantation et accélérer la reconstitution érythroïde. / One of the most important complications of intensive radiotherapy or chemotherapy is cytopenia, which can persist for significant amount of time even after stem cell transplantation. PBI-1402, a small lipid, was previously shown to be associated with decreased neutrophil apoptosis caused by cytotoxic agents. Our work has shown that day primary human hematopoietic cell in vitro culture in the presence of PBI-1402 resulted in an increased number of erythroid progenitors (p<0,05). Dose-response experiments evaluating sensitivity to erythropoietin (Epo) of cells exposed to PBI-1402 indicated that PBI-1402 did not have a sensitizing effect and that both treated and control cells respond similarly to Epo. In addition, PBI-1402, used in combination with stem cell factor (SCF) and Epo, enhanced and prolonged ERK1/2 phosphorylation (p<0.05), a signalling pathway important for erythroid progenitor cell proliferation. This effect was associated with a decrease of the phosphatase MKP-1 activation in PBI-1402 exposed cells. This translated into and increased proliferation of erythroid progenitors as well as a reduced duration and level of anemia in an in vivo murine transplantation model. Lethally irradiated mice that received syngeneic stem cell transplantation were treated orally with PBI-1402 for 14 days. These mice demonstrated a significant reduction in post-transplantation anemia in a dose dependent manner compared to control (vehicle)(p<0.05). Moreover, PBI-1402-treated mice harboured significantly higher numbers of BFU-E and CFU-E in bone marrow compared to control (p<0.05). These results demonstrate that PBI-1402 treatment significantly reduced transplantation-induced anemia with concomitant acceleration in erythroid recovery. Anémie BFU-E CFU-E Epo ERK1/2 Progéniteurs érythroïdes Reconstitution érythroïde PBI-1402 SCF MKP-1 Anemia Erythroid progenitors Erythroid reconstitution
56	Automatic syntactic analysis of learner English Huang, Yan January 2019 (has links) Automatic syntactic analysis is essential for extracting useful information from large-scale learner data for linguistic research and natural language processing (NLP). Currently, researchers use standard POS taggers and parsers developed on native language to analyze learner language. Investigation of how such systems perform on learner data is needed to develop strategies for minimizing the cross-domain effects. Furthermore, POS taggers and parsers are developed for generic NLP purposes and may not be useful for identifying specific syntactic constructs such as subcategorization frames (SCFs). SCFs have attracted much research attention as they provide unique insight into the interplay between lexical and structural information. An automatic SCF identification system adapted for learner language is needed to facilitate research on L2 SCFs. In this thesis, we first provide a comprehensive evaluation of standard POS taggers and parsers on learner and native English. We show that the common practice of constructing a gold standard by manually correcting the output of a system can introduce bias to the evaluation, and we suggest a method to control for the bias. We also quantitatively evaluate the impact of fine-grained learner errors on POS tagging and parsing, identifying the most influential learner errors. Furthermore, we show that the performance of probabilistic POS taggers and parsers on native English can predict their performance on learner English. Secondly, we develop an SCF identification system for learner English. We train a machine learning model on both native and learner English data. The system can label individual verb occurrences in learner data for a set of 49 distinct SCFs. Our evaluation shows that the system reaches an accuracy of 84\% F1 score. We then demonstrate that the level of accuracy is adequate for linguistic research. We design the first multidimensional SCF diversity metrics and investigate how SCF diversity changes with L2 proficiency on a large learner corpus. Our results show that as L2 proficiency develops, learners tend to use more diverse SCF types with greater taxonomic distance; more advanced learners also use different SCF types more evenly and locate the verb tokens of the same SCF type further away from each other. Furthermore, we demonstrate that the proposed SCF diversity metrics contribute a unique perspective to the prediction of L2 proficiency beyond existing syntactic complexity metrics.
57	Neural Stem Cell Differentiation and Migration Erlandsson, Anna January 2003 (has links) <p>Neural stem cells are the precursors of neurons, astrocytes and oligodendrocytes. During neural development, the division of stem cells takes place close to the lumen of the neural tube, after which they migrate to their final positions within the central nervous system (CNS). Soluble factors, including growth factors, regulate neural stem cell proliferation, survival, migration and differentiation towards specific cell lineages. </p><p>This thesis describes the function of platelet-derived growth factor (PDGF) and stem cell factor (SCF) in neural stem cell regulation. PDGF was previously suggested to stimulate neuronal differentiation, but the mechanisms were not defined. This study shows that PDGF is a mitogen and a survival factor that expands a pool of immature cells from neural stem cells. The PDGF-treated cells can be stained by neuronal markers, but need further stimuli to continue their maturation. They can become either neurons or glia depending on the secondary instructive cues. Moreover, neural stem cells produce PDGF. Inhibition of this endogenous PDGF negatively affects the cell number in stem cell cultures. We find that SCF stimulates migration and supports the survival of neural stem cells, but that it has no effect on their proliferation or differentiation into neurons and glia. Intracellular signaling downstream from the receptors for PDGF and SCF includes activation of extracellular signal-regulated kinase (ERK). This investigation shows that active ERK is not needed for the differentiation of stem cells into neurons, at least not during early stages.</p><p>Neural stem cells have a future potential in the treatment of CNS disorders. To be able to use neural stem cells clinically we need to understand how their proliferation, differentiation, survival and migration are controlled. The results presented in this thesis increase our knowledge of how neural stem cells are regulated by growth factors.</p> Medicine CNS stem cells neuron PDGF SCF differentiation migration ERK Medicin
58	Molecular and cellular analysis of Lhx2 function in hematopoietic stem cells Richter, Karin January 2007 (has links) The formation of blood, hematopoiesis, is a dynamic process originating from a small number of hematopoietic stem cells (HSCs). To sustain hematopoiesis throughout life HSCs have the unique capacity to differentiate into all mature hematopoietic lineages as well as generating more HSCs by a mechanism referred to as self-renewal. However, the regulation of these processes is largely unknown. During embryonic development HSCs expand in the fetal liver, indicating that this environment supports HSC self-renewal. The LIM-homeobox gene Lhx2 is expressed in the fetal liver during this period and Lhx2 null mutant mice die in utero due to severe anemia caused by an environmental defect in the fetal liver. Embryonic stem cells differentiate in vitro, forming embryoid bodies (EBs) containing various tissues including hematopoietic progenitor cells. Introduction of Lhx2 into this system by retroviral transfer led to the generation of cytokine dependent HSC-like cell lines that were multipotent and expressed surface markers similar to embryonic HSCs. However, the specificity and efficiency of this event could not be elucidated. To further evaluate the function of Lhx2 expression during hematopoietic development, Lhx2 was introduced into an ES cell system where expression could be efficiently turned on. This approach revealed that Lhx2 induce self-renewal of distinct multipotent hematopoietic progenitor/stem cells present in the EB, with the ability to form HSC-like cell lines. The Lhx2 induced self-renewal is growth factor specific since stem cell factor and interleukin-6 are necessary and sufficient for this process. However, Lhx2 expression blocked erythroid differentiation and interfered with early ES cell commitment, indicating that the effect of Lhx2 is cell type specific. Since HSCs of early embryonic origin are inefficient in engrafting adult recipients upon transplantation, we wanted to address whether we could generate cell lines retaining this capacity by expression of Lhx2 in hematopoietic cells from adult bone marrow. This led to the generation of clonal and cytokine dependent HSC-like cell lines capable of generating erythroid, myeloid and lymphoid cells upon transplantation into lethally irradiated recipients. When transplanted into stem cell-deficient mice, they contributed to circulating erythrocytes for at least 18 months, revealing a remarkable potential for self-renewal and differentiation in vivo. However, expression of Lhx2 was maintained in vivo and most engrafted mice developed a transplantable myeloproliferative disorder resembling human chronic myeloid leukemia. Thus, elucidation of the mechanism for Lhx2 function in HSC-like cell lines would give insights into both normal and pathological regulation of HSCs. Down-regulation of Lhx2 expression in HSC-like cell lines with inducible Lhx2 expression led to rapid loss of stem cell characteristics and differentiation into various hematopoietic cell types. Thus, global gene expression analysis comparing Lhx2+ HSC-like cell lines to their Lhx2- progeny would give insights into the molecular basis for Lhx2 function in stem cells. A number of differentially expressed genes overlapped with previously reported HSC enriched genes, further emphasizing the resemblance between HSCs and the HSC-like cell lines also at the molecular level. Moreover, a number of genes were identified with functions or expression patterns related to Lhx2 in other organs. Collectively, these data suggest that these HSC-like cell lines represent a relevant model system for normal HSCs on the molecular and the functional level as well as for evaluating Lhx2 function in the development of various tissues in the embryo as well as in disease. Hematopoietic stem cells Lhx2 cell lines self renewal SCF IL-6 chronic myeloproliferative disorder global gene expression analysis Molecular biology Molekylärbiologi
59	Mécanisme d’action du PBI-1402 impliqué dans l’expansion des progéniteurs érythroïdes humains et murins Vinet, Sabrina 08 1900 (has links) Une des complications importantes d’un traitement intensif de chimio/radio-thérapie est l’aplasie de la moelle osseuse qui peut persister longtemps même après une greffe de cellules souches. Le PBI-1402 est un petit lipide qui a été associé à la diminution de l’apoptose des neutrophiles induite par des agents cytotoxiques. Nos travaux ont démontré que la culture in vitro de progéniteurs hématopoiétiques humains en présence de PBI-1402 induit une augmentation significative du nombre de progéniteurs érythroides (PEryth) (p<0,05). En évaluant la sensibilité des PEryth à l’érythropoietine (Epo), nous avons démontré que le PBI-1402 n’a pas d’effet sensibilisateur et que les cellules répondent de façon similaire aux cellules contrôles. De plus, la combinaison de l’Epo et du « stem cell factor » avec le PBI-1402 permet de prolonger et d’augmenter l’activation d’ERK1/2 (p<0,05), un important signal mitogène. Cet effet est associé à une inhibition de l’activation de la phosphatase MKP-1 dans les cellules exposées au PBI-1402. Nous démontrons aussi la capacité du PBI-1402 à amplifier la prolifération des PEryth et sa capacité à réduire la durée et l’intensité de l’anémie dans un modèle in vivo murin. Des souris ayant reçu une dose létale d’irradiation et subi une transplantation syngénique de moelle osseuse, ont été traitées oralement avec le PBI-1402 pendant 14 jours. Ces souris démontrent une réduction significative de l’anémie post-transplantation versus les souris contrôle (p<0,05). De plus, la moelle osseuse des souris traitées au PBI-1402 présente un nombre de BFU-E et CFU-E plus élevé comparativement au contrôle. Ces résultats démontrent donc le potentiel du PBI-1402 à réduire l’anémie post-transplantation et accélérer la reconstitution érythroïde. / One of the most important complications of intensive radiotherapy or chemotherapy is cytopenia, which can persist for significant amount of time even after stem cell transplantation. PBI-1402, a small lipid, was previously shown to be associated with decreased neutrophil apoptosis caused by cytotoxic agents. Our work has shown that day primary human hematopoietic cell in vitro culture in the presence of PBI-1402 resulted in an increased number of erythroid progenitors (p<0,05). Dose-response experiments evaluating sensitivity to erythropoietin (Epo) of cells exposed to PBI-1402 indicated that PBI-1402 did not have a sensitizing effect and that both treated and control cells respond similarly to Epo. In addition, PBI-1402, used in combination with stem cell factor (SCF) and Epo, enhanced and prolonged ERK1/2 phosphorylation (p<0.05), a signalling pathway important for erythroid progenitor cell proliferation. This effect was associated with a decrease of the phosphatase MKP-1 activation in PBI-1402 exposed cells. This translated into and increased proliferation of erythroid progenitors as well as a reduced duration and level of anemia in an in vivo murine transplantation model. Lethally irradiated mice that received syngeneic stem cell transplantation were treated orally with PBI-1402 for 14 days. These mice demonstrated a significant reduction in post-transplantation anemia in a dose dependent manner compared to control (vehicle)(p<0.05). Moreover, PBI-1402-treated mice harboured significantly higher numbers of BFU-E and CFU-E in bone marrow compared to control (p<0.05). These results demonstrate that PBI-1402 treatment significantly reduced transplantation-induced anemia with concomitant acceleration in erythroid recovery. Anémie BFU-E CFU-E Epo ERK1/2 Progéniteurs érythroïdes Reconstitution érythroïde PBI-1402, SCF MKP-1 Anemia Erythroid progenitors Erythroid reconstitution
60	Toward an Improved Chronic Myelogenous Leukemia Treatment: Blocking the Stem Cell Factor–Mediated Innate Resistance With Anti–c-Kit Synthetic-Antibody Inhibitors 2015 March 1900 (has links) Chronic Myelogenous Leukemia (CML) is a blood cancer that arises when hematopoietic cells acquire an abnormal protein known as BCR-ABL. Current therapies for CML include drugs that inhibit BCR-ABL. However, these drugs only suppress the disease and do not cure it. One reason is that BCR-ABL drugs fail to kill the primitive population of CML cells, referred to as leukemia stem cells (LSCs), which are responsible for initiating and propagating CML. Since LSCs are not killed, the cancer is not cured and many affected patients eventually relapse. Recent studies suggest that LSCs are protected from current therapies by the bone marrow micro-environment where they reside. There, cytokine signaling molecules are present, which mediate processes that protect LSCs from BCR-ABL drugs. The stem cell factor (SCF) is one of these signaling molecules. It activates the receptor c-Kit located on the surface of LSCs, and this activation in turn allows proliferating LSCs to resist BCR-ABL drugs, even without prior exposure to these drugs, i.e., innate resistance is observed. In this thesis, the mechanism of this innate resistance is investigated, so that a suitable treatment strategy can be developed. To this end, a co-agent approach based on synthetic antibodies (sABs) is proposed to inhibit the receptor c-Kit, with the goal of disrupting its activation by the ligand SCF. This disruption should in turn block the SCF-mediated innate resistance, thus potentially restoring BCR-ABL drug apoptotic activity. The method for this disruption involves targeting the c-Kit structural susceptibility. Specifically, the sABs are designed via antibody phage display technology to target the D1–D2–D3 domains representing the SCF binding sites, hence preventing downstream pathway activation. The hypothesis is that, by blocking the SCF-mediated innate resistance, a suitable combination of such an sAB co-agent and a BCR-ABL drug should be conducive to suppressing LSCs, thereby providing a potential means to improve CML treatment. In addition, to assess the performance of the proposed treatment strategy, a set of in vitro tests is conducted, focusing on performance behaviors such as cell binding, cell death, and the progenitor inhibition. The experimental results support the hypothesis that the proposed combinatorial strategy is indeed a promising approach to mitigate the innate resistance, thus restoring BCR-ABL drug apoptotic activity. chronic myelogenous leukemia (CML) combinatorial treatment cancer stem cells tyrosine kinase inhibitor (TKI) nilotinib cytokine signaling stem cell factor (SCF) anti--c-Kit synthetic antibodies (sABs).

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