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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

An investigation of the role of phosphorylation at Ser211 of the glucocorticoid receptor in ligand-specific transcriptional regulation

Stubsrud, Elisabeth 12 1900 (has links)
Thesis (MSc (Biochemistry))--University of Stellenbosch, 2005. / Endogenous glucocorticoids (GCs) modulate many physiological functions in the human body and synthetic GCs are the most effective therapy in the treatment of inflammation, autoimmune and endocrine disorders. However, the long-term usage of synthetic GCs is associated with severe side-effects. GCs mediate their effects through the ligand-dependent transcription factor, the glucocorticoid receptor (GR), either by causing an increase (transactivation) or a decrease (transrepression) in gene transcription. The bioactivity of a ligand in GR-mediated transcriptional regulation is established by a transcriptional doseresponse curve, where the potency (EC50 value) and the efficacy (maximal response) of the ligand are determined. A central question is how different GR ligands elicit their differential physiological responses for the same gene in the same cell. The main aim of this thesis is to investigate if the phosphorylation of GR at serine 211 (Ser211) correlates with the potency and/or efficacy of a particular ligand in transactivation and transrepression of gene expression.
2

The transcriptional control of aquaporins

Ng, Man-ting., 吳憫婷. January 2009 (has links)
published_or_final_version / Medicine / Master / Master of Philosophy
3

Mechanisms underlying glucocorticoid-induced protein wasting and potential treatment with anabolic hormoness

Burt, Morton Garth, St Vincent's Clinical School, UNSW January 2007 (has links)
Protein wasting is a complication of glucocorticoid (GC) therapy. It causes substantial morbidity and there is no treatment. This thesis investigates the metabolic mechanisms underlying GC-induced protein wasting and the potential for anabolic hormones to reverse protein loss. The models of GC excess were Cushing's syndrome and GC therapy. Whole body protein metabolism was assessed using the leucine turnover technique and body composition by dual-energy X-ray absorptiometry to estimate lean body mass (LBM) and fat mass (FM). As previous studies demonstrated that LBM and FM influenced rates of protein metabolism, the magnitude of body compositional abnormality in Cushing's syndrome was determined. After accounting for the greater FM (30%) and lesser LBM (15%), protein metabolism in Cushing's syndrome was characterised by a significant increase in protein oxidation, an abnormality that leads to irreversible protein loss. Successful treatment of Cushing's syndrome normalised protein oxidation. Studies of the acute and chronic effects of therapeutic GCs revealed a time-dependent effect on protein metabolism. GCs acutely increased protein oxidation. However, the rate of protein oxidation during chronic therapy at a similar dose was not significantly different to untreated control subjects. This time-dependent change suggests that GC-induced stimulation of protein oxidation does not persist and could represent a metabolic adaptation to limit protein loss. This finding contrasts with that in Cushing's syndrome, where protein oxidation is persistently elevated. This difference may represent a dose effect. Studies in GH-deficient subjects revealed that GH induced a fall in protein oxidation that was significantly correlated with a subsequent gain in LBM. This suggests that the anabolic potential of a therapeutic substance can be predicted by its ability to suppress protein oxidation acutely. Finally, the potential for GH and androgens to reverse the metabolic effects of GCs was assessed. A preliminary study in GC users revealed that a GH dose of 0.8 mg/d was effective in reducing protein oxidation. In a subsequent study, the GH-induced reduction in protein oxidation in women on GCs was enhanced by combined treatment with dehydroepiandrosterone, an androgen. In summary, GCs induce protein loss by stimulating protein oxidation. GH reverses this effect and this action is enhanced by coadministration of androgens. GH and androgens may be used therapeutically to prevent protein loss induced by GCs.
4

Effects of glucocorticoid and phosphodiesterase-4 inhibitor therapy in a mouse model of chronic asthma

Herbert, Cristan, Medical Sciences, Faculty of Medicine, UNSW January 2007 (has links)
Asthma is a chronic inflammatory disease of the airways. Using a murine model which replicates many characteristic features of human asthma, this study evaluated the effects of treatment with anti-inflammatory drugs on the lesions of chronic asthma, and investigated potential underlying molecular mechanisms. Treatment with dexamethasone, a glucocorticoid, was compared with roflumilast, a novel phosphodiesterase-4 (PDE4) inhibitor. BALB/c mice sensitised to ovalbumin were challenged with a low mass concentration of aerosolised antigen for 30 min/day, 3 days/week for 6 weeks. In weeks 5 and 6, groups of animals were treated with either dexamethasone or roflumilast. Assessment included changes in acute-on-chronic inflammation, structural remodelling of the airways and airway hyper-responsiveness to a bronchoconstrictor stimulus. These were correlated with the expression of pro-inflammatory cytokines and growth factors. Compared to vehicle-treated control animals, dexamethasone- and roflumilast-treated mice exhibited reduced accumulation of intra-epithelial eosinophils and chronic inflammatory cells, including CD3+ T-lymphocytes in the airways. Similarly, both drugs inhibited subepithelial fibrosis and airway epithelial thickening, although only dexamethasone inhibited goblet cell hyperplasia/metaplasia. Airway hyper-reactivity was not diminished by either drug. Both treatments suppressed production of Th2 cytokines by ovalbumin-restimulated peribronchial lymph node cells. In selectively dissected airway tissue from vehicletreated animals, increased expression of mRNA for several pro-inflammatory cytokines (TNF-α, GM-CSF, IL-6) and cytokines characteristic of Th1 (IFN-γ), Th2 (IL-5, IL-13)and Th17 (IL-17A) cells was demonstrated using real-time PCR. Enhanced expression of growth factors (TGF-β1 and FGF-2) was also demonstrated in airway epithelium isolated by laser capture microdissection. Interestingly, whereas treatment with dexamethasone significantly inhibited expression of mRNA for all of the inflammationrelated cytokines examined, roflumilast inhibited only IL-17A, TNF-α, GM-CSF and IL-6. Both drugs inhibited mRNA expression of growth factors by epithelial cells. Because roflumilast was as effective as dexamethasone in suppressing inflammation and most changes of remodelling, the selective suppression of IL-17A, TNF-α, GM-CSF and IL-6 suggests that these mediators, or the cells that produce them, may have critical roles in pathogenesis. Furthermore, they may be particularly appropriate therapeutic targets in chronic asthma.
5

Mechanisms underlying glucocorticoid-induced protein wasting and potential treatment with anabolic hormoness

Burt, Morton Garth, St Vincent's Clinical School, UNSW January 2007 (has links)
Protein wasting is a complication of glucocorticoid (GC) therapy. It causes substantial morbidity and there is no treatment. This thesis investigates the metabolic mechanisms underlying GC-induced protein wasting and the potential for anabolic hormones to reverse protein loss. The models of GC excess were Cushing's syndrome and GC therapy. Whole body protein metabolism was assessed using the leucine turnover technique and body composition by dual-energy X-ray absorptiometry to estimate lean body mass (LBM) and fat mass (FM). As previous studies demonstrated that LBM and FM influenced rates of protein metabolism, the magnitude of body compositional abnormality in Cushing's syndrome was determined. After accounting for the greater FM (30%) and lesser LBM (15%), protein metabolism in Cushing's syndrome was characterised by a significant increase in protein oxidation, an abnormality that leads to irreversible protein loss. Successful treatment of Cushing's syndrome normalised protein oxidation. Studies of the acute and chronic effects of therapeutic GCs revealed a time-dependent effect on protein metabolism. GCs acutely increased protein oxidation. However, the rate of protein oxidation during chronic therapy at a similar dose was not significantly different to untreated control subjects. This time-dependent change suggests that GC-induced stimulation of protein oxidation does not persist and could represent a metabolic adaptation to limit protein loss. This finding contrasts with that in Cushing's syndrome, where protein oxidation is persistently elevated. This difference may represent a dose effect. Studies in GH-deficient subjects revealed that GH induced a fall in protein oxidation that was significantly correlated with a subsequent gain in LBM. This suggests that the anabolic potential of a therapeutic substance can be predicted by its ability to suppress protein oxidation acutely. Finally, the potential for GH and androgens to reverse the metabolic effects of GCs was assessed. A preliminary study in GC users revealed that a GH dose of 0.8 mg/d was effective in reducing protein oxidation. In a subsequent study, the GH-induced reduction in protein oxidation in women on GCs was enhanced by combined treatment with dehydroepiandrosterone, an androgen. In summary, GCs induce protein loss by stimulating protein oxidation. GH reverses this effect and this action is enhanced by coadministration of androgens. GH and androgens may be used therapeutically to prevent protein loss induced by GCs.
6

Effects of glucocorticoid and phosphodiesterase-4 inhibitor therapy in a mouse model of chronic asthma

Herbert, Cristan, Medical Sciences, Faculty of Medicine, UNSW January 2007 (has links)
Asthma is a chronic inflammatory disease of the airways. Using a murine model which replicates many characteristic features of human asthma, this study evaluated the effects of treatment with anti-inflammatory drugs on the lesions of chronic asthma, and investigated potential underlying molecular mechanisms. Treatment with dexamethasone, a glucocorticoid, was compared with roflumilast, a novel phosphodiesterase-4 (PDE4) inhibitor. BALB/c mice sensitised to ovalbumin were challenged with a low mass concentration of aerosolised antigen for 30 min/day, 3 days/week for 6 weeks. In weeks 5 and 6, groups of animals were treated with either dexamethasone or roflumilast. Assessment included changes in acute-on-chronic inflammation, structural remodelling of the airways and airway hyper-responsiveness to a bronchoconstrictor stimulus. These were correlated with the expression of pro-inflammatory cytokines and growth factors. Compared to vehicle-treated control animals, dexamethasone- and roflumilast-treated mice exhibited reduced accumulation of intra-epithelial eosinophils and chronic inflammatory cells, including CD3+ T-lymphocytes in the airways. Similarly, both drugs inhibited subepithelial fibrosis and airway epithelial thickening, although only dexamethasone inhibited goblet cell hyperplasia/metaplasia. Airway hyper-reactivity was not diminished by either drug. Both treatments suppressed production of Th2 cytokines by ovalbumin-restimulated peribronchial lymph node cells. In selectively dissected airway tissue from vehicletreated animals, increased expression of mRNA for several pro-inflammatory cytokines (TNF-α, GM-CSF, IL-6) and cytokines characteristic of Th1 (IFN-γ), Th2 (IL-5, IL-13)and Th17 (IL-17A) cells was demonstrated using real-time PCR. Enhanced expression of growth factors (TGF-β1 and FGF-2) was also demonstrated in airway epithelium isolated by laser capture microdissection. Interestingly, whereas treatment with dexamethasone significantly inhibited expression of mRNA for all of the inflammationrelated cytokines examined, roflumilast inhibited only IL-17A, TNF-α, GM-CSF and IL-6. Both drugs inhibited mRNA expression of growth factors by epithelial cells. Because roflumilast was as effective as dexamethasone in suppressing inflammation and most changes of remodelling, the selective suppression of IL-17A, TNF-α, GM-CSF and IL-6 suggests that these mediators, or the cells that produce them, may have critical roles in pathogenesis. Furthermore, they may be particularly appropriate therapeutic targets in chronic asthma.
7

Adverse developmental programming of the adult phenotype by fetal glucocorticoid excess and its prevention by postnatal dietary Omega-3 fatty acids

Wyrwoll, Caitlin Sarah January 2007 (has links)
[Truncated abstract] Increased incidence of hypertension, insulin resistance, obesity and dyslipidemia, collectively referred to as the metabolic syndrome, has been linked to low birth weight, an indicator of a poor fetal environment. This association reflects developmental programming, a process by which organ systems are affected during early development such that disease states are more likely to emerge in adult life. Fetal glucocorticoid overexposure is thought to be a key factor that mediates developmental programming. Accordingly, maternal treatment with the synthetic glucocorticoid dexamethasone retards fetal growth and leads to delayed puberty, hypertension, hyperinsulinemia, and hyperleptinemia, either with or without increased adiposity, in adult offspring. Importantly, the postnatal environment can either amplify or attenuate the long-term outcome of developmental programming. The focus of this thesis was whether adverse developmental programming outcomes can be attenuated by the postnatal environment and thus provide therapeutic potential. Specifically, the effects of a postnatal diet rich in omega-3 fatty acids on glucocorticoid-induced developmental programming outcomes was investigated. ... The adipocyte phenotype was examined in Study 6, with hyperleptinaemia evident in offspring at 6 and 12 months of age in dexamethasone-exposed animals on a standard omega-3 diet, but this effect was prevented by a high omega-3 diet. The pattern of plasma leptin was paralleled by changes in leptin mRNA in retroperitoneal fat. Similarly, plasma levels of the inflammatory markers IL-6 and IL-1β were upregulated by prenatal glucocorticoid exposure and these were attenuated by postnatal dietary omega-3 fatty acids. Overall, omega-3 ingestion reduced adiposity, as indicated by measures of body composition. In conclusion, the studies presented in this thesis demonstrate for the first time that many of the detrimental effects of excess glucocorticoid exposure in utero on the adult phenotype can be attenuated by a postnatal diet rich in omega-3 fatty acids. This beneficial effect of omega-3 fatty acids was associated with a reversal of some (e.g. adiposal leptin) but not all (e.g. renal GR) 'programmed' changes in gene expression. These findings raise the possibility that dietary supplementation with omega-3 fatty acids may provide a viable therapeutic option for preventing and/or reducing adverse programming outcomes in humans.
8

Impact of glucocorticoids on placental growth and vascularisation

Hewitt, Damien Phillip January 2007 (has links)
[Truncated abstract] Glucocorticoids are critical for the maturation of the fetus late in pregnancy. Indeed, clinical administration of glucocorticoids is used to accelerate fetal lung maturation in mothers at risk of pre-term delivery. Increased glucocorticoid exposure, however, can have detrimental effects on fetal and placental growth and increase the risk of disease in later life. Many studies have focused on the effect of an increase in the transplacental passage of glucocorticoids on both fetal growth and subsequent postnatal development. But there is a growing body of evidence to suggest that the impact of glucocorticoids on fetal growth is mediated, in part, via their direct effects on the placenta . . . Overall, these studies quantify the labyrinth zone-specific increases in placental expression of PPARG and VEGF in association with a marked increase in vascularisation observed near term. Furthermore, this study demonstrates for the first time that these increases in gene expression are prevented by maternal dexamethasone treatment which also inhibits growth of the fetal capillary network. Elevated expression of SFRP4 in the regressing basal zone late in gestation and in both placental zones after dexamethasone-induced placental growth restriction is consistent with a role for SFRP4 in glucocorticoid-mediated inhibition of wnt signalling. Collectively, the data presented in this thesis show that glucocorticoid inhibition of fetal growth is mediated in large part via effects on the placenta, specifically through inhibition of signals that promote proliferation and vascularisation.

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