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Alterations in peripheral glucocorticoid metabolism : effects of weight changesSimonyté, Kotryna January 2011 (has links)
Background: An important role has been suggested for tissue-specific glucocorticoid metabolism in the development of obesity and its complications. 11ß hydroxysteroid dehydrogenase 1 (11ßHSD1) is an enzyme that catalyzes the interconversion of biologically inactive cortisone to active cortisol, thereby regulating its access to glucocorticoid receptors in target tissues. Indeed, an unfavorable metabolic outcome has been associated with increased 11ßHSD1 gene expression and activity in adipose tissue and liver in humans and rodents. Cortisol is an important regulator of phosphoenolpyruvate carboxykinase (PEPCK) a key enzyme in gluconeogenesis and lipid metabolism. In rodents, overexpression of PEPCK in adipose tissue leads to adiposity and increased fatty acid re-esterification. In human obesity, PEPCK has been positively associated with body fat, total cholesterol levels, and plasma triglycerides. However, few studies have addressed the putative reversibility of peripheral cortisol levels and disturbed fatty acid homeostasis that may accompany weight loss. The aim of this thesis was to investigate alterations in peripheral glucocorticoid metabolism in the context of obesity, and putative modulations of glucocorticoid metabolism in the context of weight changes in humans and rodents. Materials & Methods: 11ßHSD1 expression/activity in different adipose tissue depots and liver, the expression of genes involved in adipogenesis and fatty acid homeostasis, and serum levels of adipose tissue-derived adipokines were investigated in severely obese women before and after surgically induced weight loss. The same parameters were measured in female Sprague-Dawley rats fed on high-fat and control diets. Results: In severely obese women, 11ßHSD1 expression was higher in subcutaneous adipose tissue (SAT), while 11ßHSD1 activity and PEPCK expression were higher in the omental depot. In a multivariate analysis, SAT 11ßHSD1 activity was an independent predictor for central fat accumulation. Hepatic 11ßHSD1 activity and levels of intra-abdominal fat storage correlated negatively, while 11ßHSD1 correlated positively with PEPCK in adipose tissue and liver. Weight loss after gastric bypass surgery was followed by significant and metabolically beneficial reductions in subcutaneous 11ßHSD1 and leptin gene expression, as well as reduced circulating leptin and increased adiponectin levels. In contrast, PEPCK gene expression did not change with weight loss. In rats, a high-fat diet did not affect body weight, but was associated with increased serum leptin and decreased adiponectin levels. Short-term, high-fat diet feeding resulted in the up-regulation of SAT 11ßHSD1 expression, while chronic feeding led to its significant down-regulation (compared with the control diet and short-term, high-fat feeding). Interestingly, hepatic 11ßHSD1 expression was constantly downregulated in rats that were fed a high-fat diet. Conclusions: Severe obesity in women was accompanied by a metabolically adverse increase of 11ßHSD1 in adipose tissue, with a concomitant decrease in the liver. Subcutaneous 11ßHSD1 was an independent predictor for central fat accumulation. As weight loss was followed by significant down-regulation of subcutaneous 11ßHSD1, we suggest that up-regulation of this enzyme was a consequence, rather than a cause of obesity. In rodents, a high-fat diet induced dynamic changes in 11ßHSD1 in SAT and liver, both being down-regulated after chronic high-fat feeding without altered weight. In summary, weight changes and alterations in fat and liver glucocorticoid metabolism are closely linked. Moreover, a high-fat diet significantly influences 11ßHSD1 expression/activity in adipose tissue and liver without affecting body weight.
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Factors affecting the timing and success of sockeye salmon spawning migrationsCrossin, Glenn Terrence 11 1900 (has links)
Migration timing is a conserved life-history trait. To address the hypothesis that reproductive hormones are principal determinants of migration timing, I physiologically biopsied over 1000
sockeye salmon and monitored their subsequent behaviour with acoustic and radio telemetry as they migrated from the Pacific Ocean toward and into the Fraser River, and then onward to distant spawning areas. Links between physiology, behaviour, and survival were examined.
Circulating testosterone was found to be positively correlated with the rates of river entry in Late-run females but not in males, despite having concentrations that were equal if not higher than those of females. The notion of protandrous migration, in which males synchronize their activities to the reproductive and migratory schedules of females, was postulated as the basis for
this difference. Once in river however, successful males and females were those that (1) took longest to enter the river, and (2) had high somatic energy, low testosterone, and low gill Na+,K+-ATPase activities.
An experimental test of the effect of reproductive hormones on the regulation of migration timing proved inconclusive. Relative to controls, GnRH and (or) testosterone treatment did not influence rates of ocean travel by males. Unfortunately, no females were examined.
Nevertheless, significant, positive correlations between initial testosterone and travel times were found irrespective of hormonal treatment, which was unexpected but consistent with the previous studies.
In an experimental simulation of an ‘early’ migration, normally timed Late-run sockeye exposed to typical 10 ºC river temperatures and then released to complete migration were 68% successful. In contrast, salmon held at 18 °C and released were half as successful. The expression of a kidney parasite was near maximal in the 18 °C fish and undetectable in the 10 °C fish. Only gill Na+,K+-ATPase activity differed between groups, with a drop in the 18 °C fish. Though no clear stress, reproductive, or energetic differences were observed between groups, the ultimate effect
of high temperature treatment was high disease expression, slowed migration speeds, and high migration mortality.
Changes in reproductive schedules, due to changes in latitudinal ocean distributions, are discussed as potential causes of early migration by Late-run sockeye.
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Impaired glucose tolerance (IGT) : a study in South African Indians in Durban.Motala, Ayesha Ahmed. January 1990 (has links)
No abstract available. / Thesis (M.D.)-University of Natal, 1990.
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A study of diabetes mellitus in young Africans and Indians (age of onset under 35) in Natal.Mahomed, Abdool Khalek Omar. January 1982 (has links)
No abstract available. / Thesis (M.D.)-University of Natal, 1982.
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Regulation of Glucose Homeostasis by the PHLPP1 PhosphataseLarson, Kara L 01 January 2014 (has links)
Type 2 diabetes mellitus is a metabolic disease that affects one in ten people in the United States. It is caused by a combination of genetics and lifestyle factors. Disease progression begins with insulin resistance in peripheral tissues followed by pancreatic beta-cell failure. The mechanisms behind disease progression are not completely understood. PH domain leucine rich repeat protein phosphatase 1 (PHLPP1) is a known regulator of Akt and other members of the AGC kinase family. Akt has been established to play a role in numerous metabolic signaling pathways, including insulin action. It is hypothesized that as a regulator of Akt, PHLPP1 would have an important function in glucose homeostasis. Glucose tolerance tests performed on 8-week old Phlpp1-/- mice revealed no significant difference in glucose tolerance compared to wild type, however these mice did exhibit increased fasting blood glucose levels. Glucose tolerance tests were repeated at 20 weeks on the same mice and, interestingly, they displayed impaired glucose tolerance compared to wild type. Insulin tolerance tests showed that 8-week old mice have increased insulin sensitivity, however, the 20-week old mice were insulin-resistant compared to control animals. The 20-week old knockout mice also had significantly higher fasting blood glucose levels compared to 8-week old mice. To determine if the increased fasting blood glucose levels are due to increased hepatic glucose output, pyruvate tolerance tests were performed on both the 8 & 20 week old mice. Old mice displayed significantly increased hepatic glucose production compared to wild type. EchoMRI done on 24-week old mice showed significantly increased fat mass and decreased lean mass in the Phlpp1-/- mice compared to wild type littermates. Western blot analysis of liver samples from 32 week old Phlpp1-/- mice indicates loss of Akt signaling accompanied by a decrease in IRS2 protein levels, a common indicator of insulin resistance. These data suggest that Phlpp1-/- mice mimic the development of type 2 diabetes in humans, and provide a unique animal model to study the progression of type 2 diabetes and diabetes-associated complications.
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ANTI-MÜLLERIAN HORMONE IN STALLIONS AND MARES: PHYSIOLOGICAL VARIATIONS, CLINICAL APPLICATIONS, AND MOLECULAR ASPECTSClaes, Anthony N.J. 01 January 2014 (has links)
Anti-Müllerian hormone (AMH) is a homodimeric glycoprotein that is best known for its role in regression of the Müllerian duct in the male fetus. Accumulating evidence indicates that AMH also has an important role during different physiological processes after birth. In contrast to other species, relatively little is known about AMH in the horse. In chapter one, developmental and seasonal changes in serum AMH concentrations in male horses were determined, and the use of AMH for determination of retained cryptorchid testes was established. In chapter two, the interrelationship between plasma AMH concentrations, antral follicle counts (AFC), and age in mares was evaluated. Molecular and hormonal changes in the equine follicle with regard to variations in antral follicle count and follicular development were examined in chapter three. In chapter four, the effect of AFC on age-related changes in follicular parameters in light-type horse mares was examined. Peripheral AMH concentrations were significantly higher in prepubertal colts than in postpubertal stallions and varied with season in mature stallions with higher concentrations during the physiological breeding season. Furthermore, serum AMH concentrations were significantly higher in cryptorchid stallions compared to intact stallions or geldings. Circulating AMH concentrations varied widely amongst mares of the same age while the repeatability of AMH was high within and between estrous cycles. More importantly, AMH concentrations were positively associated with AFC, and this relationship increased with mare age. In addition, variations in AMH concentrations or AFC were associated with molecular differences in granulosa cells of growing follicles, and the expression of AMH and genes co-expressed with AMH in the equine follicle as well as intrafollicular AMH concentrations decreased during follicular development. Finally, the inter-ovulatory interval and length of the follicular phase is increased in aged mares with low AFC. In conclusion, AMH is a useful biomarker for cryptorchidism in stallions and ovarian reserve in mares. Furthermore, follicular function was interrelated to AFC or AMH based upon molecular differences in growing follicles, while age-related changes in follicular parameters are linked to differences in AFC.
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Effects of Chronic Maternal Stress on Behaviour and Hypothalamo-pituitary-adrenal Function in OffspringEmack, Jeffrey 15 August 2013 (has links)
Maternal stress during the perinatal period has been linked to attention and behavioral problems and increased adrenocortical activity in children. Underlying this relationship is thought to be exposure to excessive glucocorticoids during development. The aim of this set of studies was to determine the effects of chronic maternal stress (CMS) during the perinatal period on behaviour and endocrine function in male and female guinea pig offspring at the juvenile and adult life stage. Environmental enrichment was investigated as a potential therapeutic tool to reverse changes induced by CMS. Pregnant guinea pigs were exposed to a sequence of stressors every other day over the second half of gestation until weaning on postnatal day 25. Offspring were tested for ambulatory activity, attention, cognitive function, sex-steroid levels and adrenocortical function. One cohort of animals were housed in an enriched environment, the remaining offspring were housed in standard conditions. A separate cohort was administered amphetamine (1 mg/kg) prior to behavioural testing to determine influence of CMS on dopaminergic function. Juvenile male and female offspring of mothers exposed to stress exhibited increased basal and decreased stress-induced salivary cortisol, and male offspring displayed reduced activity and a phase shift in their circadian rhythm of activity. Adult male offspring of CMS mothers exhibited increased activity in a novel environment and decreased activity in a familiar environment. Female adult offspring of CMS mothers exhibited reduced attention and increased activity in a novel environment. Enrichment acted independently of CMS, increasing plasma testosterone and attention in adult male offspring and reducing the adrenocortical response to stress and decreasing attention and activity in female offspring. Amphetamine decreased activity in a novel environment and increased activity in a familiar environment in both sexes, regardless of age or maternal treatment. Amphetamine improved attention in juvenile and adult males. The current studies demonstrated a strong effect of CMS on behaviour in juvenile and adult offspring. Enrichment was not effective for attenuating the effects of CMS. These studies clearly demonstrate behavioural changes as a result of CMS emerge over the lifetime of the offspring and have begun to uncover the underlying mechanisms of programming.
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Effects of Chronic Maternal Stress on Behaviour and Hypothalamo-pituitary-adrenal Function in OffspringEmack, Jeffrey 15 August 2013 (has links)
Maternal stress during the perinatal period has been linked to attention and behavioral problems and increased adrenocortical activity in children. Underlying this relationship is thought to be exposure to excessive glucocorticoids during development. The aim of this set of studies was to determine the effects of chronic maternal stress (CMS) during the perinatal period on behaviour and endocrine function in male and female guinea pig offspring at the juvenile and adult life stage. Environmental enrichment was investigated as a potential therapeutic tool to reverse changes induced by CMS. Pregnant guinea pigs were exposed to a sequence of stressors every other day over the second half of gestation until weaning on postnatal day 25. Offspring were tested for ambulatory activity, attention, cognitive function, sex-steroid levels and adrenocortical function. One cohort of animals were housed in an enriched environment, the remaining offspring were housed in standard conditions. A separate cohort was administered amphetamine (1 mg/kg) prior to behavioural testing to determine influence of CMS on dopaminergic function. Juvenile male and female offspring of mothers exposed to stress exhibited increased basal and decreased stress-induced salivary cortisol, and male offspring displayed reduced activity and a phase shift in their circadian rhythm of activity. Adult male offspring of CMS mothers exhibited increased activity in a novel environment and decreased activity in a familiar environment. Female adult offspring of CMS mothers exhibited reduced attention and increased activity in a novel environment. Enrichment acted independently of CMS, increasing plasma testosterone and attention in adult male offspring and reducing the adrenocortical response to stress and decreasing attention and activity in female offspring. Amphetamine decreased activity in a novel environment and increased activity in a familiar environment in both sexes, regardless of age or maternal treatment. Amphetamine improved attention in juvenile and adult males. The current studies demonstrated a strong effect of CMS on behaviour in juvenile and adult offspring. Enrichment was not effective for attenuating the effects of CMS. These studies clearly demonstrate behavioural changes as a result of CMS emerge over the lifetime of the offspring and have begun to uncover the underlying mechanisms of programming.
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Factors affecting the timing and success of sockeye salmon spawning migrationsCrossin, Glenn Terrence 11 1900 (has links)
Migration timing is a conserved life-history trait. To address the hypothesis that reproductive hormones are principal determinants of migration timing, I physiologically biopsied over 1000
sockeye salmon and monitored their subsequent behaviour with acoustic and radio telemetry as they migrated from the Pacific Ocean toward and into the Fraser River, and then onward to distant spawning areas. Links between physiology, behaviour, and survival were examined.
Circulating testosterone was found to be positively correlated with the rates of river entry in Late-run females but not in males, despite having concentrations that were equal if not higher than those of females. The notion of protandrous migration, in which males synchronize their activities to the reproductive and migratory schedules of females, was postulated as the basis for
this difference. Once in river however, successful males and females were those that (1) took longest to enter the river, and (2) had high somatic energy, low testosterone, and low gill Na+,K+-ATPase activities.
An experimental test of the effect of reproductive hormones on the regulation of migration timing proved inconclusive. Relative to controls, GnRH and (or) testosterone treatment did not influence rates of ocean travel by males. Unfortunately, no females were examined.
Nevertheless, significant, positive correlations between initial testosterone and travel times were found irrespective of hormonal treatment, which was unexpected but consistent with the previous studies.
In an experimental simulation of an ‘early’ migration, normally timed Late-run sockeye exposed to typical 10 ºC river temperatures and then released to complete migration were 68% successful. In contrast, salmon held at 18 °C and released were half as successful. The expression of a kidney parasite was near maximal in the 18 °C fish and undetectable in the 10 °C fish. Only gill Na+,K+-ATPase activity differed between groups, with a drop in the 18 °C fish. Though no clear stress, reproductive, or energetic differences were observed between groups, the ultimate effect
of high temperature treatment was high disease expression, slowed migration speeds, and high migration mortality.
Changes in reproductive schedules, due to changes in latitudinal ocean distributions, are discussed as potential causes of early migration by Late-run sockeye.
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The use of deslorelin with centrifuged and non-centrifuged frozen equine semen and its influence on the reproductive endocrinology of the mareChopin, J.B. Unknown Date (has links)
No description available.
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