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Domain Duplication, Darwinian Selection, and the Origin of the Globulin Seed Storage ProteinsCannon, Nathaniel S. 12 August 2008 (has links) (PDF)
The seed storage globulins found among virtually all spermatophytes comprise a multi-gene family of proteins with ancient evolutionary origins. The two main groups of storage globulins include the legumins (11S) and vicilins (7S), both of which play a main role in protein deposition and storage in the seed endosperm. Composed of two cupin domains (bicupin), these proteins have been recently noted not only for their close structural relationships among the two subfamilies (7S and 11S) but also for their similarity to other proteins such as germin-like proteins (GLP's), bacterial oxalate decarboxylases, and other cupin containing proteins. Previous studies have investigated the evolutionary relationships among the legumin and vicilin groups, as well as their presumed evolutionary link to other cupin containing proteins; however these have each come short of any comprehensive resolved evolutionary history of the globulin family. This study focuses first on resolving the relationships among the cupin super-family in relation to the storage globulins, as well as the GLP's, which have been postulated to be the single domain ancestors of the bicupin storage globulins. Nucleotide coding sequences for both N-terminus and C-terminus cupin domains of the storage globulins, including conserved non-cupin domain helical repeats and inter-domain spacers were aligned to a comparably sized set of single cupin coding sequences (CDS). The phylogenetic relationships among the two globulin domains as well as the single cupin genes were elucidated using Bayesian inference of tree likelihoods. Further phylogenetic analysis was performed on the complete CDS's for all storage globulin sequences in the study, using an appropriate out-group of similar overall domain architecture determined by the overall topology of the cupin super-family. This globulin muti-gene tree was used, along with an alignment corresponding to structurally resolved portions of the mature globulin peptides, to perform an analysis of patterns of selection among the various lineages of cupin-containing globulins. The results of these analyses provide evidence for a common origin of all cupin containing genes. The GLP and storage globulin domains do not appear to be immediate ancestors of one another, but are grouped with the fungal spherulins as well, suggesting that the single cupin genes which gave rise to these groups had already diverged prior to the rise of land plants. The storage globulin gene tree provides evidence supporting the notion that true legumins and vicilins were recruited as seed storage proteins independent of one another, after their divergence. This is evidenced by the fact that they comprise two separate groups each with basal non-storage 11S/7S-like proteins. Additional insight into the differentiating selection pressures provides a clearer picture of how similar suites of physicochemical properties came under selection after the recruitment of the 11S and 7S families as seed specific proteins. Regions under strong destabilizing selection correspond to regions known to be of importance in the overall structure of storage globulins. Strong destabilizing selection at the pore of the globulin subunit suggests that this region may have undergone more functional diversification than previously thought to have occurred among the legumins and vicilins.
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Diagnostický příspěvek k hodnocení intervenčních modelů léčby diabetu mellitu 1. typu / Diagnostic contribution to the evaluation of intervention models in the treatment of type 1 diabetesZacharovová, Klára January 2012 (has links)
During treatment of diabetes mellitus by immunointervention or transplantation, it is necessary to monitor the markers of immune destruction or rejection of surviving insulin producing cells. An aim of this thesis is to improve the possibilities of following autoimmunity and to detect the survival of transplanted pancreatic islet in vivo. Partial aims included vitality testing of isolated islets for transplantation by measurement of respiration activity, observing the process of in vitro labeling of isolated islets with superparamagnetic iron oxide (SPIO) contrast agent for subsequent magnetic resonance imaging (MRI) of islets and observing SPIO particles transport after transplantation. We also studied a new dual paramagnetic contrast agent combined with fluorescein intended for identification of the MRI contrast agent in samples for histology. Further, we assessed autoimmune reaction by evaluation of cytokine response to specific stimulation with auto-antigens. We tried to affect beta-cells destruction by polyclonal anti- thymocyte antibodies in a mouse experimental model. A new method of the islet respiration measurement correlated with other methods of islet quality testing and it was suggested as a diagnostic test before clinical transplantation. Results obtained studying the intercellular...
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Diagnostický příspěvek k hodnocení intervenčních modelů léčby diabetu mellitu 1. typu / Diagnostic contribution to the evaluation of intervention models in the treatment of type 1 diabetesZacharovová, Klára January 2012 (has links)
During treatment of diabetes mellitus by immunointervention or transplantation, it is necessary to monitor the markers of immune destruction or rejection of surviving insulin producing cells. An aim of this thesis is to improve the possibilities of following autoimmunity and to detect the survival of transplanted pancreatic islet in vivo. Partial aims included vitality testing of isolated islets for transplantation by measurement of respiration activity, observing the process of in vitro labeling of isolated islets with superparamagnetic iron oxide (SPIO) contrast agent for subsequent magnetic resonance imaging (MRI) of islets and observing SPIO particles transport after transplantation. We also studied a new dual paramagnetic contrast agent combined with fluorescein intended for identification of the MRI contrast agent in samples for histology. Further, we assessed autoimmune reaction by evaluation of cytokine response to specific stimulation with auto-antigens. We tried to affect beta-cells destruction by polyclonal anti- thymocyte antibodies in a mouse experimental model. A new method of the islet respiration measurement correlated with other methods of islet quality testing and it was suggested as a diagnostic test before clinical transplantation. Results obtained studying the intercellular...
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Imunolocalização e expressão do receptor de ocitocina (OTR) e da globulina ligadora de hormônios sexuais (SHBG) em testículo e epidídimo de cães e suas correlações com a qualidade espermática / Immunolocalization and expression of oxytocin receptors (OTR) and sex hormone- binding globulin (SHBG) in the testicle and epididymis of dogs: correlation with sperm qualityDalmazzo, Andressa 22 July 2016 (has links)
A ocitocina (OT) é um neuropeptídio hipotalâmico, que dentre suas funções na fêmea destaca-se a contração uterina durante o parto e a ejeção do leite. No entanto, estudos vêm demonstrando importantes funções endócrinas e parácrinas no trato reprodutivo masculino. Evidenciando a possível ação conjunta entre OT e a Globulina ligadora de hormônios sexuais (SHBG). Entretanto, em cães não existem informações disponíveis quanto sua atuação. Assim, estudos direcionados aos receptores de ocitocina (OTR) e SHBG e suas funções no sistema reprodutor masculino, mais especificamente na fisiologia espermática, são de suma importância para os conhecimentos da fisiologia reprodutiva para posterior aplicação em biotecnologias reprodutivas em pequenos animais e humanos, fomentando também novas perspectivas para a utilização terapêutica da ocitocina em enfermidades reprodutivas. Portanto, o objetivo deste estudo é verificar a expressão gênica e proteica do OTR e SHBG no testículo e epidídimo de cães, correlacionando tais dados com a qualidade espermática e dosagem de testosterona. Para tal, foram coletados testículos e epidídimos de 26 cães em idade reprodutiva (1 a 5 anos). Após a orquiectomia, foi realizada a coleta dos espermatozoides provenientes da cauda do epidídimo e então, as amostras foram analisadas quanto à motilidade computadorizada do sêmen (CASA), integridade de membrana plasmática (Eosina/Nigrosina), integridade de membrana acrossomal (Fast Green / Rosa Bengala) e atividade mitocondrial (3´3 Diaminobenzidine). A imunolocalização do OTR e SHBG foi realizada através de imunoistoquímica e imunofluorescência. E a análise de expressão gênica, através da Reação em cadeia da polimerase em tempo real (qRT PCR). E da expressão proteica, através do Western Blotting. Foram encontradas correlações significantes e positivas entre as expressões gênicas do OTR e do SHBG, tanto no testículo como no epidídimo. Além disto, a expressão do OTR no testículo correlacionou-se positivamente com espermatozoides com membrana acrossomal íntegra e negativamente com a porcentagem de células com baixa atividade mitocondrial. Já o SHBG do testículo, correlacionou-se positivamente com a concentração de espermatozoides, porcentagens de células com membrana plasmática e acrossomal íntegras, motilidade, motilidade progressiva e velocidade rápida, e negativamente com a porcentagem de células com baixa atividade mitocondrial. Por outro lado, no epidídimo, a expressão gênica do SHBG apresentou correlação positiva com a porcentagem de células com membrana plasmática íntegra e expressão proteica de SHBG no testículo. Quanto a expressão proteica, o OTR no testículo obteve correlação positiva com testosterona e negativa com atividade mitocondrial nula, já no epidídimo, ocorreu correlação positiva com integridade de membrana acrossomal e negativa também com atividade mitocondrial nula. Em relação ao SHBG, houve correlação positiva com a expressão gênica do SHBG no epidídimo, células normais e padrões de velocidade. E na imunoistoquímica foi possível observar a imunomarcação do OTR e SHBG na musculatura lisa e células de Leydig do testículo e OTR na musculatura lisa do epidídimo. No entanto, não houve imunomarcação do SHBG no epidídimo, assim como expressão proteica. Nossos resultados demonstraram que o OTR e SHBG são expressos nos testículos e epidídimos de cães e que estão relacionados a funções espermáticas importantes, sendo essenciais para o sucesso reprodutivo / Oxytocin (OT) is a hypothalamic neuropeptide that plays important and well known roles in the female such as uterine contraction during childbirth and milk ejection. Notwithstanding, studies have shown important endocrine and paracrine functions also in the male reproductive tract, highlighted by the possible joint action between OT and sex hormone-binding globulin (SHBG). In dogs, however, there is no information available with regards to the role of these hormones in the reproductive function. Thus, studies directed to oxytocin (OTR) and SHBG receptors and their functions in the male reproductive system, specifically with regards to sperm physiology. Such knowledge is essential to understand the reproductive physiology for the subsequent use in reproductive biotechnologies in small animals and humans, especially by providing new perspectives for the therapeutic use of oxytocin in reproductive disorders. Therefore, the aim of this study is to assess the gene and protein expression of OTR and SHBG in the testis and epididymis of dogs, correlating these data with sperm quality and testosterone dosage. To this end, testis and epididymis were collected from 26 dogs in reproductive age (1 to 5 years). After orchiectomy, collection of sperm from the cauda epididymis was carried out and then the samples were analyzed for computerized motility of semen (CASA), plasma membrane integrity (eosin / nigrosine), acrosome membrane integrity (Fast Green / rose Bengal) and mitochondrial activity (3\'3 Diaminobenzidine). The immunolocalization of OTR and SHBG was performed by immunohistochemistry and immunofluorescence. Gene expression analysis was performed by real time polymerase chain reaction (qRT - PCR). The protein expression was further assessed by Western Blotting. Significant positive correlations were found between the gene expressions of OTR and SHBG in both the testis and epididymis. Furthermore, the OTR expression in testis was positively correlated to sperm with intact acrosome membrane and negatively to the percentage of cells with low mitochondrial activity. On the other hand, testicular SHBG was positively correlated with sperm concentration, percentage of sperm with intact plasma membrane and acrosome, motility, progressive motility and the percentage of RAPID sperm. Also, negative correlation was found between testicular SHBG and the percentage of cells with low mitochondrial activity. Furthermore, in the epididymis, SHBG gene expression was positively correlated to the percentage of cells with intact plasma membrane and protein expression of SHBG in the testis. In relation to the protein expression, the OTR in the testis correlated positively with blood plasma testosterone and negatively with sperm with no mitochondrial activity. In the epididymis, OTR protein expression correlated positively with sperm showing intact acrosome and negatively with cells with no mitochondrial activity. With regards to SHBG proteins expression, there was a positive correlation to SHBG gene expression in the epididymis, normal cells and some patterns of sperm velocity. In the immunohistochemistry, we observed the OTR and SHBG immunostainings in the smooth muscle and Leydig cells of the testis while, in the epididymis, the OTR immunostaining could be observed only in the smooth muscle. Interestingly, there was no immunostaining or protein expression of SHBG in the epididymis. Our results demonstrated that OTR and SHBG are expressed in the testis and epididymis of dogs and are related to important sperm functions, essential for reproductive success
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Cortisol perturbation in the pathophysiology of septicaemia, complicated pregnancy and weight loss/obesity.Ho, Jui Ting. January 2007 (has links)
Cortisol, the principal glucocorticoid secreted from the adrenal glands, is essential for life. Healthy cortisol levels are maintained through negative feedback on the central nervous system (CNS) – pituitary stimulatory apparatus which regulates production of adrenocorticotropin (ACTH) and contains a light–entrained intrinsic CNS driven diurnal rhythm. Cortisol participates in a regulatory mechanism where inflammatory cytokines stimulate cortisol release and cortisol in turn suppresses cytokine release. The effects of cortisol in inflammatory states include elevating blood pressure and metabolic regulation. This thesis contains three exploratory studies examining circulating cortisolaemia using the best available methodologies (total and free cortisol and corticosteroid-binding globulin (CBG)) in clinical states characterized by immune activation/ inflammation and altered blood pressure. These clinical states include: (1) septic shock, (2) hypertensive disorders of pregnancy and (3) obesity-induced hypertension. Prior to the studies described here, little was know about cortisolaemia in these common pathological states. Septic shock is a life threatening condition that complicates severe infection and is characterized by systemic inflammation and refractory hypotension. High plasma total cortisol levels and attenuated responses to synthetic ACTH stimulation are associated with increased mortality. The use of corticosteroids in septic shock has been highly controversial for decades, however recent trials have reported haemodynamic and survival benefits associated with the use of physiologic steroid replacement in patients with relative adrenal insufficiency (RAI) – currently defined as a total cortisol increment of 248 nmol/L or less following ACTH (250 μg) stimulation. However, CBG and albumin levels fall by around 50% with an increase in plasma free cortisol in critical illness. Hence, total cortisol may not reflect the biologically active free (unbound) cortisol, suggesting that standard assays for plasma cortisol (which measure total plasma cortisol) underestimate HPA axis activity. In this study, we have showed that plasma free cortisol is a better guide to circulating glucocorticoid activity in systemic infection than total cortisol. We have also validated the use of Coolens’ method in estimating free cortisol in systemic infection, using plasma total cortisol and CBG measurements as plasma free cortisol is not performed in clinical laboratories. Free cortisol measurement allows better categorization of RAI and non-RAI groups with a free cortisol increment of 110 nmol/L as cut-off. Moreover, we have shown that survivors of RAI have normal adrenocortical function on follow-up testing suggesting a lack of functional adrenal reserve rather than adrenal damage during critical illness. Larger randomized controlled trials will be required to redefine RAI using free cortisol measurements and relate that to clinical outcomes and responses to corticosteroid therapy. Nitric oxide (NO) is normally produced in the endothelium by the constitutive form of the NO synthase and this physiologic production is important for blood pressure regulation and blood flow distribution. Studies have shown that an overproduction of NO by the inducible form of NO synthase (iNOS) may contribute to the hypotension, cardiodepression and vascular hyporeactivity in septic shock. Clinical studies of non-selective inhibitors of the L-arginine nitric oxide pathway showed increased mortality from cardiovascular complications. However, glucocorticoids, which improve vasopressor sensitivity, may act by partially suppressing NO synthesis through selective direct inhibition of iNOS, and suppression of inflammatory cytokine synthesis. Hence, plasma nitrate/ nitrite (NOx) levels may provide a titratable end point to individualize glucocorticoid therapy in sepsis. The NOx study in this thesis showed that cortisol (total and free), CBG and NOx correlated to illness severity. Free cortisol, and to a lesser extent total cortisol, but not NOx levels, predicted septic shock. NOx levels were characteristically stable within individuals but inter-individual differences were only partly accounted for by illness severity or renal dysfunction. NOx levels correlated weakly with cortisol, did not relate to the need for vasopressors and were not suppressed by hydrocortisone treatment. Thus, NOx is not a suitable target for glucocorticoid therapy in septic shock. Pregnancy is the only sustained physiologic state of hypercortisolism in humans. A large body of data suggests that excessive foetal and prenatal glucocorticoid exposure leads to reduced birth weight and adverse health in offspring such as elevated blood pressure and insulin resistance. Pre-eclampsia and gamete donor pregnancies are associated with immune activation, elevated inflammatory cytokines as well as elevated blood pressure. Prior to the study described in this thesis however, there was no prospective data on maternal cortisolaemia in these complicated pregnancies. My study has demonstrated for the first time that there was a substantial fall in plasma CBG levels in the last few weeks of gestation with a corresponding rise in free cortisol in normal pregnancy, a finding obscured for methodological reasons in past studies. This free cortisol elevation in late pregnancy may facilitate organ maturation in the foetus and perhaps prepare the mother for the metabolic demands of labour. In pre-eclampsia and gestational hypertension, plasma CBG, total and free cortisol levels were lower in late third trimester; and in IUGR, plasma CBG levels were suppressed from 28 weeks gestation until delivery but with no significant difference in plasma total and free cortisol. Women with assisted reproduction using donor gametes/ embryos had significantly lower plasma CBG, total and free cortisol levels even in those with normal pregnancy outcomes. Low CBG may be due to reduced synthesis or enhanced inflammation-driven degradation. Low maternal cortisol may be due to a lack of placental corticotropin-releasing hormone, or reduced maternal ACTH, driving cortisol production. This unanticipated maternal hypocortisolism in complicated pregnancies may trigger precocious activation of the foetal HPA axis and could have implications for postnatal and adult health. Speculatively, since excess prenatal GCs increase HPA axis activity, we proposed that maternal hypocortisolism may predispose to the hypocortisolaemic state characterized by fatigue, pain and stress sensitivity, in offspring. The third state of immune/ inflammatory activation associated with blood pressure dysregulation studied in this thesis is obesity. The epidemiologic relationship between obesity and hypertension is widely recognised. Central obesity in particular has been associated with exaggerated HPA responses to stimuli. Studies of severe dieting and starvation resulted in hypercortisolism and a significant decrease in CBG. The HPA axis and the renin-angiotensin-aldosterone system (RAAS) have been implicated in the pathophysiology of obesity-induced hypertension. However, there is little data on the effect of moderate weight loss (30% caloric restriction) on adrenocortical function, and the relation of adrenal hormones to altered blood pressure with weight loss. In this study, measures of HPA axis and RAAS and blood pressure monitoring were performed in twenty-five obese subjects before and after a 12-week diet program (6000kJ/day). Short-term, moderate weight loss (mean 8.5 kg) was associated with a small reduction in blood pressure (mean arterial pressure 6 mmHg) and significantly reduced levels of aldosterone and renin but not cortisol levels. These findings suggest that aldosterone may have an important role in the blood pressure reduction with weight loss via a renin mediated mechanism, perhaps involving renal sympathetic tone. In contrast to severe caloric restriction, HPA axis activation does not occur with moderate weight loss. This suggests a threshold effect of weight loss on the HPA axis where greater caloric restriction is required for HPA stimulation, or a counterbalancing of central and direct adrenal effects on HPA axis function. Overall, these three exploratory studies have provided novel data on HPA axis function in systemic infection, pregnancy and in diet-induced weight loss. Each study offers a basis for further studies of HPA axis function in these disorders. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1289330 / Thesis(Ph.D.)-- School of Medicine, 2007.
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Padidėjusio moterų kūno plaukuotumo sąsajų su biocheminiu hiperandrogenizmu įvertinimas / The assesment of relationship between increased body hair growth and biochemical hyperandrogenism in womenKozlovienė, Dalia 25 January 2006 (has links)
Objective
To determine the relationship between increased body hair growth in women and serum sex hormone level, body mass index, and clinical signs.
Sample and methods
The sample group consisted of 186 women, 18–35 year old residents of Lithuania who were referred to the Clinic of Endocrinology, Kaunas University of Medicine Hospital in 2002–2004 and complained for increased body hair growth. Exclusion criteria: 1) taking systemic medications within the period shorter than three months before the beginning of the study; 2) specific reasons of excessive body hair growth, such as androgen secreting adrenal or ovarian tumors, hyperprolactinemia, Cushing syndrome; 3) thyroid dysfunction. A total number of 37 women were excluded from further study. Statistical analysis was performed on 149 women. Increased body hair growth was assessed using Ferriman-Gallwey (F-G) method. Blood samples were drawn in the morning (08:00–10:00 h), in the early follicular phase, with an exclusion of 7 women with amenorrhea, while the blood sample of 12 women with oligomenorrhea was drawn following at least 2 months after the last menstruation. Serum hormones (total testosterone (T), sex hormone binding globulin (SHBG), free androgen index (FAI), dehydroepiandrosterone sulphate (DHEAS) level were measured using the commercial kits. FAI was calculated as follows: T (nmol/l) × 100/ SHBG (nmol/l).
Results
The significance of correlations between the F-G score and the tested variables decreased in the... [to full text]
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Structural and functional characterization of red kidney bean (Phaseolus vulgaris) proteins and enzymatic protein hydrolysatesMundi, Sule 09 August 2012 (has links)
Kidney bean proteins and peptides can be developed to serve as an important ingredient
for the formulation of high quality foods or therapeutic products that may positively
impact on body function and human health. The main goal of this thesis was to determine
the in vitro structural and functional characteristics of major proteins and enzymatic protein hydrolysate of red kidney bean (Phaseolus vulgaris). Selective aammonium sulfate precipitation of the kidney bean proteins yielded 88% globulin and 7% albumin.The globulin and albumin are glycoproteins that contained ~4% and 45% carbohydrate contents, respectively. Physicochemical and functional characteristics of the globulin
fraction, such as, gelation concentration, foam stability, emulsion capacity, and emulsion stability were superior to those of albumin. Reducing SDS-PAGE revealed vicilin with molecular weight of ~45 kDa as the major globulin in kidney beans. Circular dichroism spectroscopy of the purified vicilin showed reductions in α-helix, and β-pleated sheet conformations upon addition of NaCl or changes in pH. Likewise, the tertiary structures as observed from the near-UV CD spectra were also changed by shifts in pH conditions and NaCl addition. Far UV-CD showed increased β-sheet content up till 60oC from room temperature, but a steady loss in the tertiary structure as temperature was further increased; however, β-sheet structure was still detectable at 80oC. Differential scanning calorimetry thermograms showed a prominent endothermic peak with denaturation temperature at around 90oC, attributed to thermal denaturation of vicilin. Alcalase hydrolysis of kidney bean globulin produced multifunctional peptides that showed potential antihypertensive properties because of the in vitro inhibition of activities of renin and angiotensin I converting enzyme as well as the antioxidant properties. The <1
and 5-10 kDa peptide fractions exhibited highest (p<0.05) renin inhibition and the ability to scavenge 2, 2-Diphenyl-1-picrylhydrazyl free radical, inhibit peroxidation of linoleic acid and reduce Fe3+ to Fe2+. Based on this study, incorporation of kidney bean globulin
as an ingredient may be useful for the manufacture of high quality food products.
Likewise, the kidney bean protein hydrolysates, especially the <1 kDa fraction represent a potential source of bioactive peptides for the formulation of functional foods and nutraceuticals.
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Structural and functional characterization of red kidney bean (Phaseolus vulgaris) proteins and enzymatic protein hydrolysatesMundi, Sule 09 August 2012 (has links)
Kidney bean proteins and peptides can be developed to serve as an important ingredient
for the formulation of high quality foods or therapeutic products that may positively
impact on body function and human health. The main goal of this thesis was to determine
the in vitro structural and functional characteristics of major proteins and enzymatic protein hydrolysate of red kidney bean (Phaseolus vulgaris). Selective aammonium sulfate precipitation of the kidney bean proteins yielded 88% globulin and 7% albumin.The globulin and albumin are glycoproteins that contained ~4% and 45% carbohydrate contents, respectively. Physicochemical and functional characteristics of the globulin
fraction, such as, gelation concentration, foam stability, emulsion capacity, and emulsion stability were superior to those of albumin. Reducing SDS-PAGE revealed vicilin with molecular weight of ~45 kDa as the major globulin in kidney beans. Circular dichroism spectroscopy of the purified vicilin showed reductions in α-helix, and β-pleated sheet conformations upon addition of NaCl or changes in pH. Likewise, the tertiary structures as observed from the near-UV CD spectra were also changed by shifts in pH conditions and NaCl addition. Far UV-CD showed increased β-sheet content up till 60oC from room temperature, but a steady loss in the tertiary structure as temperature was further increased; however, β-sheet structure was still detectable at 80oC. Differential scanning calorimetry thermograms showed a prominent endothermic peak with denaturation temperature at around 90oC, attributed to thermal denaturation of vicilin. Alcalase hydrolysis of kidney bean globulin produced multifunctional peptides that showed potential antihypertensive properties because of the in vitro inhibition of activities of renin and angiotensin I converting enzyme as well as the antioxidant properties. The <1
and 5-10 kDa peptide fractions exhibited highest (p<0.05) renin inhibition and the ability to scavenge 2, 2-Diphenyl-1-picrylhydrazyl free radical, inhibit peroxidation of linoleic acid and reduce Fe3+ to Fe2+. Based on this study, incorporation of kidney bean globulin
as an ingredient may be useful for the manufacture of high quality food products.
Likewise, the kidney bean protein hydrolysates, especially the <1 kDa fraction represent a potential source of bioactive peptides for the formulation of functional foods and nutraceuticals.
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Cortisol perturbation in the pathophysiology of septicaemia, complicated pregnancy and weight loss/obesity.Ho, Jui Ting. January 2007 (has links)
Cortisol, the principal glucocorticoid secreted from the adrenal glands, is essential for life. Healthy cortisol levels are maintained through negative feedback on the central nervous system (CNS) – pituitary stimulatory apparatus which regulates production of adrenocorticotropin (ACTH) and contains a light–entrained intrinsic CNS driven diurnal rhythm. Cortisol participates in a regulatory mechanism where inflammatory cytokines stimulate cortisol release and cortisol in turn suppresses cytokine release. The effects of cortisol in inflammatory states include elevating blood pressure and metabolic regulation. This thesis contains three exploratory studies examining circulating cortisolaemia using the best available methodologies (total and free cortisol and corticosteroid-binding globulin (CBG)) in clinical states characterized by immune activation/ inflammation and altered blood pressure. These clinical states include: (1) septic shock, (2) hypertensive disorders of pregnancy and (3) obesity-induced hypertension. Prior to the studies described here, little was know about cortisolaemia in these common pathological states. Septic shock is a life threatening condition that complicates severe infection and is characterized by systemic inflammation and refractory hypotension. High plasma total cortisol levels and attenuated responses to synthetic ACTH stimulation are associated with increased mortality. The use of corticosteroids in septic shock has been highly controversial for decades, however recent trials have reported haemodynamic and survival benefits associated with the use of physiologic steroid replacement in patients with relative adrenal insufficiency (RAI) – currently defined as a total cortisol increment of 248 nmol/L or less following ACTH (250 μg) stimulation. However, CBG and albumin levels fall by around 50% with an increase in plasma free cortisol in critical illness. Hence, total cortisol may not reflect the biologically active free (unbound) cortisol, suggesting that standard assays for plasma cortisol (which measure total plasma cortisol) underestimate HPA axis activity. In this study, we have showed that plasma free cortisol is a better guide to circulating glucocorticoid activity in systemic infection than total cortisol. We have also validated the use of Coolens’ method in estimating free cortisol in systemic infection, using plasma total cortisol and CBG measurements as plasma free cortisol is not performed in clinical laboratories. Free cortisol measurement allows better categorization of RAI and non-RAI groups with a free cortisol increment of 110 nmol/L as cut-off. Moreover, we have shown that survivors of RAI have normal adrenocortical function on follow-up testing suggesting a lack of functional adrenal reserve rather than adrenal damage during critical illness. Larger randomized controlled trials will be required to redefine RAI using free cortisol measurements and relate that to clinical outcomes and responses to corticosteroid therapy. Nitric oxide (NO) is normally produced in the endothelium by the constitutive form of the NO synthase and this physiologic production is important for blood pressure regulation and blood flow distribution. Studies have shown that an overproduction of NO by the inducible form of NO synthase (iNOS) may contribute to the hypotension, cardiodepression and vascular hyporeactivity in septic shock. Clinical studies of non-selective inhibitors of the L-arginine nitric oxide pathway showed increased mortality from cardiovascular complications. However, glucocorticoids, which improve vasopressor sensitivity, may act by partially suppressing NO synthesis through selective direct inhibition of iNOS, and suppression of inflammatory cytokine synthesis. Hence, plasma nitrate/ nitrite (NOx) levels may provide a titratable end point to individualize glucocorticoid therapy in sepsis. The NOx study in this thesis showed that cortisol (total and free), CBG and NOx correlated to illness severity. Free cortisol, and to a lesser extent total cortisol, but not NOx levels, predicted septic shock. NOx levels were characteristically stable within individuals but inter-individual differences were only partly accounted for by illness severity or renal dysfunction. NOx levels correlated weakly with cortisol, did not relate to the need for vasopressors and were not suppressed by hydrocortisone treatment. Thus, NOx is not a suitable target for glucocorticoid therapy in septic shock. Pregnancy is the only sustained physiologic state of hypercortisolism in humans. A large body of data suggests that excessive foetal and prenatal glucocorticoid exposure leads to reduced birth weight and adverse health in offspring such as elevated blood pressure and insulin resistance. Pre-eclampsia and gamete donor pregnancies are associated with immune activation, elevated inflammatory cytokines as well as elevated blood pressure. Prior to the study described in this thesis however, there was no prospective data on maternal cortisolaemia in these complicated pregnancies. My study has demonstrated for the first time that there was a substantial fall in plasma CBG levels in the last few weeks of gestation with a corresponding rise in free cortisol in normal pregnancy, a finding obscured for methodological reasons in past studies. This free cortisol elevation in late pregnancy may facilitate organ maturation in the foetus and perhaps prepare the mother for the metabolic demands of labour. In pre-eclampsia and gestational hypertension, plasma CBG, total and free cortisol levels were lower in late third trimester; and in IUGR, plasma CBG levels were suppressed from 28 weeks gestation until delivery but with no significant difference in plasma total and free cortisol. Women with assisted reproduction using donor gametes/ embryos had significantly lower plasma CBG, total and free cortisol levels even in those with normal pregnancy outcomes. Low CBG may be due to reduced synthesis or enhanced inflammation-driven degradation. Low maternal cortisol may be due to a lack of placental corticotropin-releasing hormone, or reduced maternal ACTH, driving cortisol production. This unanticipated maternal hypocortisolism in complicated pregnancies may trigger precocious activation of the foetal HPA axis and could have implications for postnatal and adult health. Speculatively, since excess prenatal GCs increase HPA axis activity, we proposed that maternal hypocortisolism may predispose to the hypocortisolaemic state characterized by fatigue, pain and stress sensitivity, in offspring. The third state of immune/ inflammatory activation associated with blood pressure dysregulation studied in this thesis is obesity. The epidemiologic relationship between obesity and hypertension is widely recognised. Central obesity in particular has been associated with exaggerated HPA responses to stimuli. Studies of severe dieting and starvation resulted in hypercortisolism and a significant decrease in CBG. The HPA axis and the renin-angiotensin-aldosterone system (RAAS) have been implicated in the pathophysiology of obesity-induced hypertension. However, there is little data on the effect of moderate weight loss (30% caloric restriction) on adrenocortical function, and the relation of adrenal hormones to altered blood pressure with weight loss. In this study, measures of HPA axis and RAAS and blood pressure monitoring were performed in twenty-five obese subjects before and after a 12-week diet program (6000kJ/day). Short-term, moderate weight loss (mean 8.5 kg) was associated with a small reduction in blood pressure (mean arterial pressure 6 mmHg) and significantly reduced levels of aldosterone and renin but not cortisol levels. These findings suggest that aldosterone may have an important role in the blood pressure reduction with weight loss via a renin mediated mechanism, perhaps involving renal sympathetic tone. In contrast to severe caloric restriction, HPA axis activation does not occur with moderate weight loss. This suggests a threshold effect of weight loss on the HPA axis where greater caloric restriction is required for HPA stimulation, or a counterbalancing of central and direct adrenal effects on HPA axis function. Overall, these three exploratory studies have provided novel data on HPA axis function in systemic infection, pregnancy and in diet-induced weight loss. Each study offers a basis for further studies of HPA axis function in these disorders. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1289330 / Thesis(Ph.D.)-- School of Medicine, 2007.
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Proteomics of wheat bran (Triticum aestivum var. Babbler)Jerkovic, Ante January 2006 (has links)
Thesis (MSc (Hons))--Macquarie University, Division of Environmental & Life Sciences, Dept. of Chemistry & Biomolecular Sciences, 2006. / Bibliography: leaves 153-158. / Wheat is a major crop in Australia with around 25 million tonnes of grain harvested in an average year. Improved wheat grain cultivars and wheat grain milling can result in higher biological yields and flour quality. The introduction covers the general aspects of the wheat grain from bran development and structure through to millings and the importance of flour quality in flour-based products. It also highlights the problem with bran contamination in flour during milling and other factors that may have an effect on flour quality. Proteomics was used to identify proteins in three separate bran tissue fractions: the inner fraction (aleurone), intermediate fraction (nucellar tissue, testa, tube cells and cross cells) and the outer faction (hypodermis and epidermis). The aim of the project was to identify proteins in bran tissue fractions which may potentially be useful in improvements in wheat quality for farmers and consumers and flour yield for millers. The results show that more than 80% of the identified proteins in the outer and intermediate tissue factions are defence-and stress-related proteins (chitinase, xylanase, thaumatin-like protein, wheatwin 1, lipid-transfer protein, oxalatae oxidase (OXO), polyphenol oxidase (PPO), peroxidase (POX)). Almost 60% of the proteins identified in the inner tissue fraction are 7S Globulin storage proteins and around 15% are protein synthesis-and energy-related. Water-soluble proteins were also identified and it was found that endochitinase, OXO, PPO and POX all leach out from the grain durings imbibition. This study has added to the knowledge of bran tissue-specific proteins and has broad implications for improving crop yield and flour quality. / Mode of access: World Wide Web. / xiii, 158 leaves ill
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