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Fecal microbiome, feeding patterns and oxidative stress among preterm infants: an exploratory studyMorales, Maria 13 January 2017 (has links)
It is known that the birth process and initial life exposures, such as feeding, may have an important impact on the acquisition of bacterial communities throughout the human body, including the gut. Preterm infants usually have special dietary needs and undergo increased oxidative stress related to intensive care, which can ultimately impair their gastrointestinal microbial colonization and microbial diversity in the bowel. Using molecular techniques, we analyzed the fecal microbiome of 20 preterm infants and tested the association between bacterial communities and feeding type, as well as levels of F2-isoprostanes. We found that feeding influences the fecal microbiome of preterm infants, however more research is needed to clarify the role of human milk fortifiers in this process. We also observed preliminary evidence of an association between microbial composition and oxidative stress, indicating that future studies in this area should be conducted. / February 2017
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Canonical and non-canonical regulation of AMP-activated protein kinaseAuciello, Francesca Romana January 2015 (has links)
The AMP-activated protein kinase (AMPK) is a sensor of cellular energy stress that, once activated, promotes ATP-producing process while it switches off ATP-consuming pathways, in order to restore the cellular energetic balance under conditions of stress. Activation of AMPK is dependent on the phosphorylation of the residue Thr172 in its α subunit. This phosphorylation is generally mediated by the known tumour suppressor LKB1, but also CaMKKβ has been shown to phosphorylate AMPK. As its name suggests, AMPK is also activated by the binding of AMP to its γ subunit. This binding causes a >10 fold allosteric stimulation, promotes phosphorylation of Thr172 by upstream kinases and protects AMPK from dephosphorylation of Thr172 by protein phosphatase(s). In 2010 it was reported that oxidative stress mediated by H<sub>2</sub>O<sub>2</sub> activated AMPK by increasing the cellular AMP:ATP and ADP:ATP ratios (Hawley et al, 2010). However, the same year another work suggested that the mechanism of activation of AMPK by H<sub>2</sub>O<sub>2 </sub>was direct, independent of AMP and involved the oxidation of two cysteine residues in the α subunit of AMPK (Zmijewski et al, 2010). Given this discrepancy, here we provided evidence that H<sub>2</sub>O<sub>2</sub>, generated by addition of glucose oxidase in the cell medium, activates AMPK mostly through an increase of AMP:ATP and ADP:ATP ratios, as previously suggested in our laboratory. However, it seems that there might be a second, minor mechanism of activation that is independent of the changes in cellular nucleotides. This second mechanism was not identified in our previous work because we were not aware of how rapidly a single bolus of H<sub>2</sub>O<sub>2</sub> can be metabolized by the antioxidant defences of the cell. We could not identify the alternative mechanism of activation by H<sub>2</sub>O<sub>2 </sub>but showed that H<sub>2</sub>O<sub>2</sub> could protect Thr172 from dephosphorylation, which might suggest a direct effect of H<sub>2</sub>O<sub>2</sub> on the phosphatase(s) dephosphorylating AMPK. However, since the identity of this phosphatase(s) remains unclear, we could not rule out the possibility that the protection from dephosphorylation that we observed could still be mediated by the increase in AMP:ATP and ADP:ATP ratios. Moreover, it remains still possible that a direct effect of H<sub>2</sub>O<sub>2</sub> on AMPK might be responsible for the small but significant activation we detected in cell expressing a nucleotides-insensitive mutant of AMPK. Recently, a new crystal structure of AMPK obtained by Xiao et al (2013) provided new insights about AMPK structure and regulation. In particular, the authors identified a new binding pocket located at the interface between the N-lobe of the α-kinase domain and the β-CBM of AMPK, which appeared to be the binding site for two direct activators of AMPK: A769662 and 991. Here we confirm that this novel binding pocket is indeed the binding site for both A769662 and 991, and provide evidence that another direct activator of AMPK, MT63-78, also binds at the same site. Mutation of two important residues in this pocket (Lys29 and Lys31 of the α2 subunit) abolished the allosteric stimulation of AMPK by A769662, 991 and MT63-78 while it had no effect on allosteric stimulation by AMP. However, we also showed that the same mutation abolished protection against Thr172 dephosphorylation not only by A769662, 991 and MT63-78, but also by phenformin and H2O2, which are known to activate AMPK by increasing the AMP:ATP and ADP:ATP ratios. These data show that the integrity of this pocket is important for the effect of AMP to protect against Thr172 dephosphorylation, but not for its ability to cause allosteric stimulation. Moreover, in HEK-293 cell stably expressing an α2 subunit carrying the mutation of both Lys29 and Lys31, the basal activity of AMPK due to Thr172 phosphorylation was almost 6-fold less than in cells expressing wild-type α2. This result pointed out for the first time that there might be a natural ligand binding in the newly discovered binding pocket that is not able to bind to the double mutant, explaining the difference in activity observed. However the identity of this possible natural ligand remains unclear and more studies will be necessary to uncover it.
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Identification and molecular characterization of novel genomic targets in oxidant-induced vascular injuryPartridge, Charles Randal 25 April 2007 (has links)
Gene expression was examined in vascular smooth muscle cells to study the complex interaction between oxidative injury and the pathogenesis of vascular disease. Extensive vascular remodeling coupled to increased production of 8-epi-PGF2ñ nuclear localization of NFúB, and alterations in glutathione homeostasis were identified as major responses of the vascular wall to oxidative stress. Transcriptional profiling studies, supported by immunohistochemistry and in situ hybridization measurements, identified genes involved in adhesion and extracellular matrix deposition (ñ1 integrin, collagen), cytoskeletal rearrangements (ñ-smooth muscle actin, ñ-tropomyosin), and signal transduction (NFúB, osteopontin, and LINE) as targets of oxidant injury. In the case of osteopontin (OPN), elevation of OPN levels in vSMCs was shown to be mediated by redox-regulated transcriptional mechanisms. A 200bp region located in the 5' UTR of the osteopontin promoter was found to be responsive to oxidative stress. This regulatory region contained two distinct cis acting elements involved in promoter inducibility. These elements were tentatively identified as NFKB and TIEG-1 binding sites and shown to be highly responsive to hydrogen peroxide and chemical antioxidants. Collectively these studies answer central questions regarding the mechanisms underlying the vascular response to oxidative stress and the involvement of OPN in diseases of the vascular wall.
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Oxidative Stress and Risk of Cardiovascular Disease Associated with Low- and High-monounsaturated Fat Portfolio DietsChiavaroli, Laura 22 July 2010 (has links)
The objective was to assess the effect of a high-monounsaturated fat (MUFA) dietary portfolio of cholesterol-lowering foods on oxidative stress and cardiovascular risk. Twenty-four hyperlipidemic subjects followed a very low-saturated-fat therapeutic control diet for 4 weeks after which they were randomized to receive the dietary portfolio, consisting of soy protein (20g/1000kcal), viscous fibre (10.3g/1000kcal), plant sterols (2-3g) and almonds (21.5g/1000kcal), in combination with high- or low-MUFA (25.9% and 12.9% MUFA, respectively) for the next 4 weeks, where MUFA replaced 13.0% of dietary carbohydrate.
On high-MUFA, there were significantly greater increases in HDL-C and apoA1 and significantly greater reductions in total:high-density lipoprotein cholesterol (total:HDL-C) ratio and high-sensitivity C-reactive protein (hs-CRP) compared to the low-MUFA dietary portfolio. In all diets there were significant increases in protein thiols and reductions in conjugated dienes and thiobarbituric acid reactive substances (TBARS) measured in the LDL-fraction, however no difference between the high- and low-MUFA diets.
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Identification and molecular characterization of novel genomic targets in oxidant-induced vascular injuryPartridge, Charles Randal 25 April 2007 (has links)
Gene expression was examined in vascular smooth muscle cells to study the complex interaction between oxidative injury and the pathogenesis of vascular disease. Extensive vascular remodeling coupled to increased production of 8-epi-PGF2ñ nuclear localization of NFúB, and alterations in glutathione homeostasis were identified as major responses of the vascular wall to oxidative stress. Transcriptional profiling studies, supported by immunohistochemistry and in situ hybridization measurements, identified genes involved in adhesion and extracellular matrix deposition (ñ1 integrin, collagen), cytoskeletal rearrangements (ñ-smooth muscle actin, ñ-tropomyosin), and signal transduction (NFúB, osteopontin, and LINE) as targets of oxidant injury. In the case of osteopontin (OPN), elevation of OPN levels in vSMCs was shown to be mediated by redox-regulated transcriptional mechanisms. A 200bp region located in the 5' UTR of the osteopontin promoter was found to be responsive to oxidative stress. This regulatory region contained two distinct cis acting elements involved in promoter inducibility. These elements were tentatively identified as NFKB and TIEG-1 binding sites and shown to be highly responsive to hydrogen peroxide and chemical antioxidants. Collectively these studies answer central questions regarding the mechanisms underlying the vascular response to oxidative stress and the involvement of OPN in diseases of the vascular wall.
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New factors that affect adrenomedullin expressionWong, Hoi-kin, 黃凱健 January 2013 (has links)
ADM is a 52-amino acid peptide which carries out multiple biological functions in cardiovascular system such as vasodilation and hypotension, and is a prognostic marker for cardiovascular diseases. Recent studies show that its plasma level is elevated in diabetes, however the reason and significance for such an increase has not been understood. Recent research has proposed that inflammation and oxidative stress both contribute to the pathogenesis of diabetes. If ADM is a marker in diabetes, it is possible that ADM is regulated by these two mechanisms, and so this project aims to investigate how these mechanisms could affect ADM expression.
Recent studies have demonstrated that advanced glycation endproducts (AGEs) could lead to development of various diabetic complications. AGEs are formed as intermediate product in the non-enzymatic glycation of reducing sugars. Formation of these products is stimulated by hyperglycemia and oxidative stress, which could also induce ADM expression. Hence one of the studies investigated the direct effect of AGEs on ADM expression in an in vitro model. A rat macrophage cell line NR8383 was used to investigate the dose-response and time-point responses of macrophage cells in expressing ADM stimulated by AGEs. 6 hours of AGEs treatment resulted in no significant effect on ADM gene expression. The gene expression increased in all time points in which the change was at maximum after 1 hour of AGE treatment compared with other time points (P<0.05). However the time-dependent effect on ADM gene expression was insignificant compared with controls. How oxidative stress could lead to increased ADM expression deserves further investigation.
ADM plays a role in inflammation that it could influence IL-6 and adiponectin expressions. This project also investigated whether IL-6 and adiponectin could affect ADM levels on the opposite. The associations between IL6 and adiponectin single nucleotide polymorphisms (SNPs) with plasma ADM levels were studied using a cohort of 476 subjects from the Cardiovascular Risk Factor Prevalence Study (CRISPS). Specific tagging SNPs were genotyped for the 476 subjects. Significant associations were identified for the IL6 SNP rs17147230 and adiponectin SNP rs182052 with plasma ADM levels in additive model (β=-0.096, P=0.034, and β=0.104, P=0.023 respectively adjusting for age and sex). The associations remained significant after adjusting for various covariates (P<0.05). Genotypic model shows that the minor alleles of rs17147230 and rs182052 resulted in 12.8% decrease and 17.7% increase in plasma ADM levels. These findings show that ADM level could be regulated by IL-6 which is an inflammatory cytokine, and adiponectin which is a protective peptide in inflammation. Reducing inflammation could lower ADM level and adiponectin might be a therapeutic candidate. / published_or_final_version / Medicine / Master / Master of Philosophy
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The analysis and identification of urinary metabolites of vitamin E in man using mass spectrometry and chemical synthesisPope, Simon Alexander Samuel January 2001 (has links)
Vitamin E (a-tocopherol) is the major lipid soluble antioxidant in vivo and is important for maintaining the integrity of cell membranes. Oxidative stress, defined as an imbalance between oxidants and antioxidants, has been implicated in the aetiology of numerous diseases. There is, therefore, interest in establishing methods to measure oxidative stress. It has been suggested that metabolites of vitamin E such as atocopheronolactone (a-TL), with an oxidised chroman ring, may be an indicator of in vivo oxidative stress and that the carboxyethyl-hydroxychromans (CEHCs), with a shortened phytyl side chain, may provide a measure of adequate or excess vitamin E status. However, doubts have been raised about the authenticity of a-TL since a-CEHC has been shown to be artefactually oxidised to a-TL in many of the procedures described. In the course of the current study a relatively simple method using gas chromatographymass spectrometry (GC-MS) was developed which allowed the reproducible measurement of a wide range of deconjugated vitamin E metabolites in urine. This method was used to study the urinary metabolites produced by normal subjects before and after supplementation with vitamin E. The CEHCs were confirmed as the major urinary metabolites of vitamin E, a-TL was detected and a novel group of metabolites, the carboxymethylbutyl-hydroxychromans (CMBHCs), was also tentatively identified. A range of conjugated (sulphated and glucuronidated) and free metabolites of vitamin E were synthesised chemically and used to a) confirm the identity of (x-CMBHC, b) provide standards for GC-MS and tandem mass spectrometry, c) elucidate the mechanism of artefactual oxidation and to develop new methods for the precise measurement of endogenously produced a-TL and d) investigate the type of conjugation of the various metabolites of vitamin E in human urine.
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Cell cycle and growth responses to oxidative stress in ArabidopsisTitmus, Craig Edward January 2010 (has links)
No description available.
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Oxidative Stress and Risk of Cardiovascular Disease Associated with Low- and High-monounsaturated Fat Portfolio DietsChiavaroli, Laura 22 July 2010 (has links)
The objective was to assess the effect of a high-monounsaturated fat (MUFA) dietary portfolio of cholesterol-lowering foods on oxidative stress and cardiovascular risk. Twenty-four hyperlipidemic subjects followed a very low-saturated-fat therapeutic control diet for 4 weeks after which they were randomized to receive the dietary portfolio, consisting of soy protein (20g/1000kcal), viscous fibre (10.3g/1000kcal), plant sterols (2-3g) and almonds (21.5g/1000kcal), in combination with high- or low-MUFA (25.9% and 12.9% MUFA, respectively) for the next 4 weeks, where MUFA replaced 13.0% of dietary carbohydrate.
On high-MUFA, there were significantly greater increases in HDL-C and apoA1 and significantly greater reductions in total:high-density lipoprotein cholesterol (total:HDL-C) ratio and high-sensitivity C-reactive protein (hs-CRP) compared to the low-MUFA dietary portfolio. In all diets there were significant increases in protein thiols and reductions in conjugated dienes and thiobarbituric acid reactive substances (TBARS) measured in the LDL-fraction, however no difference between the high- and low-MUFA diets.
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Oxidative Stress and Nutrition in Lung and Liver Transplant RecipientsMadill, Janet 21 April 2010 (has links)
Transplantation is an acceptable treatment for end-stage lung and liver disease patients. In lung transplantation, long-term survival is limited due to Bronchiolitis Obliterans Syndrome (BOS) and in liver transplantation, Hepatitis C Virus (HCV) disease recurrence significantly impacts long-term survival. Treatment options are limited and often not successful. It is therefore important to conduct research on the factors contributing to the pathogenesis and disease severity of BOS and HCV to improve our understanding of the mechanisms and potentially reduce morbidity and mortality. Several factors may play a role. The focus of this thesis is to assess the role of Oxidative Stress (OxS) and nutrition on these patient populations.
BOS is a frequent complication of lung transplantation. OxS may contribute to its pathogenesis and induce further tissue injury and inflammation. OxS can be influenced by several factors including nutrition. The cross-sectional study showed that BOS lung recipients have elevated markers of OxS in their Bronchoalveolar Lavage Fluid (BALF) compared to those without BOS. However, there was no difference in nutritional factors potentially affecting OxS.
HCV reinfection post transplant is universal, significantly increasing morbidity and mortality. OxS is involved in the pathogenesis of chronic HCV but its role in HCV disease recurrence is unknown. A first study determined whether HCV liver recipients (HCV-LT) were more oxidatively stressed when compared to controls or HCV non-transplant patients. A second study assessed OxS at six-and 12 months post transplant and compared results between those with and without recurrence.
The results showed that HCV-LT were more oxidatively stressed, vitamin A intakes were significantly lower and plasma gamma- tocopherol was significantly higher in HCV-LT. Additionally, those with recurrence were more oxidatively stressed at six-months (before recurrence) and 12 months compared to those without recurrence. No differences were seen regarding nutrition parameters.
These results suggest that OxS is present in transplant recipients but that nutritional factors do not play a significant role. Other causes of OxS likely play a more significant role such as the presence of inflammation due to immunological reactions associated with BOS and the generation of reactive oxygen species (ROS/RNS) seen in patients with HCV disease.
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