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Développement d’une approche analytique pour la caractérisation du sélénoprotéome in vivo / Development of analytical methodology for selenoproteomicsBianga, Juliusz 21 February 2013 (has links)
Le sélénium est un micronutriment essentiel pour des nombreux organismes vivants, y compris l’homme. Son rôle est lié à sa présence dans des sélénoprotéines sous forme d’un acide aminé, génétiquement encodé – la sélénocystéine. Il y a 25 sélénoprotéines encodées dans le génome humain. Leurs fonctions, la cinétique et la hiérarchie d'expression se trouvent au cœur des problématiques de recherche concernant le sélénium et la santé humaine. Il existe également un autre type de protéines où le sélénium est inséré par un remplacement partiel du soufre dans la méthionine mais aussi, potentiellement, dans la cystéine. Ces protéines suscitent l’intérêt dans les sciences de nutrition comme source de sélénium biodisponible dans l’alimentation naturelle et supplémentée. L'objectif de cette thèse a été la mise au point de méthodologies analytiques visant la spéciation du sélénium incorporé dans les protéines à l’échelle du protéome entier. Une procédure inédite a été développée pour la détection globale de protéines séléniées dans des gels d’électrophorèse bidimensionnelle par l’imagerie d’ablation laser ICP MS (spectrométrie de masse plasma à couplage inductif) permettant de s’affranchir de l’utilisation de l’isotope radioactif 75Se. Les autres avancées comprennent la mise en place d’un couplage robuste de HPLC capillaire avec l’ICP MS pour la détection des sélénopeptides dans des microvolumes de digestats trypsiques des protéines extraites du gel ainsi que la mise en place des protocoles d’identification des protéines séléniées par la spectrométrie de masse électrospray en tandem utilisant la trappe orbitale (Orbitrap). Les méthodes développées ont permis (i) la caractérisation de la part du protéome sélénié contenant la sélénocystéine chez la levure séléniée, (ii) l’identification des protéines majeures qui accumulent le sélénium dans le blé, et (iii) le dosage semi quantitatif et la caractérisation globale des sélénoprotéomes (GPx1, GPx4, TRxR1, TRxR2, Sel15kDa) dans les lignées cellulaires. / Selenium is an essential micronutrient for many living organisms including man. Its role is related to selenoproteins which contain genetically encoded selenocysteine. There are 25 selenoproteins encoded in the human genome. Their function, expression kinetics and hierarchy have been a topic of intense research in life sciences. There is another type of proteins which contain selenium inserted non-specifically by partly replacing sulphur in methionine and, potentially, cysteine. They are of interest in nutrition science as source of bio-available selenium in natural and supplemented foods. The goal of this Ph.D. was the development of methodologies for the analysis of selenium-containing proteins on the entire proteome scale. A novel procedure was developed for their global detection in 2D electrophoretic gels par laser ablation inductively coupled plasma mass spectrometry (ICP MS) imaging permitting to avoid the use of the radioactive 75Se. The other developments included (i) a robust capillary HPLC – ICP MS coupling allowing the detection of Se-containing peptides in microliter volumes of the digests of proteins extracted from the gel and (ii) protocols allowing the targeted identification of the Se-containing proteins by a parallel capillary HPLC - electrospray Orbitrap MS/MS. The methods developed allowed (i) the characterisation of the selenocystein-containing part of the selenoproteome of Se-enriched yeast, (ii) identification of the major Se-accumulating proteins in wheat, and (iii) semiquatitive analysis and global identification of the selenoproteomes (GPx1, GPx4, TRxR1, TRxR2, Sel15kDa) expressed in different human cell lines.
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An examination of the bioactive lipids involved in skin cell inflammation and in response to ultraviolet radiation : effect of n-3 polyunsaturated fatty acid supplementation on red blood cell and human dermal fatty acid and production of eicosanoids by HaCaT keratinocytes and 46BR.1N fibroblasts following exposure to UVRAl-Aasswad, Naser M. I. January 2013 (has links)
Ultraviolet radiation (UVR) in solar light is important for skin biology. It is involved in the development acute and chronic skin inflammation, aging and cancer, causing erythema, tanning and local or systemic immunosuppression. Omega-3 polyunsaturated fatty acids (n-3 PUFA) are considered anti- inflammatory and could reduce the damage caused by overexposure to UVR. Although, n-3 PUFA have been considered as photoprotective agents, their exact mechanisms of action is not completely understood. The aim of the work is to determine the effect of UVR and the n-3 PUFA eicosapentaenoic acid (EPA), or docosahexaenoic acid (DHA) on human skin cells (in vitro study), specifically on: cell viability, apoptosis and their metabolism through the cyclooxygenase and lipoxygenase pathways. Also, to study the cellular incorporation and effect of n-3 PUFA on the fatty acid profile of skin cells. A clinical study was undertaken to assess the incorporation of n-3 PUFA supplements in human skin. A clinical study was performed in 40 healthy women (active group) supplemented with 4g/day of EPA (70%) and DHA (10%) and 40 healthy women (placebo group) supplemented with 4g/day of glyceryl tricoprylate coprate (GTCC). After 3 months, both blood samples and skin punch biopsies were collected and analysed for fatty acids by gas chromatography (GC). HaCaT keratinocytes and 46BR.1N fibroblasts were cultured and treated with 10 and 50μM of either EPA, or DHA or oleic acid (OA) for 72h and exposed to 15 and 50 mJ/cm2. Cell viability was measured by the MTT assay and cell apoptosis by a colorimetric method, at 24h post UVR. Cells and culture media were analysed by GC and liquid chromatography tandem mass spectrometry (LC/ESI-MS/MS) to assess cellular fatty acids and production of eicosanoids. The clinical a study showed that in RBC saturated fatty acids (SFA) (44.27±7.43%) were the main fatty acid group followed by n-6 PUFA (29.61±5.53%). While in dermal tissue monounsaturated fatty acids (MUFA) (58.90±9.80%) was the main fatty acid group followed by SFA (27.06±6.78%). A significant increase in EPA, DHA and docosapentaenoic acid (DPA) was observed in RBC but only EPA was significantly increased in the dermis post n-3 PUFA supplementation. . The viability of HaCaT keratinocytes and 46BR.1N fibroblasts decreased post UVR and this was further reduced post PUFA treatment. Cell apoptosis increased when cells were exposed to UVR and further increased when cells were treated with EPA and DHA. . In HaCaT keratinocytes MUFA (54.22±8.82%) was the main fatty acid group followed by FAS (37.11±.9.16%), while SFA (51.94±8.68%) was the main group followed by MUFA (27.07±4.79) in 46BR.1N. Treated both cells with EPA and DHA showed significant increased in cellular EPA, DPA and DHA. 46BR.1N fibroblasts produced higher levels of prostaglandins (PG) compared to HaCaT keratinocytes: PGE2 and PGD2 were the main PG in both HaCaT (7.96±3.18 and 1.48±1.19 pg/million cell; respectively) and 46BR.1N with (44.2±23.00 and 17.1±9.71 pg/million cell; respectively). Significant increase in PGE1 and PGE2 occurred when cells were exposed to 15mJ/cm2 UVR. Treatment with n-3 PUFA decreased the level of PGE1 and PGE2, and increase production PGE3 at the baseline and post UVR. Both cell lines produced hydroxy fatty acids and the concentration of these mediators was higher in 46BR.1N than HaCaT. The concentrations of these mediators were significant increased post UVR: treatment with n-3 PUFA decreased the level of HODE and HETE, and increase production of HEPE and HDHA at baseline and post UVR. Overall, n-3PUFA treatment led to increases in the content of EPA and DHA on RBC, dermal tissue and human skin cell lines. EPA and DHA in skin cell lines appear to offer protection by increasing cellular apoptosis, decreasing inflammatory mediators specifically PGE2 and 12-HETE, and increasing anti-inflammatory mediators such as PGE3, 15-HEPE and 17-HDHA.
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Développement de méthodes de séparation des chitooligosaccharides obtenus par déacétylation enzymatiqueTang, Marie-Christine January 2008 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
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Liquid Chromatography Coupled to Mass Spectrometry : Implementation of Chemometric Optimization and Selected ApplicationsMoberg, My January 2006 (has links)
Liquid chromatography (LC) coupled to mass spectrometry (MS) offers highly selective and sensitive analysis of a wide variety of compounds. However, the use of hyphenated experimental set-ups implies that many parameters may have an effect on the studied response. Therefore, in order to determine optimized experimental conditions it is of vital importance to incorporate systematic procedures during method development. In this thesis, a generic stepwise optimization strategy is proposed that aims at high chromatographic quality, as well as high mass spectrometric response. The procedure comprises (i) screening experiments to identify the most important parameters, (ii) LC studies to ensure sufficient chromatographic separation, (iii) extended infusion experiments in order to maximize precursor signal(s), and in the case of tandem MS (iv) extended infusion experiments to determine optimal conditions for collision induced dissociation and when applicable also ion trap settings. Experimental design and response surface methodology is used throughout the procedure. Further, the general applicability of LC-MS is demonstrated in this thesis. Specifically, a novel quantitative column-switched LC-MS method for ferrichrome, ferrichrysin and ferricrocin determination is presented. Using the method it was shown how the siderophore content varies with depth in podzolic soil profiles in the north and south of Sweden. The parallel approach using LC coupled to both inductively coupled plasma (ICP) mass spectrometry, and electrospray ionization (ESI) tandem MS is also evaluated as a tool to identify unknown siderophores in a sample. Additionally, different trypsin digestion schemes used for LC-ESI-MS peptide mapping were compared. By multivariate data analysis, it was clearly shown that the procedures tested induce differences that are detectable using LC-ESI-MS. Finally, the glutathione S-transferase catalyzed bioactivation of the prodrug azathioprine was verified using LC-MS.
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Investigating the use of coca and other psychoactive plants in Pre-Columbian mummies from Chile and Peru : an analytical investigation into the feasibility of testing ancient hair for drug compoundsBrown, Emma Louise January 2012 (has links)
Psychoactive plants have played a significant role in Andean cultures for millennia. Whilst there is evidence of the importance of psychoactive plants in the Andean archaeological record, none of these are direct proof that these culturally significant plants were used by ancient Andean populations. This project utilised liquid chromatography tandem mass spectrometry (LC-MS/MS) to investigate the use of psychoactive plants in individuals from cemetery sites in Chile and Peru by analysing hair specimens for a variety of psychoactive compounds. Hair specimens from 46 individuals buried at cemetery sites in the Azapa Valley (northern Chile) belonging to the Cabuza culture (c AD 300 ¿ 1000) indicated around half of these people ingested coca, as evidenced by the detection of BZE in hair specimens. Two individuals from this population tested positive for bufotenine, the main alkaloid in Anadenanthera snuff. There is a specific material culture associated with snuffing. These findings confirm Anadenanthera was consumed in the Azapa Valley. The 11 individuals from Peru came from the necropolis at Puruchuco-Huaquerones in the Rímac valley near Lima. These individuals belonged to the Ichma culture, but would have been under Inca imperial control during the Late Horizon. Although only a small sample, two-thirds tested positive for BZE, suggestive that access to coca was widespread. This project presents a synthesis of the archaeological evidence for the use of various psychoactive plants in Andes. Also presented is the first report of the detection of bufotenine in ancient hair samples and additional data contributing to the understanding of the use of coca in the Andes.
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Studies on bioactive lipid mediators involved in brain function and neurodegenerative disorders : the effect of ω-3PUFA supplementation and lithium treatment on rat brain sphingomyelin species and endocannabinoids formation : changes in oxysterol profiles in blood of ALS patients and animal models of ALSDrbal, Abed Alnaser Anter Amer January 2013 (has links)
Lipids are important for structural and physiological functions of neuronal cell membranes. They exhibit a range of biological effects many are bioactive lipid mediators derived from polyunsaturated fatty acids such as sphingolipids, fatty acid ethanolamides (FA-EA) and endocannabinoids (EC). These lipid mediators and oxysterols elicit potent bioactive functions in many physiological and pathological processes of the brain and neuronal tissues. They have been investigated for biomarker discovery of ageing, neuroinflammation and neurodegenerative disorders. The n-3 fatty acids EPA and DPA are thought to exhibit a range of neuroprotective effects many of which are mediated through production of such lipid mediators. The aims of this study were to evaluate the effects of n-3 EPA and n-3 DPA supplementation on RBC membranes and in this way assess dietary compliance and to investigate brain sphingomyelin species of adult and aged rats supplemented with n-3 EPA and n-3 DPA to evaluate the effects and benefits on age-related changes in the brain. Furthermore, to study the effects of lithium on the brain FA-EAs and ECs to further understand the neuroprotective effects of lithium neuroprotective action on neuroinflammation as induced by LPS. Finally to examine if circulating oxysterols are linked to the prevalence of ALS and whether RBC fatty acids are markers of this action in relation to age and disease stages. These analytes were extracted from tissue samples and analysed with GC, LC/ESI-MS/MS and GC-MS. It was found that aged rats exhibited a significant increase in brain AA and decrease in Σn-3 and Σn-6 PUFAs when compared to adult animals. The observed increase of brain AA was reversed following n-3 EPA and n-3 DPA supplementation. Sphingomyelin was significantly increased when aged animals were supplemented with n-3 DPA. LPS treatment following lithium supplementation increased LA-EA and ALA-EA, while it decreased DHA-EA. Both oxysterols 24-OH and 27-OH increased in ALS patients and SOD1-mice. Eicosadienoic acid was different in ASL-patients compared to aged SOD1-mice. These studies demonstrated that dietary intake of n-3 EPA and n-3DPA significantly altered RBC fatty acids and sphingolipids in rat brain. They suggest that n-3 DPA can be a potential storage form for EPA, as shown by retro-conversion of n-3 DPA into EPA in erythrocyte membranes, ensuring supply of n-3 EPA. Also, n-3 EPA and n-3 DPA supplementation can contribute to an increase in brain sphingomyelin species with implications for age effects and regulation of brain development. Effects of lithium highlight novel anti-neuroinflammatory treatment pathways. Both 24-hydroxycholesterol and eicosadienoic acid may be used as biomarkers in ALS thereby possibly helping to manage the progressive stages of disease.
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Devenir environnemental des antidépresseurs dans les rejets urbains par chromatographie liquide à haute performance couplée à la spectrométrie de masse en tandemLajeunesse, André 06 1900 (has links)
Les troubles reliés à la dépression, l’épuisement professionnel et l’anxiété sont de plus en plus répandus dans notre société moderne. La consommation croissante
d’antidépresseurs dans les différents pays du monde est responsable de la récente détection
de résidus à l’état de traces dans les rejets urbains municipaux. Ainsi, ces substances dites « émergentes » qui possèdent une activité pharmacologique destinée à la régulation de certains neurotransmetteurs dans le cerveau suscitent maintenant de nombreuses inquiétudes de la part de la communauté scientifique.
L’objectif principal de ce projet de doctorat a été de mieux comprendre le devenir
de plusieurs classes d’antidépresseurs présents dans diverses matrices environnementales (i.e. eaux de surfaces, eaux usées, boues de traitement, tissus biologiques) en développant de nouvelles méthodes analytiques fiables capables de les détecter, quantifier et confirmer par chromatographie liquide à haute performance couplée à la spectrométrie de masse en
tandem (LC-QqQMS, LC-QqToFMS).
Une première étude complétée à la station d’épuration de la ville de Montréal a
permis de confirmer la présence de six antidépresseurs et quatre métabolites N-desmethyl dans les affluents (2 - 330 ng L-1). Pour ce traitement primaire (physico-chimique), de faibles taux d’enlèvement (≤ 15%) ont été obtenus. Des concentrations d’antidépresseurs atteignant près de 100 ng L-1 ont également été détectées dans le fleuve St-Laurent à 0.5 km du point de rejet de la station d’épuration.
Une seconde étude menée à la même station a permis l’extraction sélective d’antidépresseurs dans trois tissus (i.e. foie, cerveau et filet) de truites mouchetées juvéniles exposées à différentes concentrations d’effluent dilué traité et non-traité à l’ozone. Un certain potentiel de bioaccumulation dans les tissus (0.08-10 ng g-1) a été observé pour les spécimens exposés à l’effluent non-traité (20% v/v) avec distribution majoritaire dans le foie et le cerveau. Une intéressante corrélation a été établie entre les concentrations de trois
antidépresseurs dans le cerveau et l’activité d’un biomarqueur d’exposition (i.e. pompe N/K
ATPase impliquée dans la régulation de la sérotonine) mesurée à partir de synaptosomes de truites exposées aux effluents.
Une investigation de l’efficacité de plusieurs stations d’épuration canadiennes
opérant différents types de traitements a permis de constater que les traitements secondaires (biologiques) étaient plus performants que ceux primaires (physico-chimiques) pour enlever les antidépresseurs (taux moyen d’enlèvement : 30%). Les teneurs les plus élevées dans les boues traitées (biosolides) ont été obtenues avec le citalopram (1033 ng g-1), la venlafaxine (833 ng g-1) et l’amitriptyline (78 ng g-1). Des coefficients de sorption expérimentaux (Kd) calculés pour chacun des antidépresseurs ont permis d’estimer une grande sorption des composés sertraline, desméthylsertraline, paroxetine et fluoxetine sur les solides (log Kd > 4). Finalement, un excellent taux d’enlèvement moyen de 88% a été obtenu après ozonation (5 mg L-1) d’un effluent primaire. Toutefois, la caractérisation de nouveaux sous-produits N-oxyde (venlafaxine, desmethylvenlafaxine) par spectrométrie de
masse à haute résolution (LC-QqToFMS) dans l’effluent traité à l’ozone a mis en lumière la possibilité de formation de multiples composés polaires de toxicité inconnue. / Mood disorders such as depression, burn-out and anxiety have increased in our modern society. Increasing amounts of antidepressant prescriptions around the world are now suspected to be the main cause of the recent detection of traces of antidepressant residues within urban wastewaters. These so-called “emerging” substances that possess
pharmacological activity towards neurotransmitter regulation in the brain have raised serious concerns from the scientific community.
The initial goal of the study was to better understand the fate of various classes of
antidepressants present in different environmental matrices (e.g. surface waters,
wastewaters, treatment sludge, and biological tissues) by developing novel reliable analytical methods that can detect, quantify and confirm antidepressants using high
performance liquid chromatography coupled to tandem-mass spectrometry (LC-QqQMS,LC- QqToFMS).
A preliminary study completed at the Montreal sewage treatment plant (STP) confirmed the presence of six antidepressants and four N-desmethyl metabolites in raw sewage (2 – 330 ng L-1). For this primary treatment (physico-chemical), low removal rates (≤ 15%) were obtained. Concentrations of antidepressant close to 100 ng L-1 were also detected directly in the St. Lawrence River at 0.5 km of the effluent outfall.
A second study conducted at the same STP allowed the selective extraction of antidepressants in three biological tissues (e.g. liver, brain, and filet) dissected from
juvenile brook trouts previously exposed to diluted untreated and treated effluents with
ozone. Bioaccumulation of antidepressants was readily observed in fish tissues (0.08-10 ng
g-1) for the specimens exposed to untreated effluent (20% v/v), with major distribution in liver and brain. During experiments, a significant correlation was established between the concentrations of three antidepressant detected in brain tissues and the activity of a selected biomarker of exposition (e.g. an N/K ATPase pump involved in the serotonin regulation) measured within dissected synaptosomes from trout exposed to effluents.
Investigation of estimated treatment removal efficiencies from various Canadian STPs operating different disinfection modes showed that secondary treatments (biological) were more efficient than primary (physico- chemical) to remove antidepressants (mean
removal rates : 30%). The highest amounts detected in treated sludge (biosolids) were
obtained respectively with citalopram (1033 ng g-1), venlafaxine (833 ng g-1), and
amitriptyline (78 ng g-1). Experimental calculated sorption coefficients (Kd) of each
antidepressant predicted fairly good sorption capacities for sertraline, desmethylsertraline, paroxetine, and fluoxetine to solid matters (log Kd > 4). Finally, an excellent mean removal rate of 88% was obtained after ozonation (5 mg L-1) of a primary effluent. However, the characterization of new N-oxide side-products (venlafaxine, desmethylvenlafaxine) in ozonized effluent by high-resolution mass spectrometry (LC-QqToFMS) highlighted the
possibility of formation of multiple polar compounds with unknown toxicity.
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Développement de méthodes de séparation des chitooligosaccharides obtenus par déacétylation enzymatiqueTang, Marie-Christine January 2008 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal
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Urinary 1,4–dihydroxynonene mercapturic acid (DHN–MA) and 8–hydroxy–2'–deoxyguanosine (8–OHdG) as markers of oxidative damage : the SABPA study / by Leandrie SteenkampSteenkamp, Leandrie January 2010 (has links)
The human body has evolved certain defence mechanisms to cope with the high occurrence of free radicals. These radicals are obtained endogenously from the mitochondria, peroxisomes, the cytochrome P450 (CYP 450) system and neutrophils, or exogenously from the environment. Lack of antioxidants and/or increased production of free radicals will result in oxidative stress, which has been implicated in certain human diseases such as hypertension, inflammation, ageing, autoimmunity, atherosclerosis, Parkinson?s disease, cancer and diabetes.
Although the initial aim was to standardise a single assay to quantify both 8–OHdG and DHN–MA, this could not be achieved in this study due to the vast difference in the chemical properties of these two metabolites. Following the decision to use two separate assays for the quantification of the mentioned biomarkers, the 8–OHdG assay was standardised and validated. The intrabatch variation of the assay was 4.18% and the interbatch variation was 17.37%. Unfortunately, the DHN–MA assay could not be standardised within the time frame of this study due to experimental difficulties. Therefore, only urinary 8–OHdG and serum ROS levels were quantified.
Urinary 8–OHdG levels were measured in 409 participants (209 Caucasians, 101 males and 108 females and 200 Africans, 100 males and 100 females) from the SABPA study. After removal of outliers from the data matrix, the effect of gender and ethnicity was investigated on the measured urinary 8–OHdG levels. No significant difference in the urinary 8–OHdG levels between Caucasian males (n=87) and females (n=96) were observed (p = 0.68). A similar observation was made for the African males (n=86) and females (n=84), where no significant difference in 8–OHdG levels was detected (p = 0.053). Thus, from the results obtained in this study, it seems that urinary 8–OHdG levels are not influenced by gender. However, 8–OHdG levels were dramatically influenced by ethnicity. Caucasian males (n=87) excreted 70% higher amounts of 8–OHdG compared to African males (n=86) (p < 0.001). Caucasian females (n=96) also excreted larger urinary 8–OHdG amounts (42%) compared to African females (n=84) (p < 0.001). Therefore, it seems that urinary 8–OHdG levels are dramatically influenced by ethnicity. Finally, urinary 8–OHdG levels were compared to serum ROS levels, but no significant correlation between the measured metabolites was observed (r = –0.045). Hence, urinary 8–OHdG and serum ROS levels are not related in these subjects.
Even though the initial aim of this study was to standardise an analytical method to quantify both urinary 8–OHdG and DHN–MA, this could not be achieved due to time constraints. vi
The human body has evolved certain defence mechanisms to cope with the high occurrence of free radicals. These radicals are obtained endogenously from the mitochondria, peroxisomes, the cytochrome P450 (CYP 450) system and neutrophils, or exogenously from the environment. Lack of antioxidants and/or increased production of free radicals will result in oxidative stress, which has been implicated in certain human diseases such as hypertension, inflammation, ageing, autoimmunity, atherosclerosis, Parkinson?s disease, cancer and diabetes.
Although the initial aim was to standardise a single assay to quantify both 8–OHdG and DHN–MA, this could not be achieved in this study due to the vast difference in the chemical properties of these two metabolites. Following the decision to use two separate assays for the quantification of the mentioned biomarkers, the 8–OHdG assay was standardised and validated. The intrabatch variation of the assay was 4.18% and the interbatch variation was 17.37%. Unfortunately, the DHN–MA assay could not be standardised within the time frame of this study due to experimental difficulties. Therefore, only urinary 8–OHdG and serum ROS levels were quantified.
Urinary 8–OHdG levels were measured in 409 participants (209 Caucasians, 101 males and 108 females and 200 Africans, 100 males and 100 females) from the SABPA study. After removal of outliers from the data matrix, the effect of gender and ethnicity was investigated on the measured urinary 8–OHdG levels. No significant difference in the urinary 8–OHdG levels between Caucasian males (n=87) and females (n=96) were observed (p = 0.68). A similar observation was made for the African males (n=86) and females (n=84), where no significant difference in 8–OHdG levels was detected (p = 0.053). Thus, from the results obtained in this study, it seems that urinary 8–OHdG levels are not influenced by gender. However, 8–OHdG levels were dramatically influenced by ethnicity. Caucasian males (n=87) excreted 70% higher amounts of 8–OHdG compared to African males (n=86) (p < 0.001). Caucasian females (n=96) also excreted larger urinary 8–OHdG amounts (42%) compared to African females (n=84) (p < 0.001). Therefore, it seems that urinary 8–OHdG levels are dramatically influenced by ethnicity. Finally, urinary 8–OHdG levels were compared to serum ROS levels, but no significant correlation between the measured metabolites was observed (r = –0.045). Hence, urinary 8–OHdG and serum ROS levels are not related in these subjects.
Even though the initial aim of this study was to standardise an analytical method to quantify both urinary 8–OHdG and DHN–MA, this could not be achieved due to time constraints.
However, an LC–MS/MS analytical assay was standardised and validated for the quantification of urinary 8–OHdG. The method proved reliable for the quantification of 8–OHdG from urine samples and can thus be used for further studies on oxidative DNA damage. / Thesis (M.Sc. (Biochemistry))--North-West University, Potchefstroom Campus, 2011.
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Urinary 1,4–dihydroxynonene mercapturic acid (DHN–MA) and 8–hydroxy–2'–deoxyguanosine (8–OHdG) as markers of oxidative damage : the SABPA study / by Leandrie SteenkampSteenkamp, Leandrie January 2010 (has links)
The human body has evolved certain defence mechanisms to cope with the high occurrence of free radicals. These radicals are obtained endogenously from the mitochondria, peroxisomes, the cytochrome P450 (CYP 450) system and neutrophils, or exogenously from the environment. Lack of antioxidants and/or increased production of free radicals will result in oxidative stress, which has been implicated in certain human diseases such as hypertension, inflammation, ageing, autoimmunity, atherosclerosis, Parkinson?s disease, cancer and diabetes.
Although the initial aim was to standardise a single assay to quantify both 8–OHdG and DHN–MA, this could not be achieved in this study due to the vast difference in the chemical properties of these two metabolites. Following the decision to use two separate assays for the quantification of the mentioned biomarkers, the 8–OHdG assay was standardised and validated. The intrabatch variation of the assay was 4.18% and the interbatch variation was 17.37%. Unfortunately, the DHN–MA assay could not be standardised within the time frame of this study due to experimental difficulties. Therefore, only urinary 8–OHdG and serum ROS levels were quantified.
Urinary 8–OHdG levels were measured in 409 participants (209 Caucasians, 101 males and 108 females and 200 Africans, 100 males and 100 females) from the SABPA study. After removal of outliers from the data matrix, the effect of gender and ethnicity was investigated on the measured urinary 8–OHdG levels. No significant difference in the urinary 8–OHdG levels between Caucasian males (n=87) and females (n=96) were observed (p = 0.68). A similar observation was made for the African males (n=86) and females (n=84), where no significant difference in 8–OHdG levels was detected (p = 0.053). Thus, from the results obtained in this study, it seems that urinary 8–OHdG levels are not influenced by gender. However, 8–OHdG levels were dramatically influenced by ethnicity. Caucasian males (n=87) excreted 70% higher amounts of 8–OHdG compared to African males (n=86) (p < 0.001). Caucasian females (n=96) also excreted larger urinary 8–OHdG amounts (42%) compared to African females (n=84) (p < 0.001). Therefore, it seems that urinary 8–OHdG levels are dramatically influenced by ethnicity. Finally, urinary 8–OHdG levels were compared to serum ROS levels, but no significant correlation between the measured metabolites was observed (r = –0.045). Hence, urinary 8–OHdG and serum ROS levels are not related in these subjects.
Even though the initial aim of this study was to standardise an analytical method to quantify both urinary 8–OHdG and DHN–MA, this could not be achieved due to time constraints. vi
The human body has evolved certain defence mechanisms to cope with the high occurrence of free radicals. These radicals are obtained endogenously from the mitochondria, peroxisomes, the cytochrome P450 (CYP 450) system and neutrophils, or exogenously from the environment. Lack of antioxidants and/or increased production of free radicals will result in oxidative stress, which has been implicated in certain human diseases such as hypertension, inflammation, ageing, autoimmunity, atherosclerosis, Parkinson?s disease, cancer and diabetes.
Although the initial aim was to standardise a single assay to quantify both 8–OHdG and DHN–MA, this could not be achieved in this study due to the vast difference in the chemical properties of these two metabolites. Following the decision to use two separate assays for the quantification of the mentioned biomarkers, the 8–OHdG assay was standardised and validated. The intrabatch variation of the assay was 4.18% and the interbatch variation was 17.37%. Unfortunately, the DHN–MA assay could not be standardised within the time frame of this study due to experimental difficulties. Therefore, only urinary 8–OHdG and serum ROS levels were quantified.
Urinary 8–OHdG levels were measured in 409 participants (209 Caucasians, 101 males and 108 females and 200 Africans, 100 males and 100 females) from the SABPA study. After removal of outliers from the data matrix, the effect of gender and ethnicity was investigated on the measured urinary 8–OHdG levels. No significant difference in the urinary 8–OHdG levels between Caucasian males (n=87) and females (n=96) were observed (p = 0.68). A similar observation was made for the African males (n=86) and females (n=84), where no significant difference in 8–OHdG levels was detected (p = 0.053). Thus, from the results obtained in this study, it seems that urinary 8–OHdG levels are not influenced by gender. However, 8–OHdG levels were dramatically influenced by ethnicity. Caucasian males (n=87) excreted 70% higher amounts of 8–OHdG compared to African males (n=86) (p < 0.001). Caucasian females (n=96) also excreted larger urinary 8–OHdG amounts (42%) compared to African females (n=84) (p < 0.001). Therefore, it seems that urinary 8–OHdG levels are dramatically influenced by ethnicity. Finally, urinary 8–OHdG levels were compared to serum ROS levels, but no significant correlation between the measured metabolites was observed (r = –0.045). Hence, urinary 8–OHdG and serum ROS levels are not related in these subjects.
Even though the initial aim of this study was to standardise an analytical method to quantify both urinary 8–OHdG and DHN–MA, this could not be achieved due to time constraints.
However, an LC–MS/MS analytical assay was standardised and validated for the quantification of urinary 8–OHdG. The method proved reliable for the quantification of 8–OHdG from urine samples and can thus be used for further studies on oxidative DNA damage. / Thesis (M.Sc. (Biochemistry))--North-West University, Potchefstroom Campus, 2011.
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