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201	Adrenoleucodistrofia ligada ao cromossomo x e estresse oxidativo : papel do transplante de células hematopoiéticas e da interleucina 6 Rockenbach, Francieli Juliana January 2012 (has links) Objetivos. Avaliar o papel do transplante de células hematopoiéticas (TCH) e da interleucina 6 (IL – 6) sobre vários parâmetros de estresse oxidativo em pacientes com Adrenoleucodistrofia ligada ao cromossomo X (X-ALD). Métodos. A concentração de malondialdeído (MDA), o conteúdo de carbolinas e sulfidrilas e a concentração de ácido hexacosanóico (C26:0) foram quantificados no plasma de pacientes X-ALD antes e após serem submetidos ao TCH. E, a concentração de MDA, a formação de carbonilas e a concentração de IL-6 foram quantificados em plasma e o conteúdo de glutationa reduzida (GSH) foi quantificado em eritrócitos de pacientes X-ALD com fenótipos cerebral infantil (cALD) ou assintomáticos no momento diagnóstico. Resultados. Observamos um aumento significativo na concentração de MDA em plasma de pacientes X-ALD antes e após o TCH em comparação ao grupo controle e uma redução significativa nesses valores após o transplante em comparação aos anteriores ao procedimento. Verificamos uma redução significativa no conteúdo de sulfidrilas no plasma de pacientes X-ALD antes do TCH em comparação ao grupo controle e um aumento significativo desses níveis após o TCH. Não observamos diferenças significativas no conteúdo de carbonilas no plasma de X-ALD antes e após o TCH, em comparação aos controles, apesar de observarmos uma redução significativa nesta determinação nos pacientes após o transplante em relação a antes do TCH. Os pacientes X-ALD apresentam níveis plasmáticos de C26:0 significativamente aumentados antes do TCH em comparação aos controles e, após o TCH, as concentrações de C26:0 foram reduzidas. Observamos uma correlação negativa significativa entre a medida do conteúdo de sulfidrilas e os níveis plasmáticos de C26:0 de indivíduos X-ALD antes do TCH. Também evidenciamos elevados níveis de MDA e da formação de carbonilas no plasma de pacientes cALD e assintomáticos em comparação ao grupo controle. Ainda, observamos redução significativa do conteúdo de GSH nos dois grupos testados comparados aos controles. A quantificação de IL-6 foi significativamente maior nos pacientes cALD, o que não foi observado nos pacientes assintomáticos, apesar destes mostrarem uma tendência de aumento da concentração de IL-6. Conclusões. Os resultados obtidos a partir do plasma de pacientes X-ALD antes e após o TCH demonstram que esta terapia, quando bem indicada e bem sucedida, tem alta efetividade em reduzir a concentração plasmática de C26:0 e é eficaz em reduzir a peroxidação lipídica e o dano oxidativo às proteínas nos pacientes X-ALD. Ainda, é possível relacionar o acúmulo de C26:0 e o dano oxidativo na patogênese da X-ALD. Nossos dados permitem sugerir que a lipoperoxidação e o dano oxidativo às proteínas possam de alguma forma estar envolvidos na fisiopatologia da X-ALD. Além disso, podemos presumir que, nos pacientes X-ALD assintomáticos estudados, o dano oxidativo e os aspectos inflamatórios desempenham papéis importantes na evolução e nas futuras manifestações do fenótipo neuronal. Também podemos supor que a administração de antioxidantes deve ser considerada como uma terapia adjuvante potencial para os pacientes assintomáticos e sintomáticos afetados pela X-ALD, inclusive para aqueles submetidos ao TCH. / Objective. We aimed to evaluate the role of hematopoietic stem cell transplantation (HSCT) and interleukin 6 (IL – 6) on various parameters of oxidative stress in X-linked adrenoleukodystrophy (X-ALD) patients. Methods. Malondialdehyde (MDA), sulfhydryl, carbonyl and hexacosanoic acid (C26:0) levels were measured in plasma from X-ALD patients before and after HSCT. And, MDA, carbonyl and IL-6 levels were measured in plasma and reduced glutathione (GSH) content was measured in erythrocytes from X-ALD patients with different phenotype (asymptomatic and childhood cerebral (CCER patients) at diagnosis moment. Results. We observed increased levels of MDA in plasma from X-ALD before and after HSCT compared to control group, but there was a significant reduction in MDA values after transplantation compared to levels found before the procedure. We verified a significant decrease in sulfhydryl content in plasma of X-ALD patients before HSCT compared with the control group and we also verified a significant increase in the levels of sulfhydryl content after HSCT. No significant differences were observed in carbonyl content in plasma of X-ALD before and after HSCT, compared to controls. However, we observed a significant reduction of plasma carbonyl content from X-ALD patients after HSCT compared to before HSCT. X-ALD patients presented a significant increase of C26:0 plasma level before HSCT when compared to controls and an important reduction of C26:0 plasma concentration in X-ALD patients after HSCT when compared to before HSCT C26:0 levels. We observed an inverse significant correlation between sulfhydryl content and plasma C26:0 levels of X-ALD individuals before HSCT. We also evidenced high levels of MDA and carbonyl formation in plasma from CCER and asymptomatic patients compared to controls. Still, we observed a significant decrease of GSH content in both groups tested compared to controls. The quantification of IL-6 is significantly higher in CCER patients, which is not observed in asymptomatic patients, despite these patients show a tendency of increased concentration of IL-6. Conclusions. The results obtained from plasma of X-ALD patients before and after HSCT demonstrate that this therapy, when well indicated and successful, has high effectiveness in reducing C26:0 plasma and is effective in reducing lipid peroxidation and oxidative damage to proteins in X-ALD patients. Still, it is possible to relate the accumulation of C26:0 and oxidative damage in the pathogenesis of X-ALD. Our data also suggest that lipid peroxidation and protein damage may somehow be involved in the pathophysiology of X-ALD. Moreover, we can assume that in our asymptomatic X-ALD patients, oxidative damage and inflammatory issues seem to play an important role in the evolution and future manifestations of neuronal phenotype. We can also assume that the administration of antioxidants should be considered as a potential adjuvant therapy for asymptomatic and symptomatic patients affected by X-ALD, including those that are submitted to HSCT. Adrenoleucodistrofia Estresse oxidativo Radicais livres Hematopoietic stem cell transplantation Adrenoleukodystrophy Oxidative stress Free radicals Lipid peroxidation Protein damage IL-6 Reduced glutathione.
202	Eventos redox na biologia dos lipídios: modificação de tióis e alterações do lipidoma em ALS / Redox-triggered events in lipid biology: thiol modification and lipidome alteration in ALS Chaves Filho, Adriano de Britto 18 May 2018 (has links) Os lipídeos abrangem uma ampla gama de moléculas hidrofóbicas presentes nas células. As características moleculares dos lipídios determinam sua localização celular e função biológica. Em geral, os lipídios são considerados componentes essenciais de membranas, reservatórios de energia e moduladores de vias de sinalização ligadas ao metabolismo celular, sobrevivência, entre outros. Em mamíferos, grande parte dos lipídios é esterificada em ácidos graxos poli-insaturados (PUFAs), especialmente os ácidos docosahexaenóico (DHA) e araquidônico (ARA), essenciais para vários processos fisiológicos, incluindo o desenvolvimento normal do cérebro. No entanto, os PUFAs são muito suscetíveis à oxidação por espécies reativas de oxigênio (ROS) geradas endogenamente. Uma vez oxidados, lipídios são capazes de modificar grupos tióis de peptídeos e proteínas, levando à modulação das vias de sinalização e alterando o balanço redox celular. No capítulo 1, foram investigados os mecanismos envolvidos na modificação de grupos tióis de peptídeos e proteínas por produtos de auto-oxidação de PUFAs. Com as análises realizadas foi possível identificar vários adutos de glutationa (GSH) covalentemente modificados por endoperóxidos cíclicos derivados de DHA e ARA. Uma análise detalhada dos espectros de MS/MS dos adutos de GSH revelou que GSH e endoperóxidos cíclicos são provavelmente ligados através de uma ligação química de enxofre-oxigênio, em uma reação que envolve um ataque nucleofílico do ânion tiolato. Além disso, sugerimos que a eficiência da modificação do tiol por endoperóxidos cíclicos também é dependente da reatividade do tiol, como demonstrado pela modificação covalente do resíduo de cisteína mais reativo (Cys111) da enzima antioxidante superóxido dismutase 1(SOD1). Modificações químicas de tióis por endoperóxidos cíclicos podem modular a agregação proteica e o status redox celular, produzindo adutos de GSH capazes de modular a inflamação, como relatado para os conjugados de GSH gerados enzimaticamente. No capítulo 2, nós investigamos o papel dos lipídios na esclerose lateral amiotrófica (ALS), uma vez que a inflamação e o estresse oxidativo nos neurônios motores contribuem para o desenvolvimento desta doença neurodegenerativa. Usando uma abordagem lipidômica não direcionada baseada em espectrometria de massa acoplada à cromatografia líquida (UHPLC-MS/MS), nós investigamos o metabolismo lipídico no córtex motor e na medula espinhal de um modelo de ratos com ALS. A análise do córtex motor mostrou que as principais alterações lipídicas foram dependentes da idade e ligadas ao metabolismo dos esfingolipídios. Em contraste, as principais alterações lipídicas na medula espinhal foram encontradas no grupo sintomático da ALS, sendo o metabolismo de ceramidas, ésteres de colesterol e cardiolipinas os mais afetados. De acordo com os resultados obtidos e dados relatados na literatura, propusemos um mecanismo baseado em neuroproteção que envolve o acúmulo de ésteres de colesterol esterificados em PUFAs em astrócitos. Coletivamente, nossos achados sugerem que os lipídios desempenham um papel crucial na modulação de processos celulares ligado à oxidação de tióis e à neurodegeneração. / Lipids encompass a wide range of hydrophobic molecules present in cells. The molecular characteristics of lipids determine their cellular localization and biological function. In general, lipids are regarded as essential components of membranes, as energy reservoir and modulators of signaling pathways linked to cellular metabolism and survival, among others. In mammals, a large part of the lipids are esterified to polyunsaturated fatty acids (PUFAs), especially docosahexaenoic (DHA) and arachidonic (ARA) acids, essential for several physiological processes, including normal brain development. However, PUFAs are very susceptible to oxidation by reactive oxygen species (ROS) generated endogenously. Once oxidized, lipids are able to modify thiol groups of peptides and proteins leading to modulation of signaling pathways and cellular redox balance. In the chapter 1, we investigated the mechanisms involved in modification of thiol groups of peptides and protein by autoxidation products derived from PUFAs. Here, we identified several glutathione (GSH) adducts covalently modified by hydroxy-endoperoxides derived from both DHA and ARA. Detailed inspection of MS/MS spectra of GSH-adducts revealed that GSH and hydroxy-endoperoxides are likely bonded through a sulfur-oxygen chemical bond in a reaction which involves a nucleophilic attack by the thiolate anion. Also, we suggest that the efficiency of modification of thiol by hydroxy-endoperoxides are also dependent of the thiol reactivity, as demonstrated by covalent modification of the most reactive cysteine residue (Cys111) of the antioxidant enzyme Cu,Zn-superoxide dismutase (SOD1). Chemical modifications of thiol groups by hydroxy-endoperoxides may modulate protein aggregation and cellular redox status, yieldingGSH adducts capable to modulate inflammation, as reported for the enzymatically generated counterparts. In the chapter 2, we investigated the role of lipids in amyotrophic lateral sclerosis (ALS), since inflammation and oxidative stress in motor neurons are hallmarks of this neurodegenerative disease. Using an untargeted lipidomics approach based on mass spectrometry coupled to liquid chromatography (UHPLC-MS/MS), we investigated the lipid metabolism in motor cortex and spinal cord tissues of a rodent model of ALS. Analysis of the motor cortex showed that the main lipid alterations were age-dependent and linked to metabolism of sphingolipids. In contrast, the major lipid alterations in the spinal cord were found in ALS symptomatic group, being the metabolism of ceramides, cholesteryl esters and cardiolipin the most affected. According to our findings and data reported in the literature, we proposed a mechanism based on neuroprotection that involves accumulation of cholesteryl esters esterified to PUFAs in astrocytes. Collectively, our findings suggest that lipids play a crucial role in modulation of cellular process linked to thiol metabolism and neurodegeneration. Amyotrophic lateral sclerosis Esclerose lateral amiotrófica Espectrometria de massas Estresse oxidativo Lipid peroxidation Lipídios Lipids Mass spectrometry Oxidative stress Peroxidação lipídica Thiols Tióis
203	Comportamento dos sistemas peroxidase e antioxidante, e produtos de peroxidação lipídica na saliva total de pacientes com diabetes mellitus 2 antes e após tratamento periodontal não cirúrgico / Peroxidase and antioxidant systems and lipid peroxidation products behavior in type 2 diabetes mellitus patients whole saliva before and after periodontal treatment Takahashi, Daniela Yumie 02 September 2015 (has links) O estresse oxidativo (EO), fenômeno decorrente do desequilíbrio entre a geração de espécies reativas de oxigênio (ERO) e/ou depleção antioxidante (AO), está envolvido na patogênese de diversas doenças e desordens, incluindo o diabetes mellitus tipo 2 (DM2) e a doença periodontal. Uma das conseqüências da geração excessiva das ERO é a destruição tecidual promovida pela peroxidação lipídica, e para combater estes efeitos deletérios, o organismo desenvolveu mecanismos de defesa, como os AO e peroxidases. Objetivos: Avaliar o comportamento dos marcadores de EO na saliva total (SALT) de pacientes com ou sem DM2, portadores ou não de periodontite crônica generalizada (PCG); e verificar e comparar o efeito do tratamento periodontal não-cirúrgico (TPNC) sobre esses marcadores entre os pacientes. Materiais e Métodos: 121 pacientes participaram deste estudo e foram alocados em 4 grupos: diabéticos com PCG (DMPC), diabéticos sem PCG (DM), pacientes sistemicamente saudáveis com PCG (PC) e pacientes sistemicamente saudáveis e sem periodontite (C). Os índices de Placa (IP), nível clínico de inserção (NCI), profundidade clínica de sondagem (PCS) e sangramento à sondagem (SS) foram coletados para a avaliação dos parâmetros clínicos periodontais. Foram também coletadas amostras de sangue periférico e SALT para analisar respectivamente a hemoglobina glicada (HbA1c) e os marcadores de EO, superóxido dismutase (SOD), estado total de antioxidante (TAS) e substâncias reativas do ácido tiobarbitúrico (TBARS) e peroxidase salivar (SPO). As coletas foram realizadas no baseline e após 30 dias do tratamento, previamente à avaliação e reavaliação clínica. Os pacientes DMCP e PC passaram por TPNC, e os DM e C, receberam apenas orientação de higiene oral e profilaxia. Resultados: No baseline, os grupos DMPC e PC apresentaram valores significativamente maiores dos parâmetros clínicos PCS, SS, IP e NCI quando comparados aos grupos DM e C (p<0.05). Após o TPNC, todos esses parâmetros mostraram melhoras significativas (p<0,05). A HbA1c foi significativamente maior no grupo DMPC quando comparado com DM no baseline (p<0,05), no entanto, o TPNC não promoveu melhora significativa após 1 e 3 meses de acompanhamento glicêmico, ainda que, a redução percentual (0,4%) observada possa ser considerada importante. Quanto aos marcadores, no grupo DMPC os valores de TBARS foram significativamente menores comparados aos grupos DM, PC e C (p<0.05), e os de SPO foi significativamente maior em relação aos grupos PC e C (p<0.05), com correlação negativa entre TBARS e SPO (r=-0.35; p=0.002), enquanto que os valores de TAS e SOD não mostraram diferenças significativas entre os grupos estudados (p>0.05). Após o TPNC, os níveis de TBARS aumentaram significativamente, e os de SPO diminuíram significativamente apenas no grupo DMPC (p<0.05 e p<0.05), ao passo que os valores de SOD e TAS permaneceram inalterados nos dois grupos. Conclusão: No baseline, os valores de TBARS e de SPO estiveram alterados nos pacientes DMPC com resultados que mostram correlação inversa entre TBARS/SPO, e após o TPNC houve nova alteração. O comportamento dos marcadores de EO na saliva mostrou a busca pelo ponto de equilíbrio por diversas vias e que este pode ser alterado pelo uso de medicamentos, como a metformina. / Oxidative stress (OS), resulting phenomenon from reactive oxidative species (ROS) and/or antioxidant (AO) depletion imbalance, is involved in many diseases and disorders pathogenesis, including type 2 diabetes mellitus (T2DM) and periodontal disease. One of the ROS excessive generation consequences is the tissue destruction promoted by lipid peroxidation. To strike ROS deleterious effects, the organism developed several defense mechanisms, such as AO and peroxidase systems. Objectives: To evaluate the OS markers behavior in whole saliva (WS) of patients who has or not T2DM, with or without generalized chronic periodontitis (GCP); and to verify and to compare non-surgical periodontal treatment (NSPT) effect on these markers. Material and Methods: 121 patients participated of this study and were allocated in 4 groups: diabetics with chronic periodontitis (DMPC), diabetics periodontally heathy (DM), sistemically healthy with chronic periodontitis (PC) and sistemically and periodontally healthy patients (C). Plaque index (PI), clinical attachment level (CAL), probing depth (PD) and bleeding on probing (BOP) were collected for periodontal clinical paramethers. Peripheral blood and WS samples were collected respectively for glycated hemoglobin (HbA1c) and OS markers, such as superoxide dismutase (SOD), total antioxidant status (TAS), thiobarbituric acid reacting substances (TBARS) and salivary peroxidase (SPO), assessment. Collections were performed at baseline and 30 days after treatment, previously to clinical evaluation and reevaluation. GCP patients (DMPC and PC) were submitted to NSPT, and those with periodontal health (DM and C) received oral hygiene instructions and prophilaxys only. Results: At baseline, DMPC and PC patients showed PD, BOP, PI and CAL higher levels when compared to DM and C groups (p<0.05). After NSPT, all these clinical parameters had significant improvement (p<0.05) in both groups. HbA1c medians were significantly higher in DMPC when compared to DM, at baseline, however, the NSPT did not improved after 1 and 3 months of glicemic control, though percentual reduction (0.4%) observed at clinical point of view might be considered important. As to laboratorial analysis, in DMPC group, TBARS levels were significantly decreased compared to DM, PC and C (p<0.05), and SPO activity were significantly higher than PC and C (p<0.05), with negative correlation between TBARS and SPO (r=-0.35; p=0.002), while TAS levels and SOD activity did not show any significant differences among studied groups (p>0.05). After NSPT, TBARS levels increased significantly, and SPO decreased significantly only in DMPC group (p<0.05 and p<0.05), whereas SOD and TAS values remained unchanged in DMPC and PC groups. Conclusion: At baseline, TBARS levels and SPO activity have been altered in DMPC patients and with results that showed inverse correlation between TBARS/SPO, and after NSPT, another modification occurred. OS markers levels behavior in WS showed a search for balance and this might be changed by medication use, as metformin. Antioxidantes Antioxidants Chronic periodontitis Diabetes mellitus tipo 2 Lipid peroxidation Periodontite crônica Peroxidação lipídica Peroxidase Peroxidase Superoxide dismutase Superóxido dismutase TBARS TBARS Tratamento Treatment Type 2 diabetes
204	Investigação da citotoxicidade e genotoxicidade dos hidrocarbonetos policíclicos aromáticos indeno[1,2,3-cd]pireno, trifenileno e coroneno / Investigation of Cytotoxicity and Genotoxicity of Aromatic Polycyclic Hydrocarbons Indene[1,2,3-cd]pyrene, triphenylene and coronene Borges, Julita Maria Pereira 19 December 2007 (has links) Exposição a Hidrocarbonetos policíclicos aromáticos (HPAs) está relacionada com o aumento de risco de câncer. Esses carcinógenos dependem da sua ativação para intermediários eletrofílicos para causar danos em biomoléculas. As vias de ativação melhor estudadas incluem (i) a formação de diol-epóxido nas regiões de baía ou fjord dos HPAs através de epoxidações catalisadas pela citocromo P450 (CYP450), com uma hidrólise intermediária pela epóxido hidrolase e (ii) oxidação (CYP450 ou peroxidases) levando à formação de um cátion radical reativo. Outras vias incluem a formação de derivados metilados, quinonas e metabólitos de anel aberto cujas contribuições para a carcinogênese ainda são pouco estudadas, assim como o papel do estresse oxidativo na toxicidade dos HPAs. Neste trabalho foi investigado a citotoxicidade e genotoxicidade do indeno[1,2,3-cd]pireno, trifenileno e coroneno e seus produtos de oxidação (quinonas e hidroquinonas). Linhagens de carcinoma hepatocelular humano (HepG2) e de hepatócitos humanos normais (THLE-2) foram incubadas com os HPAs e suas respectivas quinonas e hidroquinonas acetiladas para análise de viabilidade celular (MTT) em diferentes condições de cultivo (por 16 horas, de 20 a 200 uM). Células HepG2 foram incubadas por 16 horas com indeno[1,2,3-cd]pireno (50 µM), coroneno (20 µM), trifenileno (10 uM) ou seus produtos de oxidação (quinonas e hidroquinonas acetiladas) para análise de dano oxidativo em DNA e peroxidação lipídica. Nas concentrações descritas acima, esses HPAs estruturalmente diferentes e seus produtos de oxidação são citotóxicos e levam ao aumento dos níveis de 7,8- dihidro-8-oxo-2\'-desoxiguanosina e malonaldeído. Tais danos podem contribuir para o aumento do risco de desenvolvimento de doenças, como o câncer, na população exposta. / Exposure to Polycyclic Aromatic Hydrocarbons (PAH) is related to the increase in the risk of cancer. These carcinogens depend on their activation by electrophilic intermediates to cause damage on biomolecules. The best understood activation pathways include (i) the formation of diol-epoxide in the bay and fjord regions of the PAH through epoxidations catalyzed by cytochrome P450 (CYP450), with an intermediate hydrolysis by epoxide hydrolase and (ii) oxidation (CYP450 or peroxidases) leading to the formation of a reactive cationic radical. Other pathways include the formation of methylated derivatives, quinones and open-ring metabolites whose contributions to carcinogenesis, as well as the role of oxidative stress on PAH toxicity, have not been extensively studied yet. This work investigated the cytotoxicity and genotoxicity of indene[1,2,3-cd]pyrene, triphenylene and coronene and their oxidation products (quinones and hydroquinones). Strains of human hepatocellular carcinoma (HepG2) and of normal human hepatocytes (THLE-2) were incubated with PAH and their respective quinones and acetylated hydroquinones and afterwards analyzed for cell viability (MTT) under different culture conditions (for 16 hours, 20 to 200 BM). HepG2 cells were incubated for 16 hours with indene[1,2,3-cd]pyrene (50 BM), coronene (20 BM), triphenylene (10 BM) or their oxidation products (quinones and acetylated hydroquinones) and afterwards analyzed for oxidative damage on DNA and lipid peroxidation. In the mentioned concentrations, these structurally different PAHs and their oxidation products are cytotoxic and lead to an increase in the levels of 7,8-dihydro-8-oxo-2\'-deoxyguanosine and malonaldehyde. Such damages may contribute to increase the risk of diseases like cancer in the exposed population. Adutos de DNA Carcinógenos químicos Citotoxicidade Cytotoxicity DNA adducts Estresse oxidativo Genotoxicidade Genotoxicity Hidrocarbonetos policíclicos Lipid peroxidation Oxidative stress Peroxidação lipídica Toxicologia Toxicology
205	NEUROPROTECTIVE STRATEGIES FOLLOWING EXPERIMENTAL TRAUMATIC BRAIN INJURY: LIPID PEROXIDATION-DERIVED ALDEHYDE SCAVENGING AND INHIBITION OF MITOCHONDRIAL PERMEABILITY TRANSITION Kulbe, Jacqueline Renee 01 January 2019 (has links) Traumatic brain injury (TBI) represents a significant health crisis. To date there are no FDA-approved pharmacotherapies available to prevent the neurologic deficits caused by TBI. Following TBI, dysfunctional mitochondria generate reactive oxygen and nitrogen species, initiating lipid peroxidation (LP) and the formation of LP-derived neurotoxic aldehydes, which bind mitochondrial proteins, exacerbating dysfunction and opening of the mitochondrial permeability pore (mPTP), resulting in extrusion of mitochondrial sequestered calcium into the cytosol, and initiating a downstream cascade of calpain activation, spectrin degradation, neurodegeneration and neurologic impairment. As central mediators of the TBI secondary injury cascade, mitochondria and LP-derived neurotoxic aldehydes make promising therapeutic targets. In fact, Cyclosporine A (CsA), an FDA-approved immunosuppressant capable of inhibiting mPTP has been shown to be neuroprotective in experimental TBI. Additionally, phenelzine (PZ), an FDA-approved non-selective irreversible monoamine oxidase inhibitor (MAOI) class antidepressant has also been shown to be neuroprotective in experimental TBI due to the presence of a hydrazine (-NH-NH2) moiety allowing for the scavenging of LP-derived neurotoxic aldehydes. The overall goal of this dissertation is to further examine the neuroprotective effects of the mPTP inhibitor, CsA, and the LP-derived neurotoxic aldehyde scavenger, PZ, using a severe controlled cortical impact injury (CCI) model in 3-month old male Sprague-Dawley rats. First, the effects of CsA on cortical synaptic and non-synaptic mitochondria, two heterogeneous populations, are examined. Our results indicate that compared to non-synaptic mitochondria, synaptic mitochondria sustain greater damage 24h following CCI and are protected to a greater degree by CsA. Second, the neuroprotective effects of a novel 72h continuous subcutaneous infusion of CsA combined with PZ are compared to monotherapy. Following CCI, our results indicate that individually both CsA and PZ attenuate modification of mitochondrial proteins by LP-derived neurotoxic aldehydes, PZ is able to maintain mitochondrial respiratory control ratio and cytoskeletal integrity, but together, PZ and CsA, are unable to improve and in some cases negate monotherapy neuroprotective effects. Finally, the effects of PZ (MAOI, aldehyde scavenger), pargyline (PG, MAOI, non-aldehyde scavenger) and hydralazine (HZ, non-MAOI, aldehyde scavenger) are compared. Our results indicate that PZ, PG, and HZ are unable to improve CCI-induced deficits to learning and memory as measured by Morris water maze (post-CCI D3-7). Of concern, PZ animals lost a significant amount of weight compared to all other group, possibly due to MAOI effects. In fact, in uninjured cortical tissue, PZ administration leads to a significant increase in norepinephrine and serotonin. Additionally, although PZ, PG, and HZ did not lead to a statistically significant improvement in cortical tissue sparing 8 days following CCI, the HZ group saw a 10% improvement over vehicle. Overall, these results indicate that pharmacotherapies which improve mitochondrial function and decrease lipid peroxidation should continue to be pursued as neuroprotective approaches to TBI. However, further pursuit of LP-derived aldehyde scavengers for clinical use in TBI may require the development of hydrazine (-NH-NH2)-compounds which lack additional confounding mechanisms of action. combinational therapy cyclosporine A mitochondria phenelzine traumatic brain injury Molecular and Cellular Neuroscience Nervous System Neuroscience and Neurobiology Neurosciences
206	Propriétés anti-athérogènes du DHA : effets nutrigénomiques au niveau aortique et rôle potentiel des métabolites issus de la peroxydation Joumard-Cubizolles, Laurie 17 December 2013 (has links) Les acides gras polyinsaturés oméga-3 à longue chaîne (AGPIω3-LC), principalement représentés par l'acide eicosapentaénoïque (EPA) et l'acide docosahexaénoïque (DHA), présentent des effets bénéfiques vis-à-vis de l'athérosclérose. Leur action au niveau vasculaire est suggérée. Les mécanismes d'action sont mal compris du fait de la complexité d'action des AGPIω3-LC au niveau cellulaire. Les AGPIω3-LC affectent de nombreuses protéines y compris les facteurs de transcription, ce qui engendre la modulation de l'expression de nombreux gènes. La complexité s'accroît si l'on considère l'ensemble des métabolites oxygénés issus des AGPIω3-LC. Les métabolites issus de la peroxydation lipidique peuvent être produits en abondance au cours de l'athérogenèse mais leur bioactivité est quasiment inconnue. Des points majeurs restent à éclaircir comme l'identification des cibles cellulaires et moléculaires au niveau vasculaire et la bioactivité des métabolites peroxydés. Objectifs : étudier l'impact du DHA au niveau vasculaire et évaluer la bioactivité de certains métabolites issus de la peroxydation lipidique du DHA. Les travaux visant à étudier les propriétés athéro-protectrices du DHA n'ont jusqu'à présent pas permis d'obtenir une vision globale de son spectre d'action. La nutrigénomique a paru être une approche pertinente pour étudier les effets du DHA au niveau vasculaire. Une étude in vivo a été réalisée sur des souris athérosclérotiques LDLR-/- recevant ou non une supplémentation en DHA (2% de l'apport énergétique journalier). Le rôle athéro-protecteur du DHA a été confirmé dans une étude précédente rapportant une diminution de 35% de l'étendue des lésions au niveau aortique dans le groupe DHA. Au niveau protéique, nous avons montré une altération significative de l'expression de protéines intervenant principalement au niveau des métabolismes glucidique et lipidique mais aussi dans les défenses anti-oxydantes. Au niveau génique, la composante inflammatoire s'est avérée être une cible majeure du DHA au niveau vasculaire. La supplémentation en DHA a réduit l'expression de gènes impliqués dans l'adhésion cellulaire, la chimiotaxie et la présentation de l'antigène. Plusieurs gènes se sont avérés être des marqueurs phénotypiques des macrophages et l'analyse des régulateurs transcriptionnels montrait une implication probable de PPARγ, IFNγ et NFκB dans les modulations d'expression génique observées. Nos analyses suggèrent une orientation préférentielle des macrophages vers un phénotype réparateur de type M2 chez les souris recevant la supplémentation en DHA. Une analyse immunohistochimique au niveau aortique a révélé une plus grande abondance d'arginase I. Une approche plus ciblée alliant une étude in vitro sur un modèle de macrophages humains et l'utilisation de métabolites peroxydés spécifiques du DHA, les neuroprostanes, nous a permis de conforter notre hypothèse selon laquelle le DHA pourrait agir au moins en partie via ses métabolites peroxydés. L'exposition des macrophages à deux types de neuroprostanes (les 4-F4t et les 14-A4-Neuroprostanes) a permis de réduire significativement l'expression et la sécrétion de plusieurs médiateurs pro-inflammatoires. Des résultats préliminaires suggèrent que ces effets anti-inflammatoires des neuroprostanes seraient indépendants de PPARγ mais liés à une inhibition de la voie NFκB. L'étude in vivo et l'utilisation de la nutrigénomique nous ont permis d'explorer de façon ouverte et non biaisée l'impact du DHA au niveau vasculaire. Les résultats sont que le DHA active le métabolisme énergétique et les défenses anti-oxydantes et diminue l'état inflammatoire avec une implication probable du DHA dans l'orientation phénotypique des macrophages vers un phénotype réparateur de type M2. Les résultats obtenus in vitro sur macrophages primaires humains confirment que les métabolites peroxydés du DHA contribuent à ses propriétés anti-inflammatoires. / Numerous studies have reported beneficial effects of long chain omega-3 polyunsaturated fatty acids (LC-ω3PUFAs) on atherosclerosis and associated cardiovascular events. These fatty acids are mainly represented by eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA). LC-ω3PUFAs exert their athero-protective action mainly by a reduction of triglyceridemia, increased endothelial relaxation, and reduced inflammation. Their specific action at the vascular level is suggested. Their mechanisms of action are still only partially understood because of the complexity of action of LC-ω3PUFAs at the cellular level. LC-ω3PUFAs affect several membrane or cytosolic proteins, including transcription factors, which modulate numerous gene expression. The complexity is further increased when considering a wide range of oxygenated metabolites derived from LC-ω3PUFAs. Among them, the metabolites from lipid peroxidation may be produced in abundance during atherogenesis but their bioactivity is almost unknown. There are still major issues to be clarified, such as the identification of cellular and molecular targets at the vascular level ; the bioactivity of peroxidized metabolites that could play a key role in the prevention of atherosclerosis. The objective of this work was to study the impact of DHA at the vascular level and to evaluate the bioactivity of selected metabolites from DHA lipid peroxidation. Studies on anti-atherogenic properties of DHA have so far been carried out only in a targeted manner that does not provide a comprehensive and integrated view of its spectrum of action. Nutrigenomics appears to be a relevant approach to study the effects of DHA at the vascular level. In vivo study was performed on LDLR-/- atherosclerotic mice supplemented or not with DHA. The athero-protective effect of DHA has been confirmed in the previous study performed by our team reporting a 35% decrease of the atherosclerotic lesion in the DHA group. Aorta proteome study demonstrated a significant alteration of the expression of proteins involved mainly in the carbohydrate and lipid metabolism and also in antioxidant defenses. At the transcriptome level, the inflammatory component of atherosclerosis appears to be a major target of DHA at the vascular level. More precisely, DHA supplementation reduced the expression of genes involved in cell adhesion, chemotaxis and antigen presentation. Several genes were found to be phenotypic markers of macrophages and analysis of transcriptional regulators showed a possible contribution of PPARγ, IFNγ and NFκB to the observed modulation of gene expression. Our results suggest a preferential orientation of macrophages to a M2 type repair phenotype in mice receiving DHA supplementation. This was confirmed by immunohistochemical analysis at the aorta which revealed a greater abundance of arginase I. We chose a focused in vitro study of the action of specific DHA peroxidized metabolites: the neuroprostanes on a human macrophages. This study allowed us to confirm our hypothesis that DHA may act at least in part via its peroxidized metabolites. The macrophages exposition to 2 types of neuroprostanes (4-F4t and 14-A4-Neuroprostanes) has significantly reduced the expression and secretion of several pro-inflammatory mediators. Preliminary results suggest that these anti-inflammatory effects are PPARγ-independent but related to inhibition of NFκB pathway. In vivo study, and nutrigenomics approach, allowed us to explore the impact of DHA at the vascular level by an open and unbiased way. The results are that DHA activates energy metabolism and antioxidant defenses and reduces the inflammatory component of atherosclerosis with a possible involvement of DHA in the phenotypic direction of macrophages to a M2 type repair phenotype. The results obtained in vitro on primary human macrophages confirmed that DHA peroxidized metabolites contribute to its anti-inflammatory properties. Athérosclérose AGPIω3-LC DHA Aorte Nutrigénomique Inflammation Peroxydation lipidique Neuroprostanes Macrophages Atherosclerosis LC-ω3PUFAs DHA Aorta Nutrigenomic Inflammation Lipid peroxidation Neuroprostanes Macrophages
207	Lipid peroxidation <i>in vivo</i> : Evaluation and application of methods for measurement Södergren, Eva January 2000 (has links) <p>Lipid peroxidation is thought to be an important factor in the pathophysiology of a number of diseases and in the process of ageing, but its measurement <i>in vivo</i> has been difficult. The aim of this thesis was to evaluate methods for measurement of lipid peroxidation <i>in vivo</i> that are suitable for clinical investigations, and to apply these methods in animal and human studies investigating basal conditions and situations associated with increased lipid peroxidation.</p><p>The ferrous oxidation in xylenol orange assay for quantification of total plasma lipid hydroperoxides was re-evaluated regarding sample handling and storage. It was shown to be a useful tool for analyses of fresh but not stored plasma samples.</p><p>A methodology for measurement of the total amount (sum of free and esterified) of an F<sub>2</sub>-isoprostane, 8-iso-prostaglandin F<sub>2α</sub>, in tissues using alkaline hydrolysis in combination with an existing radioimmunoassay was developed. High levels of 8-iso-prostaglandin F<sub>2α</sub> in rat liver tissue were quantified by this technique both at basal conditions and in an experimental model of increased lipid peroxidation induced by carbon tetrachloride.</p><p>Supplementation with vitamin E to rats decreased both non-enzymatic and enzymatic lipid peroxidation as measured by 8-iso-prostaglandin F<sub>2α</sub> and a major prostaglandin F<sub>2α</sub> metabolite. This was verified both in the urine at basal conditions, and in the urine and liver tissue after carbon tetrachloride induced lipid peroxidation.</p><p>In a randomised cross-over study in humans, a rapeseed oil-based diet with an increased proportion of easily oxidised polyunsaturated fatty acids was compared to a control diet rich in saturated fats. The rapeseed oil-based diet did not seem to increase the degree of lipid peroxidation in plasma and urine as measured by 8-iso-prostaglandin F<sub>2α</sub>, hydroperoxides and malondialdehyde, presumably due to a sufficient content of antioxidants in the rapeseed oil diet.</p><p>In conclusion, the simultaneous measurement of several biomarkers of lipid peroxidation is a promising approach for future studies investigating the possible role of lipid peroxidation <i>in vivo</i> under basal conditions and in the pathology of diseases.</p> Medical sciences lipid peroxidation hydroperoxides F2-isoprostanes MDA prostaglandins measurement carbon tetrachloride vitamin E dietary fat quality rapeseed oil MEDICIN OCH VÅRD MEDICINE MEDICIN
208	Fatty Acid Composition in Skeletal Muscle : Influence of Physical Activity and Dietary Fat Quality Andersson, Agneta January 2001 (has links) <p>Insulin sensitivity is related to the fatty acid profile of skeletal muscle. The aim of this thesis was to investigate whether physical activity and dietary fat quality, independent of each other, influence the fatty acid composition of the skeletal muscle lipids. In an intervention study where middle-aged men were exercising for six weeks, and in a cross-sectional study comparing sedentary with endurance trained young men, it was demonstrated that the fatty acid composition of skeletal muscle lipids differed between physical active and inactive men. In brief, a lower proportion of palmitic acid (16:0) and total n-6 polyunsaturated fatty acids (PUFA) and a higher proportion of stearic (18:0) and oleic acid (18:1n-9) and total n-3 PUFA in the muscle phospholipids were associated with physical activity, despite similar fatty acid composition of the diet. In the second study, that included a larger training volume, differences in the fatty acid profile were also found in the skeletal muscle triglycerides. </p><p>In contrast, after short-term supra-maximal exercise we found no significant changes in the proportion of the fatty acids in skeletal muscle. </p><p>Furthermore, after a treatment period of three months, with diets with various dietary fat quality, the proportions of saturated fatty acids (14:0, 15:0 and 17:0) were higher and the proportion of 18:1 n-9 lower in subjects with a high intake of saturated fatty acids compared with subjects with a high intake of monounsaturated fatty acids. In addition subjects given n-3 supplementation had a higher proportion of total n-3 PUFA and lower n-6 PUFA in the skeletal muscle phospholipids than controls. Differences similar to those observed in the phospholipids were found in the triglycerides. </p><p>In summary, these results suggest that regular aerobic physical activity and dietary fat quality influence the fatty acid composition of the skeletal muscle lipids, which may affect insulin sensitivity and glucose homeostasis. </p> Medical sciences Skeletal muscle phospholipids triglycerides fatty acids physical activity lipid peroxidation dietary fat quality n-3 polyunsaturated fatty acids MEDICIN OCH VÅRD MEDICINE MEDICIN
209	Measurement and Evaluation of Antioxidant Status and Relation to Oxidative Stress in Humans Nälsén, Cecilia January 2006 (has links) <p>Numerous diseases are associated with reduced antioxidant defence and oxidative stress. The antioxidant defence includes dietary and endogenous antioxidants and involves complex interactions between them. The effects of dietary factors on antioxidant status and oxidative stress of healthy humans were investigated in the studies described in this thesis. Assays of plasma antioxidant capacity encompass interactions between various antioxidants. Although uric acid has an unclear function as an antioxidant, it is a major determinant of antioxidant capacity. We measured antioxidant capacity in the presence and absence of uric acid to provide more information on the application of measures of antioxidant capacity. Individuals with high dietary intakes of various antioxidants and antioxidant rich foods, especially when combined, had higher plasma antioxidant capacities than those with lower antioxidant intakes. However, there were no associations between dietary intake of antioxidants or antioxidant rich foods and the plasma concentration of F<sub>2</sub>-isoprostanes, which is considered a reliable biomarker for oxidative stress. Intakes of various doses of a mixture of bilberry juice and black tea, rich in flavonoids for four weeks, increased antioxidant capacity in some groups, but urine levels of F<sub>2</sub>-isoprostanes were not affected. There were substantial individual variations in responses to the drinks related to baseline antioxidant capacity. Supplementation with eicosapentaenoic acid and docosahexaenoic acid decreased the plasma levels of F<sub>2</sub>-isoprostanes, but not prostaglandin F<sub>2α</sub> formation or antioxidant capacity. </p><p>It was concluded that a high intake of foods rich in antioxidants is related to improved antioxidant status. After intake of foods rich in antioxidants, the antioxidant status may increase, but with considerable individual variation in the responses, which warrants further investigation. Lipid peroxidation <i>in vivo</i> is not easily affected by dietary antioxidants in healthy humans. Although n-3 fatty acids are highly unsaturated, they reduce nonenzymatic free radical-catalyzed lipid peroxidation, but not enzymatic lipid peroxidation.</p> Nutrition antioxidant antioxidant status antioxidant capacity oxidative stress lipid peroxidation F2-isoprostanes dietary factors vitamin E n-3 fatty acids human Näringslära
210	Lipid peroxidation in vivo : Evaluation and application of methods for measurement Södergren, Eva January 2000 (has links) Lipid peroxidation is thought to be an important factor in the pathophysiology of a number of diseases and in the process of ageing, but its measurement in vivo has been difficult. The aim of this thesis was to evaluate methods for measurement of lipid peroxidation in vivo that are suitable for clinical investigations, and to apply these methods in animal and human studies investigating basal conditions and situations associated with increased lipid peroxidation. The ferrous oxidation in xylenol orange assay for quantification of total plasma lipid hydroperoxides was re-evaluated regarding sample handling and storage. It was shown to be a useful tool for analyses of fresh but not stored plasma samples. A methodology for measurement of the total amount (sum of free and esterified) of an F2-isoprostane, 8-iso-prostaglandin F2α, in tissues using alkaline hydrolysis in combination with an existing radioimmunoassay was developed. High levels of 8-iso-prostaglandin F2α in rat liver tissue were quantified by this technique both at basal conditions and in an experimental model of increased lipid peroxidation induced by carbon tetrachloride. Supplementation with vitamin E to rats decreased both non-enzymatic and enzymatic lipid peroxidation as measured by 8-iso-prostaglandin F2α and a major prostaglandin F2α metabolite. This was verified both in the urine at basal conditions, and in the urine and liver tissue after carbon tetrachloride induced lipid peroxidation. In a randomised cross-over study in humans, a rapeseed oil-based diet with an increased proportion of easily oxidised polyunsaturated fatty acids was compared to a control diet rich in saturated fats. The rapeseed oil-based diet did not seem to increase the degree of lipid peroxidation in plasma and urine as measured by 8-iso-prostaglandin F2α, hydroperoxides and malondialdehyde, presumably due to a sufficient content of antioxidants in the rapeseed oil diet. In conclusion, the simultaneous measurement of several biomarkers of lipid peroxidation is a promising approach for future studies investigating the possible role of lipid peroxidation in vivo under basal conditions and in the pathology of diseases. Medical sciences lipid peroxidation hydroperoxides F2-isoprostanes MDA prostaglandins measurement carbon tetrachloride vitamin E dietary fat quality rapeseed oil MEDICIN OCH VÅRD MEDICINE MEDICIN

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