893 resultados para Antioxidant enzyme expression
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The importance of the isoform CYP2E1 of the human cytochrome P-450 superfamily of enzymes for occupational and environmental medicine is derived from its unique substrate spectrum that includes a number of highly important high-production chemicals, such as aliphatic and aromatic hydrocarbons, solvents and industrial monomers (i.a. alkanes, alkenes, aromatic and halogenated hydrocarbons). Many polymorphic genes, such as CYP2E1, show considerable differences in allelic distribution between different human populations. The polymorphic nature of the human CYP2E1 gene is significant for inter-individual differences in toxicity of its substrates. Since the substrate spectrum of CYP2E1 includes many compounds of basic relevance to industrial toxicology, a rationale for metabolic interactions of different CYP2E1 substrates is provided. In-depth research into the inter-individual phenotypic differences of human CYP2E1 enzyme activities was enabled by the recognition that the 6-hydroxylation of the drug chlorzoxazone is mediated by CYP2E1. Studies on CYP2E1 phenotyping have pointed to inter-individual variations in enzyme activities. There are consistent ethnic differences in CYP2E1 enzyme expression, mostly demonstrated between European and Japanese populations, which point to a major impact of genetic factors. The most frequently studied genetic polymorphisms are the restriction fragment length polymorphisms PstI/RsaI (mutant allele: CYP2E1*5B) located in the 5′-flanking region of the gene, as well as the DraI polymorphism (mutant allele: CYP2E1*6) located in intron 6. These polymorphisms are partly related, as they form the common allele designated CYP2E1*5A. Striking inter-ethnic differences between Europeans and Asians appear with respect to the frequencies of the CYP2E1*5A allele (only approximately 5% of Europeans are heterozygous, but 37% of Asians are, whilst 6% of Asians are homozygous). Available studies indicate a wide variation in human CYP2E1 expression, which are very likely based on complex gene-environment interactions. Major inter-ethnic differences are apparent on the genotyping and the phenotyping levels. Selected cases are presented where inter-ethnic variations of CYP2E1 may provide likely explanations for unexplained findings concerning industrial chemicals that are CYP2E1 substrates. Possible consequences of differential inter-individual and inter-ethnic susceptibilities are related to individual expressions of clinical symptoms of chemical toxicity, to results of biological monitoring of exposed workers, and to the interpretation of results of epidemiological or molecular-epidemiological studies.
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The polymorphism of human glutathione transferase hGSTT1-1 is expressed in three phenotypes. Experimentally, individuals can be classified as non-conjugators, low conjugators and 'high' conjugators depending on the enzyme activity in blood towards methylene chloride using a gas chromatographic assay. Non-conjugators do not have a functional hGSTT1 gene; however, little is known about the molecular basis of the three conjugator phenotypes. The higher hGSTT1-1 activity in high conjugators may be the result of enzyme induction or be genetically determined. Twenty-nine members of a large family, including three generations were phenotyped and genotyped with respect to hGSTT1-1. The hGSTT1-1 enzyme activity of high conjugators was twice as high as that of low conjugators. The distribution of hGSTT1-1 phenotypes strongly indicates a Mendelian intermediary inheritance, in which a gene-dosage effect results in a doubled enzyme expression in the presence of two functional alleles. The Mendelian intermediary inheritance is further supported by the findings of a semiquantitative polymerase chain reaction method designed to distinguish the three genotypes of hGSTT1 for rapid screening of large study groups.
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Introduction: Training for and competing in ultraendurance exercise events is associated with an improvement in endogenous antioxidant defenses as well as increased oxidative stress. However, consequences on health are currently unclear. Purpose: We aimed to examine the impact of training- and acute exercise-induced changes in the antioxidant capacity on the oxidant/antioxidant balance after an ironman triathlon and whether there are indications for sustained oxidative damage. Methods: Blood samples were taken from 42 well-trained male triathletes 2 d before an ironman triathlon, then immediately postrace, 1, 5, and 19 d later. Blood was analyzed for conjugated dienes (CD), malondialdehyde (MDA), oxidized low-density lipoprotein (oxLDL), oxLDL:LDL ratio, advanced oxidation protein products (AOPP), AOPP:total protein (TP) ratio, Trolox equivalent antioxidant capacity (TEAC), uric acid (UA) in plasma, and activities of superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), and catalase (CAT) in erythrocytes. Results: Immediately postrace, there were significant increases in CD, AOPP, TEAC, UA (for all P < 0.001), and AOPP:TP (P < 0.01). MDA rose significantly (P < 0.01) 1 d postrace, whereas CD (P < 0.01), AOPP (P = 0.01), AOPP:TP (P < 0.05), and TEAC (P < 0.001) remained elevated. OxLDL:LDL trended to increase, whereas oxLDL significantly (P < 0.01) decreased 1 d postrace. Except for GSH-Px (P = 0.08), activities of SOD (P < 0.001) and CAT (P < 0.05) significantly decreased postrace. All oxidative stress markers had returned to prerace values 5 d postrace. Furthermore, several relationships between training status and oxidative stress markers, TEAC, and antioxidant enzyme activities were noted. Conclusions: This study indicates that despite a temporary increase in most (but not all) oxidative stress markers, there is no persistent oxidative stress in response to an ironman triathlon, probably due to training- and exercise-induced protective alterations in the antioxidant defense system.
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Catechol-O-methyltransferase (COMT) metabolizes catecholamines such as dopamine (DA), noradrenaline (NA) and adrenaline, which are vital neurotransmitters and hormones that play important roles in the regulation of physiological processes. COMT enzyme has a functional Val158Met polymorphism in humans, which affects the subjects COMT activity. Increasing evidence suggests that this functional polymorphism may play a role in the etiology of various diseases from schizophrenia to cancers. The aim of this project was to provide novel biochemical information on the physiological and especially pathophysiological roles of COMT enzyme as well as the effects of COMT inhibition in the brain and in the cardiovascular and renal system. To assess the roles of COMT and COMT inhibition in pathophysiology, we used four different study designs. The possible beneficial effects of COMT inhibition were studied in double-transgenic rats (dTGRs) harbouring human angiotensinogen and renin genes. Due to angiotensin II (Ang II) overexpression, these animals exhibit severe hypetension, cardiovascular and renal end-organ damage and mortality of approximately 25-40% at the age of 7-weeks. The dTGRs and their Sprague-Dawley controls tissue samples were assessed with light microscopy, immunohistochemistry, reverse transcriptase-polymerase chain reaction (RT-PCR) and high-pressure liquid chromatography (HPLC) to evaluate the tissue damages and the possible protective effects pharmacological intervention with COMT inhibitors. In a second study, the consequence of genetic and pharmacological COMT blockade in blood pressure regulation during normal and high-sodium was elucidated using COMT-deficient mice. The blood pressure and the heart rate were measured using direct radiotelemetric blood pressure surveillance. In a third study, the effects of acute and subchronic COMT inhibition during combined levodopa (L-DOPA) + dopa decarboxylase inhibitor treatment in homocysteine formation was evaluated. Finally, we assessed the COMT enzyme expression, activity and cellular localization in the CNS during inflammation-induced neurodegeneration using Western blotting, HPLC and various enzymatic assays. The effects of pharmacological COMT inhibition on neurodegeneration were also studied. The COMT inhibitor entacapone protected against the Ang II-induced perivascular inflammation, renal damage and cardiovascular mortality in dTGRs. COMT inhibitors reduced the albuminuria by 85% and prevented the cardiovascular mortality completely. Entacapone treatment was shown to ameliorate oxidative stress and inflammation. Furthermore, we established that the genetic and pharmacological COMT enzyme blockade protects against the blood pressure-elevating effects of high sodium intake in mice. These effects were mediated via enhanced renal dopaminergic tone and suggest an important role of COMT enzyme, especially in salt-sensitive hypertension. Entacapone also ameliorated the L-DOPA-induced hyperhomocysteinemia in rats. This is important, since decreased homocysteine levels may decrease the risk of cardiovascular diseases in Parkinson´s disease (PD) patients using L-DOPA. The Lipopolysaccharide (LPS)-induced inflammation and subsequent delayed dopaminergic neurodegeneration were accompanied by up-regulation of COMT expression and activity in microglial cells as well as in perivascular cells. Interestingly, similar perivascular up-regulation of COMT expression in inflamed renal tissue was previously noted in dTGRs. These results suggest that inflammation reactions may up-regulate COMT expression. Furthermore, this increased glial and perivascular COMT activity in the central nervous system (CNS) may decrease the bioavailability of L-DOPA and be related to the motor fluctuation noted during L-DOPA therapy in PD patients.
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In order to understand the physiological response of oilseed rape (Brassica napus L.) leaves to cadmium (Cd) stress and exploit the physiological mechanisms involved in Cd tolerance, macro-mineral and chlorophyll concentrations, reactive oxygen species (ROS) accumulation, activities of enzymatic antioxidants, nonenzymatic compounds metabolism, endogenous hormonal changes, and balance in leaves of oilseed rape exposed to 0, 100, or 200 μM CdSO4 were investigated. The results showed that under Cd exposure, Cd concentrations in the leaves continually increased while macro-minerals and chlorophyll concentrations decreased significantly. Meanwhile, with increased Cd stress, superoxide anion (O 2 • − ) production rate and hydrogen peroxide (H2O2) concentrations in the leaves increased significantly, which caused malondialdehyde (MDA) accumulation and oxidative stress. For scavenging excess accumulated ROS and alleviating oxidative injury in the leaves, the activity of enzymatic antioxidants, such as superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT), was increased significantly at certain stress levels. However, with increased Cd stress, the antioxidant enzyme activities all showed a trend towards reduction. The nonenzymatic antioxidative compounds, such as proline and total soluble sugars, accumulated continuously with increased Cd stress to play a long-term role in scavenging ROS. In addition, ABA levels also increased continuously with Cd stress while ZR decreased and the ABA/ZR ratio increased, which might also be providing a protective role against Cd toxicity.
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Various endogenous and exogenous factors have been reported to increase the risk of breast cancer. Many of those are related to prolonged lifetime exposure to estrogens. Furthermore, a positive family history of breast cancer and certain benign breast diseases are known to increase the risk of breast cancer. The role of lifestyle factors, such as use of alcohol and smoking has been an area of intensive study. Alcohol has been found to increase the risk of breast cancer, whereas the role of smoking has remained obscure. A multitude of enzymes are involved in the metabolism of estrogens and xenobiotics including the carcinogens found in tobacco smoke. Many of the metabolic enzymes exhibit genetic polymorphisms that can lead to inter-individual differences in their abilities to modify hazardous substrates. Therefore, in presence of a given chemical exposure, one subgroup of women may be more susceptible to breast carcinogenesis, since they carry unfavourable forms of the polymorphic genes involved in the metabolism of the chemical. In this work, polymorphic genes encoding for cytochrome P450 (CYP) 1A1 and 1B1, N-acetyl transferase 2 (NAT2), sulfotransferase 1A1 (SULT1A1), manganese superoxide dismutase (MnSOD) and vitamin D receptor (VDR) were investigated in relation to breast cancer susceptibility in a Finnish population. CYP1A1, CYP1B1 and SULT1A1 are involved in the metabolism of both estrogens and xenobiotics, whereas NAT2 is involved only in the latter. MnSOD is an antioxidant enzyme protecting cells from oxidative damage. VDR, in turn, mediates the effects of the active form of vitamin D (1,25(OH)2D3, calcitriol) on maintenance of calcium homeostasis and it has anti-proliferative effects in many cancer cells. A 1.3-fold (95% CIs 1.01-1.73) increased risk of breast cancer was seen among women who carried the NAT2 slow acetylator genotype and a 1.5-fold (95% CI 1.1-2.0) risk was found in women with a MnSOD variant A allele containing genotypes compared to women with the NAT2 rapid acetylator genotype or to those with the MnSOD VV genotype, respectively. Instead, women with the VDR a allele containing genotypes were found to be at a decreased risk for breast cancer (OR 0.73; 95% CI 0.54-0.98) compared to women with the AA genotype. No significant overall associations were found between SULT1A1 or CYP genotypes and breast cancer risk, whereas a combination of the CYP1B1 432Val allele containing genotypes with the NAT2 slow acetylator genotypes posed a 1.5-fold (95% CI 1.03-2.24) increased risk. Moreover, NAT2 slow acetylator genotype was found to be confined to women with an advanced stage of breast cancer (stages III and IV). Further evidence for the association of xenobiotic metabolising genes with breast cancer risk was found when active smoking was taken into account. Women who smoked less than 10 cigarettes/day and carried at least one CYP1B1 432Val variant allele, were at 3.1-fold (95% CI 1.32-7.12) risk of breast cancer compared to women who smoked the same amount but did not carry the variant allele. Furthermore, the risk was significantly increased with increasing number of the CYP1B1 432Val alleles (p for trend 0.005). In addition, women who smoked less than 5 pack-years and carried the NAT2 slow acetylator genotype were at a 2.6-fold (95% CI 1.01-6.48) increased risk of breast cancer compared to women who smoked the same amount but carried the NAT2 rapid acetylator genotype. Furthermore, the combination of the CYP1B1 432Val allele and the NAT2 slow acetylator genotype increased the risk of breast cancer by 2.5-fold (95% CI 1.11-5.45) among ever smokers. Instead, the MnSOD A allele was found to be a risk factor among postmenopausal long-term smokers (>15 years of smoking) (OR 5.1; 95% CI 1.4-18.4) or among postmenopausal women who had smoked more than 10 cigarettes/day (OR 5.5; 95% CI 1.3-23.4) compared to women who had similar smoking habits but carried the MnSOD V/V genotype. Similarly, within subgroups of postmenopausal women who were using oral contraceptives, hormone replacement therapy or alcohol, women carrying the MnSOD A allele genotypes seemed to be at increased risk of breast cancer compared to women with the MnSOD V/V genotype. A positive family history of breast cancer and high parity were shown to be inversely associated with breast cancer risk among women carrying the VDR ApaI a allele or among premenopausal women carrying the SULT1A1*2 allele, respectively.
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The importance of selenium as an essential trace element is now well recognized. In proteins, the redox-active selenium moiety is incorporated as selenocysteine (Sec), the 21st amino acid. In mammals, selenium exerts its redox activities through several selenocysteine-containing enzymes, which include glutathione peroxidase (GPx), iodothyronine deiodinase (ID), and thioredoxin reductase (TrxR). Although these enzymes have Sec in their active sites, they catalyze completely different reactions and their substrate specificity and cofactor or co-substrate systems are significantly different. The antioxidant enzyme GPx uses the tripeptide glutathione (GSH) for the catalytic reduction of hydrogen peroxide and organic peroxides, whereas the larger and more advanced mammalian TrxRs have cysteine moieties in different subunits and prefer to utilize these internal cysteines as thiol cofactors for their catalytic activity. On the other hand, the nature of in vivo cofactor for the deiodinating enzyme ID is not known, although the use of thiols as reducing agents has been well-documented. Recent studies suggest that molecular recognition and effective binding of the thiol cofactors at the active site of the selenoenzymes and their mimics play crucial roles in the catalytic activity. The aim of this perspective is to present an overview of the thiol cofactor systems used by different selenoenzymes and their mimics.
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Redox imbalance generates multiple cellular damages leading to oxidative stress-mediated pathological conditions such as neurodegenerative diseases and cancer progression. Therefore, maintenance of reactive oxygen species (ROS) homeostasis is most important that involves well-defined antioxidant machinery. In the present study, we have identified for the first time a component of mammalian protein translocation machinery Magmas to perform a critical ROS regulatory function. Magmas overexpression has been reported in highly metabolically active tissues and cancer cells that are prone to oxidative damage. We found that Magmas regulates cellular ROS levels by controlling its production as well as scavenging. Magmas promotes cellular tolerance toward oxidative stress by enhancing antioxidant enzyme activity, thus preventing induction of apoptosis and damage to cellular components. Magmas enhances the activity of electron transport chain (ETC) complexes, causing reduced ROS production. Our results suggest that J-like domain of Magmas is essential for maintenance of redox balance. The function of Magmas as a ROS sensor was found to be independent of its role in protein import. The unique ROS modulatory role of Magmas is highlighted by its ability to increase cell tolerance to oxidative stress even in yeast model organism. The cytoprotective capability of Magmas against oxidative damage makes it an important candidate for future investigation in therapeutics of oxidative stress-related diseases.
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O extrato aquoso de erva-mate, obtido a partir de folhas secas de Ilex paraguariensis, é uma bebida amplamente consumida na América do Sul. Inicialmente, nosso objetivo foi caracterizar os compostos presentes nas amostras de erva-mate disponíveis no mercado brasileiro (CH: chimarrão; T: chá mate torrado; G: chá mate torrado, comercialmente acondicionado em garrafas ou C: em copos; TS: chá mate torrado solúvel A mutagenicidade, citotoxicidade e antimutagenicidade de todas as amostras também foram avaliadas atavés do Teste de Ames na presença e na ausência de ativação metabólica. Em seguida, analisamos a amostra TS (2,5, 5,0 e 10 mg/mL) quanto a sua atividade antioxidante e antigenotóxica. Além disso, avaliamos também os efeitos da amostra TS sobre a sinalização da leptina e da insulina no hipotálamo e o estresse oxidativo hepático de ratos adultos obesos programados pela superalimentação neonatal (S). Para induzir S, o tamanho da ninhada foi reduzido a três filhotes por lactante e as ninhadas com número padrão de filhotes (dez/lactante) foram utilizadas como controle. Aos 150 dias de vida, as proles S foram subdivididas em: TS - tratados com extrato aquoso de erva-mate (1g/kg de peso corporal/dia, por gavagem) e S - recebendo água por gavagem durante 30 dias. A prole controle (C) também recebeu água nas mesmas condições do grupo S. Em nossos resultados, verificamos a presença de ácido clorogênico, cafeína e teobromina em todas as amostras analisadas. O conteúdo de compostos fenólicos nas infusões estudadas foram CH: 5,140,23; T: 4,330,01; G: 0,930,25; C: 0,800,3 e TS: 8,350,5 mg/ml. Não observamos efeito mutagênico ou citotóxico nas amostras analisadas. Um efeito antimutagênico significativo foi observado para a cepa TA97 (pré-, co- e pós-tratamento), na presença de ativação metabólica, em todas as amostras testadas. A amostra TS também apresentou um efeito antimutagênico significativo para a TA102 (pré-, co-e e pós-tratamento), na presença de ativação metabólica. Na análise exclusiva da amostra TS, observamos uma atividade antioxidante quando utilizado o ensaio de DPPH, apresentando IC50 69,3+3,1 μg/ml. Além disso, a amostra TS apresentou um efeito protetor sobre a quebra do DNA plasmidial induzida por radicais superóxido e hidroxila, de maneira dose dependente. No teste do cometa, detectamos um efeito antigenotóxico induzido pelo TS em cultura primária de células epiteliais de esôfago. Em nossos testes in vivo observamos que os animais TS não desenvolveram sobrepeso, obesidade visceral e hiperfagia. A resistência hipotalâmica à leptina não foi significativamente revertida, porém a resistência à insulina foi minimizada pelo tratamento com TS no grupo programado pela S. No fígado, TS normalizou as atividades das enzimas antioxidantes (SOD, GPx e CAT) e diminuiu os marcadores de estresse oxidativo, MDA e 4-HNE. O tratamento com TS também reduziu o conteúdo de glicogênio e triglicerídios hepáticos. Nossos resultados sugerem que a erva-mate foi capaz de proteger o DNA contra danos oxidativos, aumentou as defesas antioxidantes, melhorou a função hepática em ratos superalimentados na lactação, talvez através da modulação da sinalização hipotalâmica da insulina podendo ser, portanto, uma importante ferramenta para prevenção e tratamento de doenças relacionadas ao estresse oxidativo.
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O oxigênio é importante não só por sua participação no metabolismo energético, mas também por sua conversão em derivados parcialmente reduzidos, as espécies reativas de oxigênio (ERO). ERO participam de funções importantes em diversas vias do metabolismo, entretanto, em concentrações desequilibradamente elevadas deflagram a peroxidação lipídica, processo deletério que forma aldeídos tóxicos, como o 4-hidroxi-2-nonenal (4-HNE). A manutenção de concentrações não deletérias das ERO é realizada por moléculas componentes do sistema antioxidante. Peixes podem ser expostos a grandes variações das concentrações de oxigênio, o que provoca ciclos oxidantes. A maioria dos estudos usa fígado e rim para avaliar estresse oxidante por meio de ensaios das atividades antioxidantes, o que requer o sacrifício dos animais. Contudo, o sangue sofre efeitos das ERO e avaliações no sangue podem permitir o estudo de antioxidantes no mesmo animal, sem a necessidade de sacrifício. Em consequência, foram nossos objetivos estabelecer uma técnica de cateterismo branquial em peixes, a padronização dos ensaios e a avaliação em sangue de componentes do sistema antioxidante de duas espécies de teleósteos em diferentes tensões de oxigênio. Pacus e tilápias foram avaliados em 6,0 mg de O2.L-1 e em hipoxia a 0,5 mg de O2.L-1 por 42 horas . Para os ensaios de hiperoxia os animais foram avaliados em 6,0 mg de O2.L-1, depois de 6 horas em 9,5 mg de O2.L-1 e depois de 30 horas de recuperação a 6,0 mg de O2.L-1. A utilização de materiais para o cateterismo de humanos permitiu a implantação de um acesso branquial. Infelizmente, houve formação de trombo após 24 horas. Mesmo assim, a observação de fluxo sanguíneo no interior da cânula e a sobrevida dos animais testados, confirmam a viabilidade da técnica. Verificamos em sangue uma maior atividade da enzima glutationa S-transferase (GST) sobre o 4-HNE em relação ao 1-cloro-2-dinitrobenzeno (CDNB). Isto reflete a importância de avaliações de atividade de enzimas, como a GST, sobre substratos endógenos. As respostas enzimáticas de tilápias mostraram-se mais sensíveis que as dos pacus quando comparadas em diferentes tensões de oxigênio.
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Alguns trabalhos demonstraram que a planta, Euterpe oleracea Mart. (açaí) é rica em polifenóis e que uma dieta rica em polifenóis pode estar envolvida na proteção contra o risco cardiovascular. Desta forma, o objetivo deste estudo foi avaliar o efeito do tratamento com o extrato hidroalcoólico do caroço do açaí (ASE) (200mg/Kg/dia), sobre as alterações renais, cardiovasculares, metabólicas, morfológicas e o estresse oxidativo na prole adulta com dezesseis semanas, cujas mães foram submetidas a uma dieta hipoprotéica durante a gestação. Quatro grupos de ratas foram alimentados com dietas experimentais: controle (20% de proteínas); controle + ASE (20% de proteína + ASE); hipoprotéica (6% de proteína); hipoprotéica + ASE (6% de proteína + ASE) durante a gestação. Após o desmame, todos os filhotes passaram a ser alimentados com uma dieta controle e foram sacrificados com 4 meses de idade. A pressão arterial sistólica (PAS) foi medida por pletismografia de cauda e o efeito vasodilatador da acetilcolina (ACh) e nitroglicerina (NG) foi avaliado em leito arterial mesentérico (LAM) perfundido. Foram determinados o peso corporal, níveis séricos de colesterol total, triglicerídeos, lipoproteína de alta densidade (HDL), albumina, uréia, creatinina, glicose, insulina, resistência à insulina (índice de Homa IR), sódio, potássio e a renina plasmática. Foi avaliada a depuração de creatinina, volume de urina, excreção fracionada de sódio (EFNa) e o número de glomérulos renais. O dano oxidativo, níveis de nitrito e a atividade das enzimas antioxidantes: superóxido dismutase, catalase e glutationa peroxidase foram dosados no plasma e homogenato de rim. O peso corporal foi menor no grupo hipoprotéico e recuperado com ASE. A PAS foi aumentada no grupo hipoprotéico e revertida pelo tratamento com ASE. Os níveis de renina plasmática foram aumentados no grupo hipoprotéico e reduzidos com ASE. A resposta vasodilatadora à ACh em LAM estava reduzida no grupo hipoprotéico com ASE houve uma melhora dessa resposta.O efeito vasodilatador da NG não foi diferente entre os grupos. No grupo hipoprotéico também foi observado o aumento dos níveis de triglicerídeos, colesterol total, uréia, creatinina, glicose e insulina, os mesmos foram reduzidos pelo ASE. Não houve diferença nos níveis de HDL, sódio, potássio, depuração de creatinina e volume urinário nos grupos estudados. Os níveis de malondialdeído e carbonilação de proteínas estavam aumentados e os níveis de nitrito reduzidos no grupo hipoprotéico e foram revertidos pelo ASE. As atividades das enzimas antioxidantes no plasma e no rim foram reduzidas no grupo hipoprotéico e aumentadas pelo ASE, com exceção da catalase que não apresentou diferença entre os grupos. Os animais hipoprotéicos apresentaram redução no número de glomérulos renais e aumento da EFNa e o tratamento com ASE preveniu as alterações renais encontradas neste modelo. Em conclusão, o ASE parece proteger a prole, cujas mães foram expostas a uma dieta com pouca proteína durante a gestação, através do efeito anti-hipertensivo, vasodilatador e antioxidante observado neste trabalho.
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叶片在成长进程中光饱和光合速率持续提高,尽管幼叶光呼吸的测定值较低,但幼叶光呼吸与总光合之比较高。叶片在成长初期就具有较高的最大光化学效率,但是仍略低于发育成熟的叶片。随着叶片的成长,光下叶片光系统II实际效率增加,而非光化学猝灭下降。幼叶叶黄素总量与叶绿素之比较高,随着叶而积的增加该比值下降;光下,幼叶脱环氧化程度较高。同时,我们也观察到叶片生长初期活性氧清除酶系的活性较高。叶片生长过程中提高的光破坏防御机制与叶片相对含水量呈现很好的负相关,而不是叶片水势。因此,推测叶片生长过程中光破坏防御机制的建立可能与叶片膨压有关。 自然状态下,不同展开程度的叶片均未发生明显的光抑制;但将所柏‘叶片平展并暴露在强光下时幼叶发生明显的光抑制,伴随叶丽积的增加光抑制程度减轻。自然条件下测量叶片角度,观察到在叶片展开过程中叶柄夹角逐渐增加:日动态过程中幼叶的悬挂角随光强增加而明显减小,而完全展丌叶的悬挂角变化幅度很小。叶片角度的变化使实际照射到幼叶叶表的光强减少。推测较强的光ll乎吸、依赖叶黄素循环的热耗散、活性氧清除酶系以及较大的叶角变化可能是自然状态下幼叶未发生严重光抑制和光破坏的原因。 与成熟叶片相比,高温严重地伤害新生叶片光系统IT的结构,并导致最大光化学效率和光系统II活性下降。高温对光系统II的伤害包括供体测和受体测;而进一步的研究和分析表明高温很可能影响放氧复合物活性,从而改变光系统II的结构并最终导致受体测电子传递受阻。叶片生长和光合机构的健全使得光系统II热稳定性逐步增强,因此推测叶片生长过程中光系统II热稳定性的增强可能主要与其放氧复合物结构和功能的完善有关。
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紫茎泽兰(Eupatorium adenophorum Spreng.)种子萌发的温度范围是10-30 ℃,最适宜的萌发温度是25℃,高温显著抑制其萌发,35 ℃恒温即没有种子萌发。紫茎泽兰种子萌发对于光的需求为中等,在黑暗中发芽率为17%。紫茎泽兰种子萌发的pH 范围是5.0-7.0,最高发芽率是以蒸馏水为介质,其pH为5.7。紫茎泽兰种子的萌发率随着水势的加大而逐渐降低,在水势大于-0.7 MPa 条件下,即没有种子萌发。在盐分含量小于100 mM NaCl 条件下,其发芽率均大于65%;在盐分含量小于250 mM条件下,其发芽率仍大于10%,当盐分含量达到300 mM NaCl时,即没有种子萌发。紫茎泽兰种子在土壤表层其发芽率最高,当埋藏深度为1.5 cm时即没有种子萌发。根据我们所得的实验结果,对比其原产地的气候条件并结合我国的气候条件和土壤条件进行分析,我们预测紫茎泽兰未来在中国的分布范围将局限在云贵高原,尽管在某些气候和土壤环境适宜的条件下仍有可能会形成零星分布区。 研究了紫茎泽兰和飞机草(Eupatorium odoratum L.)在三种环境胁迫条件下(高温、低温、干旱)七种抗氧化酶活性的变化。结果表明:这三种环境胁迫都对两种植物的生物膜系统造成了损伤,造成了植物体内丙二醛含量的升高。紫茎泽兰在这三种环境胁迫条件下,DHAR活性都升高;SOD活性也都升高,但是在低温处理时与对照的差别并不明显;POD和GR活性在低温和干旱处理时升高,在高温处理时降低;CAT活性在高温和干旱处理时降低,在低温处理时升高;MDAR活性在在高温和干旱处理时降低,在低温处理时略微上升,但是与对照的差别并不明显;APX活性则在三种环境胁迫下表现各不相同。通过这些结果可以说明:DHAR对紫茎泽兰抵抗不良环境的损伤具有重要作用。 而飞机草的抗氧化酶系统的变化为:SOD、APX和DHAR在三种环境胁迫下酶活性都升高;CAT在高温胁迫下升高,而在低温和干旱胁迫下酶活性降低;POD和MDAR在高温和干旱胁迫下酶活性升高,而在低温胁迫下酶活性降低;GR在高温和干旱胁迫下酶活性升高,而在低温胁迫下保持不变。以上的研究结果说明,SOD、APX和DHAR是飞机草抵御环境胁迫的关键酶。 通过比较两种植物在温度胁迫下抗氧化酶系统的不同响应,我们研究发现:两种植物之所以对温度的忍耐性不同,在一定程度上是由于它们在温度胁迫时抗氧化酶系统所作出的不同响应,抗氧化酶系统很可能在两种植物抵抗温度胁迫过程中扮演重要角色,即通过有效调节抗氧化酶活性来减少植物体内有害物质-活性氧自由基的积累,从而减少对植物细胞膜的损伤。两者的差别主要是:紫茎泽兰在低温胁迫时,清除活性氧的抗氧化酶都增加,这就减轻了活性氧自由基在植物细胞中的积累,从而可以在一定程度上保护植物。但是,在高温胁迫时CAT, POD, APX, GR和MDAR酶活性并没有随着SOD活性的升高而升高,所以很有可能造成对细胞有毒害作用的H2O2累积,其结果就造成了紫茎泽兰在高温胁迫下叶片细胞膜的过氧化程度较强。而飞机草的情况正相反,在低温胁迫下飞机草叶片细胞膜的过氧化程度较强,抗氧化酶的协调上升出现在飞机草遭受高温胁迫时,而当其处于低温胁迫时抗氧化酶间的变化趋势则出现了很大分歧,这说明飞机草在高温胁迫时较低温胁迫时能够较好地保护自身遭受活性氧自由基的伤害。
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银杏(Ginkgo. Biloba.L),又俗称白果,是起源于中国的特有珍贵树种。本实验选用银杏种子和种胚为材料,研究其脱水过程中存活率、抗氧化酶活性、ABA等生理变化,并通过外源处理方式提高种胚脱水耐性,探讨银杏种胚脱水敏感性与抗氧化系统、ABA的关系,为银杏种质资源的长期保存提供一定依据。研究结果显示: 银杏种子和离体胚对脱水均较敏感,快速脱水后完整种子临界含水量40.3%,半致死含水量约为32%左右,离体种胚分别为28.2%和22%左右,初步认为银杏属顽拗型种子。经比较银杏整粒种子、离体胚快速脱水时含水量变化情况,发现离体种胚比整粒种子更耐脱水,完整种子脱水对内部种胚是一种慢速脱水。 种胚脱水过程中,含水量高于24.5% 时,丙二醛(MDA)含量基本不变,抗氧化酶活性增加,抗氧化酶防御机制起作用;当含水量低于24.5%时,MDA含量显著增加,抗氧化酶活性大幅度降低,防御机制无法消除过氧化产物的大量积累,造成细胞损伤,种胚存活率下降。因此银杏种胚脱水过程中,特别是脱水后期,抗氧化酶活性的迅速下降和脂质过氧化作用的加强与积累是造成存活率快速丧失、对脱水敏感的主要原因之一。 银杏属典型后熟种子,脱落后种胚需经历形态和生理发育过程,这一阶段脱水耐性在后熟7个月达到最大,ABA含量也不断积累,并在最耐脱水时期达到峰值,继续后熟脱水耐性减弱,ABA含量也迅速降低,可能与银杏种胚完成后熟转而进入萌发阶段有关。在种胚快速脱水过程中,ABA含量不断降低,与存活率显著正相关。银杏种胚在后熟过程中ABA的含量较低以及脱水过程中的不断降低,可能是造成种胚不耐脱水的另一部分原因。 通过外源ABA处理种胚后可明显提高其脱水耐性。ABA处理的种胚SOD活性升高,脱水后抗氧化酶活性(GR除外)被进一步激发,从而减少脂质过氧化伤害,降低细胞膜结构的破坏。这也更进一步证实了ABA和抗氧化系统在银杏种胚脱水过程中的重要作用。
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A novel multi-cell device made of organic glass was designed to study morphological and physiological characteristics of Microcystis population trapped in simulated sediment conditions. Changes of colonial morphology and antioxidant activities of the population were observed and measured over the range of 31-day incubation. During the incubation, the antioxidant enzyme activities fluctuated significantly in sediment environments. The activities of catalase (CAT), glutathione peroxidase (GPx) and malondialdehyde (NIDA) reached the highest on the 11(th) day, 6(th) day and 6(th) day. respectively, and then dropped down remarkably in the following days. The ratios of Fv/Fm and the maximal electron transfer rate (ETRm) declined during the initial days (1 similar to 11(th) day), but rebounded on the 16(th) day, which were consistent with the variations of total protein. In the end of incubation. gas vacuoles were hard]), observed and the gelatinous sheath was partly disappeared in the population of Microcystis. Nevertheless, the remaining populations. upon transferred to culture medium, were able to grow though experiencing a longer lag phase of nine days. The results indicated that the sediment environments were able to cause negative effects on M. aeruginosa cells. The cells, however, responded to against the possible damage afterwards. It is thus proposed the acute responses in the population during the early stage of sedimentation could be of importance in aiding the long-term survivor of Microcystis and recruitment in lake sediments. The present study also demonstrated the utility of the device in simulating the sediment environments for further investigation.
