Global ETD Search

51	Avaliação antropométrica, prostatica e polimorfismos de TP53 e GSTP1 em populações do estremo setentrional amazônico / Antropometric, prostatic characteristics and single nucleotide polymorphisms of TP53 and GSTP1 in populatins of northern Brazil Lima Junior, Mario Maciel de, 1974- 12 March 2012 (has links) Orientadores: Laura Sterian Ward, Ubirajara Ferreira / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-21T18:25:14Z (GMT). No. of bitstreams: 1 LimaJunior_MarioMacielde_D.pdf: 2397268 bytes, checksum: 63d55e4a5572d5d7f06e615be4d98384 (MD5) Previous issue date: 2012 / Resumo: As doenças da glândula prostática em geral e a incidência de câncer da próstata, em particular, mostram disparidades acentuadas entre os diferentes países e etnias. De fato, etnia, idade e história familiar são os mais fortes fatores de risco conhecidos para o câncer da próstata, mas a dieta, índice de massa corporal e outros fatores também podem influenciar o seu desenvolvimento. O objetivo deste estudo é descrever aspectos clínicos, antropométricos e genéticos da próstata de índios brasileiros da região amazônica. Foram analisados um total de 228 indígenas do sexo masculino ? 40 anos submetidos a exame físico, incluindo exame retal digital da próstata (TR), e a um questionário individualizado que incluía características demográficas e estilo de vida; história médica familiar e pessoal para câncer da próstata. Amostras de sangue foram obtidas para a determinação do antígeno prostático específico (PSA) e concentrações de testosterona sérica e genotipagem para TP53 e GSTP1. Os dados da população indígena foram comparados com os de um grupo controle de 87 não-indígenas masculinos da mesma região. Entre os 14 grupos étnicos identificados, Macuxi, é a etnia de índios aculturados mais frequente (43,6%), seguido pela Yanomami (14,5%), que é composta por índios mais isolados e primitivos. Os participantes tinham média de idade de 54,7 anos; circunferência abdominal de 86,6 cm e IMC de 23,9 kg/m2, com Yanomanis apresentando ambos IMC (21,4 contra 24,8; p=0,001) e peso da próstata mais baixos do que os Macuxis (15g contra 20g; p=0,001). Na população controle a idade média foi de 41 anos. Nenhum dos índios apresentaram sintomas relacionados à próstata e apenas um paciente teve diagnóstico de hiperplasia benigna da próstata, associada à manifestação de retenção urinária. Não foram identificadas diferenças nos valores de PSA (0,48 ng/mL contra 0,6 ng/mL; p=0,349) entre Yanomami e Macuxis. Observou-se correlação entre o IMC, peso da próstata, estilo de vida e hábitos alimentares, apesar das concentrações de testosterona (414 contra 502; p=0,207) serem semelhantes entre Macuxis e Yanomanis e, um aumento progressivo das concentrações de PSA ser observado com o envelhecimento em ambas etnias. A genotipagem de TP53 nos indígenas mostrou uma super representação do haplótipo selvagem Arg/Arg (74,5% versus 42,5%; p<0.0001) em relação à população controle. O perfil genotipico de GSTP1 também diferiu consideravelmente entre os não índios e os índios (Ile/Ile 60,9% versus 35,3%; Ile/Val 28,7% versus 45,9%; Val/Val 10,3% versus 18,8%; p = 0,0003, respectivamente). Não encontramos qualquer associação entre os hábitos alimentares ou características do estilo de vida, peso da próstata, PSA, concentrações de testosterona e o perfil genético da população investigada. No entanto, observamos especificidades alimentares, sociais e culturais nas populações estudadas, bem como um perfil genético específico para TP53 e GSTP1 que podem estar associados à boa saúde prostática da população indígena estudada / Abstract: Prostate diseases in general and prostate cancer incidence, in particular, show marked disparities among different countries and ethnicities. Age, ethnicity and family history are the strongest known risk factors for prostate cancer, but diet, body mass index and other factors may also influence its development. We aimed to describe clinical, anthropometric, genetic and prostatic features of Brazilian Indians from the Amazon area. A total of 228 male Indians ?40 years old were submitted to a physical examination, including digital rectal examination (DRE), and to an in-person questionnaire on demographic characteristics and life style; personal and familial medical history. Blood samples were obtained for the determination of total prostatic specific antigen (PSA) and serum testosterone levels. In addition, we obtained a control group of non-Indian males from the same region. Among the 14 ethnic groups identified, Macuxi group, composed by more acultured indians, was the most frequent (43.6%), followed by Yanomami (14.5%) group, that is composed by more isolated and primitive indians. Participants had a mean age of 54.7 years; waist circumference of 86.6 cm and BMI of 23.9 kg/m2, with Yanomamis presenting both lower BMI (21,4 versus 24,8; p=0,001) and lower prostate volume than Macuxis (15 versus 20; p=0,001). None of the indians presented prostate symptoms and only one patient had a benign prostate hyperplasia that caused urine retention. Serum PSA (0,48 versus 0,6 p=0,349). We observed a relationship among BMI, prostate volume, life style and dietary patterns, although testosterone (414 versus 502; p=0,207) levels were similar in Macuxi and Yanomami indians and a progressive increase of PSA levels was observed with aging in both groups. TP53 genotyping evidenced a different profile in indians, with a super representation of the Arg/Arg haplotype (74,5% versus 42,5%; p<0,0001) compared to the control population. Likewise, GSTP1 genotyping demonstrated very differently among control population compared to indians Ile/Ile 60,9% versus 35,3%; Ile/Val 28,7% versus 45,9%; Val/Val 10,3% versus 18,8%; p = 0,0003); respectively. We were not able to find any association among dietary patterns or any life style characteristic; prostate volume, serum PSA and testosterone levels; and the genetic profile of the investigated population. We observed specific dietary, social and cultural features, as well as a specific genetic profile for TP53 and GSTP1 that may contribute to Brazilian Indian population prostate good health / Doutorado / Clinica Medica / Doutor em Clínica Médica Genes P53 Glutationa S-Transferase pi Polimorfismo (Genética) Neoplasias da próstata Suscetibilidade a doenças Gene P53 Glutathione S-Transferase pi Polymorphism, Genetic Prostatic neoplasms Disease susceptibility
52	Biotransformační aspekty nových karbocyklických analogů nukleosidů. / Biotransformation aspects on novel carbocyclic nucleoside analogs. Rozumová, Nela January 2012 (has links) Carbocyclic nucleoside analogs with norbornane moiety that have been synthesized at IOCB AS CR, represent new potential chemotherapeutic agents with significant activity against Coxsackieviruses. The main objective of this work was to study the metabolism and mechanism of action of the original analog carbocyclic nucleoside MS 254, which is characterized by its antiviral and cytostatic effects. The attention was partially paid also to the two structurally related substances (MS 255, MS 320). In this work, we determined cytotoxicity of these compounds in cell culture and the effect of MS 254 on the amount of total and oxidized glutathione, activity of glutathione-S-transferase (GST), glutathione reductase (GR) and the effect on cellular oxidative stress. The kinetics of the conjugation of MS 254 by human GST was also studied. It was found that of the three substances tested MS 255 was the most cytotoxic and MS 254 was the least cytotoxic compound. It was further found that MS 254 does not cause significant oxidative stress and that it increases the activity of GST and GR in a dose-dependent manner. Michaelis-Menten constant of the conjugation of MS 254 with the glutathione (main metabolic pathway) was determined in the milimolar range, indicating a relatively low affinity of MS 254 for GST.
53	Factors influencing arbovirus transmission: vector competence and the effects of virus infection on repellent response, oxidative stress, and glutathione-S-transferase activity Chan, Kevin Ki Fai 31 January 2020 (has links) Zika (ZIKV), La Crosse (LACV), and Cache Valley (CVV) viruses are mosquito-vectored diseases that cause significant morbidity and mortality in humans and animals. Transmission of these viruses are dependent on numerous factors including vector competence and the effects of mosquito-virus interactions. We conducted vector competence studies of local Aedes and Culex mosquitoes for ZIKV and CVV, and found that all Aedes mosquitoes were competent for CVV and only Aedes albopictus and Aedes japonicus were competent for ZIKV. Vector competence for CVV was dose-dependent, where mosquitoes orally infected with high titers developed higher transmission rates. We also found that vector competence for ZIKV was limited by midgut and salivary gland barriers. Second, we looked at the effects of LACV and ZIKV infection on repellent response in Aedes mosquitoes and found that infected mosquitoes were refractory to low concentrations of DEET, picaridin, and PMD. Increasing concentrations of the repellents to ≥10% was able to increase percent protection (%p) against infected and uninfected mosquitoes. Lastly, we determined the effects of ZIKV and LACV infection on oxidative stress and glutathione-S-transferase (GST) activity in Aedes albopictus. Virus infection had no effect on oxidative stress, but GST activity was significantly different for mosquitoes 3-days post-exposure. We found that oxidative stress levels and GST activity had an inverse relationship for infected and uninfected mosquitoes, where oxidative stress decreased and GST activity increased over the 10-day test period. This indicates that GSTs may aid in controlling byproducts of oxidative stress. The results from this entire study identified competent vectors for emerging arboviruses and demonstrated the behavioral and physiological effects of virus infection in the mosquito vector. / Doctor of Philosophy / Zika (ZIKV), La Crosse (LACV), and Cache Valley (CVV) viruses are transmitted by mosquitoes and can make humans and animals very sick. There are many biological factors that determine if a mosquito can transmit a virus and these viruses can change the biology of a mosquito. We conducted laboratory studies to see if Aedes and Culex mosquitoes can transmit ZIKV and CVV. We found that all Aedes mosquitoes were able to transmit CVV and only the Asian tiger mosquito and Asian rock pool mosquito were able to transmit ZIKV. Mosquitoes infected with high amounts of CVV developed higher transmission rates. We also found that transmission of ZIKV was limited by barriers in the mosquito midgut and salivary glands. Second, we looked at the effects of LACV and ZIKV infection on how Aedes mosquitoes respond to repellents and found that infected mosquitoes were less sensitive to low concentrations of DEET, picaridin, and PMD. Increasing concentrations of the repellents to 10% or higher was able to provide adequate protection against infected and uninfected mosquitoes. Lastly, we determined the effects of ZIKV and LACV infection on oxidative stress and glutathione-S-transferase (GST) activity in the Asian tiger mosquito. Virus infection did not change oxidative stress, but GST activity was higher in infected mosquitoes tested after 3 days after infection. We found that oxidative stress decreased and GST activity increased over the 10-day test period. This indicates that GSTs may help control damaging products from oxidative stress. The results from this entire study identified what mosquitoes were able to transmit emerging mosquito-borne viruses and demonstrated the biological effects of virus infection in the mosquitoes. Zika virus Cache Valley virus La Crosse virus vector competence repellent DEET picaridin p-methane-3 8-diol glutathione-S-transferase Aedes albopictus Aedes japonicus Aedes triseriatus
54	Molekularbiologische Untersuchungen zum Einfluß genetischer Wirtsfaktoren auf das Erkrankungsrisiko und den Krankheitsverlauf von Patienten mit Plattenephithelkarzinomen im Kopf-Hals-Bereich Matthias, Christoph 11 January 2000 (has links) Neben Zigarettenrauchen und chronischem Alkoholkonsum scheinen genetische Faktoren bei der Entstehung und im Verlauf der Kopf-Hals-Karzinom Erkrankung bedeutsam zu sein. Genvariationen in den Enzymen, die zigarettenrauch-assoziierte Karzinogene (Glutathion-S-Transferase, GST, Cytochrom P450, CYP) metabolisieren, sowie Genvariationen in immunregulierenden Zytokinen (Tumor-Nekrose-Faktor) könnten Grund dieser Beeinflussung sein. Ziel dieser Studie war es, genetische Wirtsfaktoren zu identifizieren, die das Erkrankungsrisiko und das Tumorverhalten bzw. den Krankheitsverlauf von Plattenepithelkarzinomen im oberen Aerodigestivtrakt beeinflussen. Wir beschreiben den Zusammenhang zwischen Genotypen an GSTM1, M3, T1, P1, CYP2D6, 1A1, 2E1 und TNF Mikrosatelliten-Genorten und der Krankheitsentstehung sowie Tumorcharakteristika wie der initialen Tumorgröße, der Halslymphknotenmetastasierung, dem histologischen Differenzierungsgrad des Tumorgewebes und dem rezidivfreien Überleben bei 465 Patienten. Die Genotypen wurden aus der Leukozyten-DNA mittels PCR in Kombination mit Restriktionsenzymverdauungen und Elektrophoresetechniken identifiziert. Sowohl bei den Genvariationen in den entgiftenden Enzymen als auch bei den TNF Mikrosatelliten-Polymorphismen konnten Risikogenotypen festgestellt werden. Die Beeinflussung des Krankheitsverlaufs war teilweise deutlicher ausgeprägt, als die Beeinflussung der Krankheitsentstehung. Patienten mit Mehrfachkarzinomen wiesen die stärkste Anhäufung von Risikogenotypen auf. In dieser Studie konnte erstmals gezeigt werden, daß individuelle Genotypkonstellationen die Entstehung und das Verhalten von Plattenepithelkarzinomen im oberen Aerodigestivtrakt beeinflussen. / Cigarette smoking and alcohol consumption are the main risk factors for the development of head and neck cancer. Additionally, genetic factors seem to be influential. Gene variations in detoxifying enzymes such as glutathione S-transferase (GST) and cytochrome P450 (CYP) and variations in immune regulating proteins like tumor necrosis factor (TNF) are candidate genes. Accordingly, we have examined, in 465 patients with squamous cell carcinoma (SCC) of the head and neck, associations between GSTM1, GSTT1, GSTM3, GSTP1, CYP2D6, CYP1A1, CYP2E1 genotypes and TNF microsatellite polymorphisms and cancer susceptibility, outcome parameters like tumor extension, histological grade, and presence of lymph nodes, and tumor recurrence. Genotypes were determined by PCR; logistic regression and a step-wise model were used to investigate the influence of the individual genes. Individual genotypes in the detoxifying enzymes and TNF were associated with altered cancer risk. The influence on tumor behavior was partially stronger. Patients suffering multiple head and neck cancer showed the highest cumulation of risk mediating genotypes. The data demonstrate site-dependent associations between GST, CYP and TNF genotypes and tumor susceptibility, tumor extension, differentiation, and lymph node involvement, and tumor recurrence in SCC of the head and neck. Kopf-Hals-Karzinome Gluthation S-Transferase Cytochrom P 450 Genetische Wirtsfaktoren glutathione-S-transferase cytochrome P 450 head and neck cancer genetic host factors 610 Medizin 33 Medizin XH 6700 ddc:610
55	Nouveau regard sur la signalisation AMPK : multiples fonctions de nouveaux interacteurs Zorman, Sarah 08 November 2013 (has links) (PDF) La protéine kinase activée par AMP (AMPK) est un senseur et régulateur central de l'état énergétique cellulaire, mais ces voies de signalisation ne sont pour le moment que partiellement comprises. Deux criblages non-biaisés pour la recherche de partenaires d'interaction et de substrats d'AMPK ont précédemment été réalisés dans le laboratoire. Ces derniers ont permis l'identification de plusieurs candidats (protéines), mais leur rôle fonctionnel et physiologique n'était pas encore établi. Ici nous avons caractérisé la fonction de la relation entre AMPK et quatre partenaires d'interaction : gluthation S-transferases (GSTP1 and GSTM1), fumarate hydratase (FH), l'E3 ubiquitine-ligase (NRDP1), et les protéines associées à la membrane (VAMP2 and VAMP3). Chacune de ces interactions parait avoir un rôle différent dans la signalisation AMPK, agissant en amont ou en aval de la protéine AMPK. GSTP1 et GSTM1 contribueraient à l'activation d'AMPK en facilitant la S-glutathionylation d'AMPK en conditions oxydatives moyennes. Cette régulation non-canonique suggère que l'AMPK peut être un senseur de l'état redox cellulaire. FH mitochondrial est l'unique substrat AMPK clairement identifié. Etonnamment le site de phosphorylation se trouve dans le peptide signal mitochondrial, ce qui pourrait affecter l'import mitochondrial. NRDP1, protéine pour laquelle nous avons pour la première fois développé un protocole de production de la protéine soluble, est faiblement phosphorylée par l'AMPK. L'interaction ne sert pas à l'ubiquitination d'AMPK, mais affecte le renouvellement de NRDP1. Finalement, l'interaction de VAMP2/3 avec AMPK n'implique pas d'évènement de phosphorylation ou d'activation d'un des partenaires. Nous proposons un mécanisme de recrutement d'AMPK par VAMP2/3 (" scaffold ") au niveau des vésicules en exocytose. Ce recrutement favoriserait la phosphorylation de substrats de l'AMPK à la surface des vésicules en exocytoses. Une fois mis en commun, nos résultats enrichissent les connaissances sur les voies de signalisation AMPK, et suggèrent une grande complexité de ces dernières. Plus que les kinases en amont et des substrats en aval, la régulation de la signalisation d'AMPK se fait via des modifications secondaires autres que la phosphorylation, via des effets sur le renouvellement de protéines, et probablement via un recrutement spécifique de l'AMPK dans certains compartiments cellulaires. AMPK AMP-activated protein kinase metabolism protein interaction: interaction partner NDRP1 E3 ubiquitin ligase VAMP vesicle associate membran protein FH fumarate hydratase fumarase GST glutathione S transferase phosphorylation ubiquitination glutathionylation signalisation pathway
56	Nouveau regard sur la signalisation AMPK : multiples fonctions de nouveaux interacteurs / A fresh look at AMPK signaling : multiple functions of novel interacting proteins Zorman, Sarah 08 November 2013 (has links) La protéine kinase activée par AMP (AMPK) est un senseur et régulateur central de l'état énergétique cellulaire, mais ces voies de signalisation ne sont pour le moment que partiellement comprises. Deux criblages non-biaisés pour la recherche de partenaires d'interaction et de substrats d'AMPK ont précédemment été réalisés dans le laboratoire. Ces derniers ont permis l'identification de plusieurs candidats (protéines), mais leur rôle fonctionnel et physiologique n'était pas encore établi. Ici nous avons caractérisé la fonction de la relation entre AMPK et quatre partenaires d'interaction : gluthation S-transferases (GSTP1 and GSTM1), fumarate hydratase (FH), l'E3 ubiquitine-ligase (NRDP1), et les protéines associées à la membrane (VAMP2 and VAMP3). Chacune de ces interactions parait avoir un rôle différent dans la signalisation AMPK, agissant en amont ou en aval de la protéine AMPK. GSTP1 et GSTM1 contribueraient à l'activation d'AMPK en facilitant la S-glutathionylation d'AMPK en conditions oxydatives moyennes. Cette régulation non-canonique suggère que l'AMPK peut être un senseur de l'état redox cellulaire. FH mitochondrial est l'unique substrat AMPK clairement identifié. Etonnamment le site de phosphorylation se trouve dans le peptide signal mitochondrial, ce qui pourrait affecter l'import mitochondrial. NRDP1, protéine pour laquelle nous avons pour la première fois développé un protocole de production de la protéine soluble, est faiblement phosphorylée par l'AMPK. L'interaction ne sert pas à l'ubiquitination d'AMPK, mais affecte le renouvellement de NRDP1. Finalement, l'interaction de VAMP2/3 avec AMPK n'implique pas d'évènement de phosphorylation ou d'activation d'un des partenaires. Nous proposons un mécanisme de recrutement d'AMPK par VAMP2/3 (" scaffold ") au niveau des vésicules en exocytose. Ce recrutement favoriserait la phosphorylation de substrats de l'AMPK à la surface des vésicules en exocytoses. Une fois mis en commun, nos résultats enrichissent les connaissances sur les voies de signalisation AMPK, et suggèrent une grande complexité de ces dernières. Plus que les kinases en amont et des substrats en aval, la régulation de la signalisation d'AMPK se fait via des modifications secondaires autres que la phosphorylation, via des effets sur le renouvellement de protéines, et probablement via un recrutement spécifique de l'AMPK dans certains compartiments cellulaires. / AMP-activated protein kinase (AMPK) is a central energy sensor and regulator of cellular energy state, but the AMPK signaling network is still incompletely understood. Two earlier non-biased screens for AMPK interaction partners and substrates performed in the laboratory identified several candidate proteins, but functional and physiological roles remained unclear. Here we characterized the functional relationship of AMPK with four different protein interaction partners: gluthatione S-transferases (GSTP1 and GSTM1), fumarate hydratase (FH), an E3 ubiquitin-ligase (NRDP1), and vesicle-associated membrane proteins (VAMP2 and VAMP3). Each of these interaction partners seems to have a different function in AMPK signaling, either acting up- or down-stream of AMPK. GSTP1 and GSTM1 can contribute to AMPK activation by facilitating S-glutathionylation of AMPK under mildly oxidative conditions. This non-canonical regulation suggests AMPK as a sensor of cellular redox state. Mitochondrial FH was identified as the only clear AMPK downstream substrate, but surprisingly the phosphorylation site is present in the mitochondrial targeting prepeptide, possibly affecting mitochondrial import. NRDP1, whose expression as a full-length soluble protein was achieved here for the first time, is phosphorylated by AMPK only at low levels. The interaction does neither serve for AMPK ubiquitinylation, but rather affects NRDP1 turnover. Finally, interaction of VAMP2/3 with AMPK does not involve phosphorylation or activation events of one of the partners. Instead, we propose VAMP2/3 as scaffolding proteins that recruit AMPK to exocytotic vesicles which could favor phosphorylation of vesicular AMPK substrates for exocytosis. Collectively, our results add some new elements to the AMPK signaling network, suggesting that it is much more complex than anticipated. In addition to upstream kinases and downstream substrates, regulation of AMPK signaling occurs by second Protéine activé par AMP AMPK Fumarate hydratase Glutathion S transferase Vesicle associate membran protein E3 ubiquitin ligase NRDP1 AMP activated protein kinase Fumarate hydratase Glutathione S transferase E3 ubiquitin ligase NRDP1 AMPK Vesicle associate membran protein 570
57	Effects of pollution and metazoan parasites on the health and oxidative stress biomarkers of two cyprinid fish species in the Olifants River System, South Afrrica Ramalepe, Tshepiso Promise January 2015 (has links) Thesis (M. Sc. (Zoology)) -- University of Limpopo, 2015 / The unprecedented expansion in human population and industry, since the industrial revolution in the late 1700s, has led to increased anthropogenic activities which have indisputably impacted freshwater ecosystems and biological communities therein, including fish. Although this has understandably been the focus, under natural aquatic conditions, no organism is only affected by pollution. Parasites have also been shown in a number of interdisciplinary studies to affect the health of aquatic hosts (amphibians, crustaceans, fish, and mammals). This is illustrated in a number of comprehensive studies the detrimental effects parasites exacerbate when their hosts (fish) are stressed. Therefore, the ability of parasites to interact with anthropogenic stressors, as well as effects they have on the genetic, cellular or tissue level of their host is crucial in conservation and sustaining aquatic biodiversity. As such, the present study examined the combined effects of pollution and metazoan parasites on the health and oxidative stress biomarkers, evaluated for the first time for silver carp, Hypophthalmichthys molitrix (Valenciennes, 1844) and rednose mudfish, Labeo rosae Steindachner, 1894, in one of South Africa’s impacted freshwater ecosystems, Flag Boshielo Dam, Olifants River System, Limpopo Province. Seasonal surveys were conducted from February 2012–January 2013. A total of 111 H. molitrix and 116 L. rosae fish specimens were collected using conventional angling gear, scoop and gill nets with stretched mesh sizes of 30–110 mm. The two selected cyprinid fish species were assessed for oxidative stress biomarkers [Glutathione S-transferase (GST), lipid peroxidation (MDA) and Total Antioxidant Capacity (TAC)] and parasitism of metazoan parasites. Concentrations of biomarkers of oxidative damage and antioxidant defense in the gill and liver tissue were measured to assess how these major organs of the immune system responded to oxidative stress associated with parasitic infections. In addition, water quality analyses were carried out by testing an assay of physico-chemical parameters to establish the level of contamination. Fish health was assessed using the Health Assessment Index (HAI), refined Parasite Index (PI), Inverted Parasite Index (IPI) and Condition Factor (K) protocols. Relative to previous studies at Flag Boshielo Dam, water quality results showed an increase of nutrients, major ions and several metals which may have adverse effects that may comprise fish health; however, this dam remains moderately polluted in a mesotrophic state. The fish health assessment results indicated that H. molitrix was more affected in terms of the necropsy and parasite based assessments (HAI, IPI and K) with mean±SD of 65.68±35.51; 68.29±25; 0.82±0.20, respectively, as compared to 39.14±22.44; 28.79±18.33; 1.17±0.21 for L. rosae during the study. In addition, significantly higher parasitic infections (mean prevalence of infection with any species of parasite = 45.3±0.13) were observed for H. molitrix than L. rosae (12.0±0.05). Furthermore, there was considerable variation in biomarker concentration between highly infected and non-infected fish, for and between each species and tissues with regard to parasite infection, suggesting that the specific functions of each tissue are associated with their susceptibility to oxidative stress, as well as their ability to defend against oxidative damage. These results illustrate that although fish are affected by aquatic contaminants they are to an extent affected by parasites, which may act synergistically on the health of the two fish species. Most importantly, it was suggested that knowledge on the parasites of alien H. molitrix when compared to indigenous L. rosae may give an indication of how adaptive this fish are to new localities as well as expands the information on the rarely studied biology, epizootiology and ecological interactions of these two cyprinid species. Keywords: Health Assessment Index, refined Parasite Index, Inverted Parasite Index, Condition Factor, water quality, lipid peroxidation, Glutathione S-transferase, Total Antioxidant Capacity, Hypophthalmichthys molitrix, Labeo rosae, Flag Boshielo Dam. Health assessment index Refined paradise index Inverted paradise index Condition factor Water quality Lipid peroxidation Glutathione S-transferase Total antioxidant capacity Hypophthalmichthys molitrix Labeo rosae Flag Boshielo Dam 577.6 Freshewater ecology Ecology
58	O2 Activation and Allosteric Zn(Ii) Binding on Hif-Prolyl Hydroxylase-2 (Phd2) Pektas, Serap 01 September 2013 (has links) Oxygen homeostasis is essential to the life of aerobes, which is regulated in humans by Hypoxia Inducible Factor-1α (HIF-1α). Under hypoxic conditions, HIF-1α transactivates over a hundred genes related angiogenesis, erythropoiesis, etc. HIF-1α level and function is regulated by four HIF hydroxylase enzymes: three isoforms of prolyl hydroxylase domain (PHD1, PHD2 and PHD3) and factor inhibiting HIF-1α (FIH). PHD2 is the focus of this research. PHD2 is a non-heme Fe(II) 2-oxoglutarate dependent dioxygenase, which controls HIF-1α levels by hydroxylating two proline residues within the ODD domain of HIF-1α, then the hydroxylated prolines are recognized by pVHL, which targets HIF-1α for proteasomal degradation. Under hypoxic conditions PHD2 cannot hydroxylate HIF-1α and its level rises in cells. The aims of this research include understanding how PHD2 chooses its substrate, how the O2 activation occurs, and how certain transition metals inhibit PHD2. Our results revealed that electrostatics play a role in substrate selectivity of PHD2 by provoking a change in the opening and closing rate of β2β3 loop for NODD and CODD substrates. Mutational studies of second coordination sphere residues combined with kinetic studies indicated that decarboxylation of 2OG is the slow step in the chemical mechanism. The removal of a hydrogen-bond by the Thr387aAla mutation revealed a rate 15 times faster than WT-PHD2 by making O2 a better nucleophile. Our results indicate that this hydrogen bonding is essential for proper O2 activation. Previous reports show that certain metals increase HIF-1α levels by inhibiting PHD2. However there are conflicts about how this inhibition occurs, either through metal replacement from the active site or metals binding to a different site causing inhibition. Our competitive and non-competitive kinetic assays showed different inhibition profiles. Under competitive conditions Zn2+, Co2+, Mn2+, and Cu2+ can bind to the enzyme active site and lead to inhibition but under non-competitive conditions Zn2+, Co2+, and Mn2+ partially inhibit PHD2 suggesting that these metals cannot displace the Fe2+ from the active site. XAS experiments with Zn2+ and Fe3+ indicate that Zn2+ binds to the surface of PHD2 in a six-coordinate manner composed of two Cys201, 208, His205, Tyr197 and two water ligands. 2OG 2-oxoglutarate CODD C-terminal transactivation domain GST glutathione S-transferase HEPES NODD N-terminal transactivation domain pVHL von-Hippel Lindau protein Chemistry
59	Development of a Fluorescence-Based Screen for Glutathione-S-Transferase Inhibitors Gorzitze-Maxey, Adrian Dale 09 December 2015 (has links) No description available. Biochemistry Chemistry Organic Chemistry GST glutathione-s-transferase florescence-based screen fluorescent tag glutathione chemotherapy fluorescent glutathione biochemistry chemistry organic chemistry prep-scale tlc unique molecule GST inhibitors screen GST inhibitors
60	Nuclear Factor (Erythroid 2-like) Factor 2 (Nrf2) as Cellular Protector in Bile Acid and Retinoid Toxicities Tan, Kah Poh 26 February 2009 (has links) Exposure to toxic bile acids (BA) and retinoic acids (RA) is implicated in toxicities related to excessive oxidative stress. This thesis examined roles and mechanisms of the oxidative stress-responsive nuclear factor (erythroid 2-like) factor 2 (Nrf2) in adaptive cell defense against BA and RA toxicities. Using liver cells and mouse models, many antioxidant proteins known to be Nrf2 target genes, particularly the rate-limiting enzyme for glutathione (GSH) biosynthesis, i.e., glutamate-cysteine ligase subunits (GCLM/GCLC), were induced by BA [lithocholic acid (LCA)] or RA (all-trans, 9-cis and 13-cis) treatment. Evidence for increased Nrf2 transactivation by LCA and all-trans-RA was exemplified in HepG2 by: (1) reduced constitutive and inducible expression of GCLM/GCLC upon Nrf2 silencing via small-interfering RNA; (2) increased inducible expression of GCLM/GCLC genes by Nrf2 overexpression, but overexpression of dominant-negative Nrf2 decreased it; (3) increased nuclear accumulation of Nrf2 as signature event of receptor activation; (4) enhanced Nrf2-dependent antioxidant-response-element (ARE) reporter activity as indicative of increased Nrf2 transactivation; and (5) increased Nrf2 occupancy to AREs of GCLM and GCLC. Additionally, in BA-treated HepG2 cells, we observed concomitant increases of many ATP-binding cassette (ABC) transporters (MRPs 1-5, MDR1 and BCRP) in parallel with increased cellular efflux. Nrf2 silencing in HepG2 cells decreased constitutive and inducible expression of MRP2, MRP3 and ABCG2. However, Nrf2-silenced mouse hepatoma cells, Hepa1c1c7, and Nrf2-/- mice had decreased constitutive and/or inducible expression of Mrps 1-4, suggesting species differences in Nrf2-dependent regulation of hepatic ABC transporters. Protection by Nrf2 against BA and RA toxicities was confirmed by observations that Nrf2 silencing increased cell susceptibility to BA- and RA-induced cell death. Moreover, Nrf2-/- mice suffered more severe liver injury than the wildtype. Increased GSH and efflux activity following increased GCLM/GCLC and ABC transporters, respectively, can mitigate LCA toxicity. Activation of MEK1-ERK1/2 MAPK was shown to primarily mediate Nrf2 transactivation and LCA-induced expression of antioxidant proteins and Nrf2-dependent and -independent ABC transporters. In conclusion, Nrf2 activation by BA and RA led to coordinated induction of antioxidant and ABC proteins, thereby counteracting resultant oxidative cytotoxicity. The potential of targeting Nrf2 in management of BA and RA toxicities merits further investigation. oxidative stress glutathione bile acid Nrf2 retinoic acid cholestasis ATP-binding cassette transporters mitogen activated protein kinase multidrug resistance associated proteins adaptive response antioxidants thioredoxin reductase 4-hydroxynonenal lipid peroxidation glutathione S-transferase liver toxicity antioxidant response element cell defense 0383

Search results