Elicitores abióticos no estresse oxidativo e na expressão de gene da rota de betacianina em Alternanthera philoxeroides (Mart.) Griseb. / Abiotic elicitors in oxidative stress and in gene expression of the betacyanin route in Alternanthera philoxeroides (Mart.) Griseb

Ribeiro, Márcia Vaz

31 October 2011

Made available in DSpace on 2014-08-20T13:59:15Z (GMT). No. of bitstreams: 1 tese_marcia_vaz_ribeiro.pdf: 713659 bytes, checksum: 2dc33e63ce136dffc6ae1dfd420cfab3 (MD5) Previous issue date: 2011-10-31 / The medicinal Alternanthera (Amaranthaceae) species, such as A. philoxeroides, present a great variety of bioactive compounds, among which are the betacyanins, nitrogen pigments that belong to the betalains class. These compounds are widely used as additives for food and drugs, due to their antioxidant action and lack of toxicity, which have already been proven. Techniques have been developed in order to improve productivity and performance of this pigment, one of those is the use of in vitro elicitors or in vivo stressing agents. Both have an important role in the transduction process of signals that regulate the defense genes in plants, acting as stimulators of production or degradation of several primary and secondary metabolites. This work aimed to assess, in A. philoxeroides plants, the growth and production characteristics of betacyanin in in vitro plants; the levels of photosynthetic pigments, betacyanins, lipid peroxidation and antioxidant enzymes activity in in vivo plants under salt stress, and also to quantify the level of betacyanin and the 5GT-DBs gene expression in the biosynthetic route of this compound in in vitro plants submitted to elicitation by NaCl and by tyrosine. For this, three trials were conducted. In the first one, A. philoxeroides explants were inoculated in MS medium with increasing NaCl concentrations (0, 50, 100, 150, 200 and 250 mM) for 35 days. In the second one, plants from in vitro cultures were acclimatized in greenhouses and irrigated with a sodium chloride solution (0, 200 and 400 mM) for 30 days. The third trial had two essays, one composed of in vitro A. philoxeroides plants in a liquid MS medium in vermiculite substrate for 35 days. After this period, a NaCl solution (400 mM) was added to the medium and the shoots were collected after 0, 12, 24, 36 and 48 hours of exposure. In the second one, nodal segments were inoculated in MS medium with and without tyrosine (0 e 75 µM), and its aerial parts were collected after 35 days. In the growth analysis, reduction of the averages was observed for the following variables: height, number of shoots, number of sprouts and root number and length; for the plants that have grown in the sodium chloride medium. The highest concentrations of betacyanins were found in the stalks of plants from MS medium, with 50 mM of NaCl. After 30 days of in vivo cultivation, the levels of chlorophyll a, chlorophyll b and carotenoids decreased as the salt concentration increased, while the reason of chlorophyll a/b in plants submitted to a higher salt concentration presented a difference in comparison to the control. Higher levels of betacyanin were observed on stalks, when compared to the leaves, in the highest salt concentrations. On the leaves, there was a significant increase of lipid peroxidation and superoxide dismutase activity. On the roots, there was an increase of enzymes catalase and ascorbate peroxidase. Regarding the analysis of differential expression (qRT-PCR), it was possible to observe that from 12 to 24 hours of salt stress, the 5-GT gene expression firstly increased, then there was a decrease in 36 hours and a new increase in 48 hours. The 5-GT gene also showed increased expression as a response to tyrosine. It was possible to conclude that A. philoxeroides elicited in vitro with sodium chloride present a decrease of the assessed morphological parameters, but in low concentrations betacyanin synthesis is stimulated. Salt stress causes greater degradation in the photosynthetic pigments, increment of betacyanin synthesis in stalks and damage to the cell membranes of the leaves. The increase of antioxidant enzymes activity stimulated the protective system against oxidative stress on in vivo A. philoxeroides plants. It is suggested that in this species, the enzyme bethanidine 5-Oglucosyltransferase reaches its highest expression in 48 hours of exposure to salt elicitation and also when grown in a medium containing tyrosine. / As espécies medicinais do gênero Alternanthera (Amaranthaceae) como A. philoxeroides apresentam uma variedade de compostos bioativos, entre eles as betacianinas, que são pigmentos nitrogenados pertencentes à classe das betalaínas. Esses compostos são amplamente utilizados como aditivos de produtos alimentícios e medicamentos devido à sua comprovada ação antioxidante e ausência de toxicidade. Técnicas têm sido desenvolvidas para aprimorar a produtividade e o rendimento deste pigmento, sendo uma delas o uso de elicitores in vitro ou agentes estressantes in vivo. Ambos apresentam um importante papel no processo de transdução de sinais que regulam os genes de defesa nas plantas, agindo como estimuladores para a produção e ou degradação de diversos metabólitos, tanto primários quanto secundários. Assim, o objetivo do presente trabalho foi avaliar em plantas de A. philoxeroides, as características de crescimento e produção de betacianina em plantas cultivadas in vitro; os teores dos pigmentos fotossintéticos, betacianinas, peroxidação lipídica e atividade de enzimas antioxidantes em plantas cultivadas in vivo, sob estresse salino, além de, quantificar o teor de betacianina e a expressão do gene 5GT-DBs envolvido na rota biossintética, deste composto, em plantas in vitro submetidas à elicitação por NaCl e pelo aminoácido tirosina. Para isso, foram conduzidos três experimentos. No primeiro, explantes de A. philoxeroides foram inoculados em meio MS, com concentrações crescentes de NaCl (0, 50, 100, 150, 200 e 250 mM), durante 35 dias. No segundo, plantas provenientes da cultura in vitro foram aclimatizadas em casa de vegetação e irrigadas com solução de cloreto de sódio (0, 200 e 400 mM), por 30 dias. O terceiro experimento contou com dois ensaios, sendo o primeiro composto de plantas de A. philoxeroides cultivadas in vitro, em meio MS líquido, no substrato vermiculita, durante 35 dias. Após esse período, foi adicionada ao meio, solução de NaCl (400 mM) e coletada a parte aérea das plantas após 0, 12, 24, 36 e 48 horas de exposição ao sal, Já o segundo, segmentos nodais foram inoculados em meio MS, na presença e ausência de tirosina (0 e 75 µM), tendo sua parte aérea coletada após 35 dias de cultivo. Nas análises de crescimento observou-se redução das médias para as variáveis altura, número de gemas, número de brotos e no número e comprimento de raiz, nas plantas crescidas nos meios contendo cloreto de sódio. As maiores concentrações de betacianinas foram encontradas nos caules de plantas cultivadas em meio MS com 50 mM de NaCl. Após 30 dias de cultivo in vivo os teores de clorofilas a, clorofila b, e carotenóides decresceram à medida que aumentou a concentração de sal, enquanto a razão clorofila a/b das plantas submetidas à maior concentração de sal apresentou

Erva-de-jacaré

Enzimas antioxidantes

Cloreto de sódio

Tirosina

Expressão diferencial

Betanidina 5-O- glucosiltransferase

Alligator weed

Antioxidant enzymes

Sodium chloride

Tyrosine

Differential expression

Bethanidine 5-O-glucosyltransferase

Oxidative stress in breast and gynaecological carcinogenesis

Sova, H. (Henri)

25 March 2014

Abstract Cancer is the leading cause of death worldwide. Despite the significant research effort, underlying mechanisms of carcinogenic processes are still poorly understood. In recent decades, a group of extremely reactive oxygen metabolites, reactive oxygen species (ROS), have been linked closely to carcinogenesis. Levels of ROS are constantly controlled by antioxidants to ensure stable redox balance in our cells. An aberrant cellular redox balance is thought to be connected to carcinogenesis by inflicting damage to cellular macromolecules and disturbing normal cellular signalling. In this work, the role of ROS in carcinogenesis was studied by observing the ROS-derived DNA damage marker 8-hydroxydeoxyguanosine (8-OHdG) in breast cancer and endometriosis-associated ovarian cancer. This marker was also measured in connection with endometriosis and PCOS to study the early stages of the carcinogenic process. In addition, peroxiredoxin antioxidant enzymes were studied in endometriosis-associated ovarian cancer to explore their impact on the carcinogenic process and relationship with ROS-derived DNA damage. There seems to be a decreasing trend in the expression of 8-OHdG in the development of breast cancer and endometriosis-associated ovarian cancer. In breast cancer, low levels of 8-OHdG in serum and in tumour tissue were found to be associated with more aggressive disease. In endometriosis-associated ovarian cancer, 8-OHdG and Prx II expressions in tissue decreased with malignant transformation from benign endometriosis tissue to ovarian cancer. Patients with PCOS were found to have lower levels of 8-OHdG in serum compared with healthy controls and metformin treatment further decreased 8-OHdG levels in obese patients. These results, together with observations is previous studies indicate that in breast cancer and endometriosis-associated ovarian cancer, a high level of ROS-derived DNA damage could be significant factor in the initiation stage of carcinogenesis, whereas in later stages carcinomas benefit from lower ROS levels that support tumour growth and survival via cellular signalling. In endometriosis, there seem to be high amounts of ROS-derived DNA damage, which could explain the increased ovarian cancer risk, while in PCOS, aberrant ROS levels could contribute to the pathogenesis of the disease itself and also to possible cancer incidence by inducing abnormal cellular signalling. / Tiivistelmä Syöpä on nykyisin maailman yleisin kuolinsyy. Vaikka syöpätutkimukseen kohdistetaan maailmanlaajuisesti huomattavia resursseja, syövän kehittymisen perimmäinen syy on edelleen heikosti tunnettu. Yhä kasvavan todistusaineiston perusteella happiradikaalien epäillään liittyvän läheisesti syövän kehittymiseen. Nämä erittäin reaktiiviset hapen aineenvaihduntatuotteet ovat välttämättömiä solujemme normaalille toiminnalle, mutta liian suurina määrinä ne voivat vaurioittaa solun rakenteita ja häiritä solun normaalia viestintää. Solut sisältävät useita antioksidantteja, joiden tärkeimpänä tehtävänä on kontrolloida happiradikaalien määrää ja näin ylläpitää solun hapetus-pelkistys -tasapaino. Tässä väitöskirjatutkimuksessa tutkittiin happiradikaalien yhteyttä syövän kehittymiseen tarkastelemalla niiden aiheuttaman DNA-vaurion merkkiainetta, 8-hydroksideoksiguanosiinia (8-OHdG), rintasyövässä ja endometrioosiin liittyvässä munasarjasyövässä sekä peroksiredoksiiniperheen antioksidanttientsyymejä endometrioosiin liittyvässä munasarjasyövässä. 8-OHdG:n avulla selvitettiin myös munasarjojen monirakkulaoireyhtymän (PCOS) ja endometrioosin yhteyttä syövän kehittymiseen. Lisäksi tutkittiin metformiinin vaikutusta happiradikaalien aiheuttamaan DNA-vaurioon. Väitöskirjatutkimuksen tulosten perusteella 8-OHdG:n määrä vähentyy rintasyövän edetessä ja endometrioosiin liittyvän munasarjasyövän kehittyessä. Matalat 8-OHdG -tasot syöpäkudoksessa ja verinäytteissä ovat yhteydessä aggressiivisempaan taudinkuvaan rintasyövässä. Endometrioosiin liittyvässä munasarjasyövässä kudoksen ilmentämä 8-OHdG ja Prx II vähentyi asteittain siirryttäessä hyvänlaatuisesta endometrioosista munasarjasyöpään. Munasarjojen monirakkulaoireyhtymässä potilaiden verinäytteiden 8-OHdG -tasot olivat merkittävästi matalammat terveisiin verrokkeihin verrattuna. Korkeilla happiradikaalipitoisuuksilla ja niistä aiheutuvalla DNA-vauriolla on väitöskirjatutkimuksen tulosten perusteella tärkeä rooli syövän syntyvaiheessa, kun taas syövän myöhemmissä kehitysvaiheissa matalat happiradikaalipitoisuudet tukevat syövän kasvua ja selviytymistä soluviestinnän avulla. Endometrioosipotilaiden kohonnut munasarjasyöpäriski vaikuttaisi olevan seurausta runsaasta happiradikaalien aiheuttamasta DNA-vauriosta endometrioosikudoksessa. Munasarjojen monirakkulaoireyhtymässä poikkeavien happiradikaalitasojen aiheuttama puutteellinen soluviestintä liittyy mahdollisesti taudin patogeneesiin ja syöpäriskiin.

8-hydroxydeoxyguanosine

Oxidative stress

antioxidant enzymes

breast cancer

endometriosis

ovarian cancer

polycystic ovary syndrome

reactive oxygen species

8-hydroksideoksiguanosiini

Oksidatiivinen stress

antioksidatiiviset entsyymit

endometrioosi

munasarjasyöpä

munasarjojen monirakkulaoireyhtymä

reaktiiviset happiradikaalit

rintasyöpä

Impact of vanadium stress on physiological and biochemical characteristics in heavy metal susceptible and tolerant Brassicaceae

Gokul, Arun

January 2013

>Magister Scientiae - MSc / There is an influx in heavy metals into soils and ground water due to activities such as increased mineral mining, improper watering and the use of heavy metal contaminated fertilizers. These heavy metals are able to increase the ROS species within plants which may result in plant metabolism deterioration and tissue damage. Heavy metals may also directly damage plants by rendering important enzymes non-functional through binding in metal binding sites of enzymes. The heavy metal focused on in this study was vanadium due to South Africa being one of the primary produces of this metal. Two related Brassica napus L cultivars namely Agamax and Garnet which are economically and environmentally important to South Africa were exposed to vanadium. Physiological experiments such as cell death, chlorophyll and biomass determination were conducted to understand how these cultivars were affected by vanadium toxicity. A low cost, sensitive and robust vanadium assay was developed to estimate the amount of vanadium in samples such as water, soils and plant material. The oxidative state as well as the antioxidant profile of the two cultivars were also observed under vanadium stress. A chlorophyll assay which was conducted on the two cultivars exposed to vanadium showed a marked decrease in chlorophyll A in the suspected sensitive cultivar which was Garnet. However, the suspected tolerant cultivar Agamax fared better and the decrease in chlorophyll A was much less. A similar trend was observed for the two cultivars when the cell death assay was conducted. The vanadium assay showed that Garnet had higher concentrations of vanadium within its leaves and lower concentrations in its roots when compared to Agamax. This observation displayed that Agamax had inherent mechanisms which it used to localize vanadium in its roots and which assisted in its tolerance to the vanadium stress. The oxidative state was determined by doing assays for the specific reactive oxygen species namely hydrogen peroxide and superoxide. It was observed that vanadium treated Garnet leaves had higher reactive oxygen species (ROS) production when compared to the Agamax treated leaves. In-gel native PAGE activity gels were conducted to determine the antioxidant profile for the two cultivars which were exposed to vanadium. The antioxidant enzymes which were under investigation were ascorbate peroxide (APX), superoxide dismutase (SOD) and glutathione-dependent peroxidases (GPX-like) as these enzymes are known to be responsible for controlling the ROS produced in the plants. The GPX-like profile consisted of three isoforms. No isoforms were inhibited by vanadium treatments but one isoform had increased activity in both the Garnet and Agamax treated samples. The SOD profile for Garnet consisted of six isoforms and Agamax had seven isoforms. One isoform which was visualized in both Agamax as well as Garnet was inhibited by vanadium treatments. Agamax also had two isoforms which were up-regulated however the corresponding isoforms in Garnet showed no change. The Ascorbate peroxidase profile consisted of seven isoforms for both Garnet and Agamax. No isoforms were inhibited by vanadium treatment. Three isoforms were up-regulated in Garnet and Agamax under vanadium treatments. Here, it is illustrated that Garnet lacked certain mechanisms found in Agamax (and thus experienced more cell death, yield and chlorophyll loss) and performed worst under high vanadium concentrations. Although Garnet increased the activity of some of its antioxidant isoforms in response to increasing ROS levels it was not adequate to maintain a normal oxidative homeostasis. This disruption in oxidative homeostasis lead to plant damage. Agamax was observed to produce less ROS than Garnet and was able to control the ROS produced more effectively than Garnet and thus less damage was observed in Agamax.

Ascorbate peroxidase

Biomass Cell death

Hydrogen peroxide

Hypertolerant Lipid peroxidation

Superoxide

Propriedades antioxidantes de clones do pedúnculo de Anacardium occidentale L.: feito sobre a lipoperoxidação e enzimas participantes do sistema antioxidante de defesa do organismo animal / Antioxidant properties of cashew apple clones (Anacardium occidentale L.): effect on the lipoperoxidation and defense system antioxidant enzymes of the organism animal

Elma Regina Silva de Andrade Wartha

05 September 2007

Os compostos fenólicos são substâncias amplamente distribuídas no reino vegetal, em particular nas frutas e em outros vegetais. Estes compostos, destacando-se flavonoides e os ácidos fenólicos, devido à estrutura molecular, podem apresentar a capacidade de inibir processos oxidativos. Além do mais, estão relacionados com a redução de risco de doenças crônicas não transmissíveis tais como: cardiovasculares, câncer, aterosclerose, entre outras. Considerando a elevada produção de caju em território brasileiro e a possibilidade da existência de compostos com potencial antioxidante no pedúnculo de caju , este trabalho teve por objetivo avaliar quantitativa e qualitativamente os compostos fenólicos, particularmente os ácidos fenólicos, e identificar a participação destes em processos metabólicos do organismo animal. Foram caracterizados quimicamente três clones distintos de pedúnculos de caju (CCP-76, CCP-09, BRS-189 e CCP-76 tratado) e na análise química, apresentaram um elevado teor de ácidos graxos monoinsaturados, predominando o ácido oléico, e de fenólicos totais. Os ácidos fenólicos identificados foram: gálico, protocatecuíco, p-cumárico, ferúlico, caféico e salicílico. Foram obtidos extratos aquoso (EAq) e alcoólico (EAlc) e frações de ácidos fenólicos a partir dos pedúnculos e, avaliados em sistemas modelo β-caroteno/ácidolinoléico e em Rancimat. As frações de ácidos fenólicos exibiram expressiva atividade antioxidante no primeiro sistema e os extratos, no segundo, demonstraram fatores de proteção superior ao antioxidante sintético BHT. Pôde-se também verificar a capacidade antioxidante dos extratos e frações do clone CCP-76 no sistema de varredura do radical DPPH. Em ensaio experimental com ratos, em condição normal, foi administrado EAq (80 e 240 mg/kg, v.o.) ou fração de ácidos fenólicos livres (40 e 120 mg/kg, v.o.) obtidos do pedúnculo de caju CCP-76. Neste estudo, não se observou potencialização de todos os antioxidantes enzimáticos (superóxido dismutase, catalase e glutationas peroxidase e redutase), contudo pôde-se verificar a redução dos níveis de lipoperoxidação no tecido cerebral dando indícios de aumento do estado antioxidante nos animais. Também foi avaliado o potencial antioxidante do EAq e da fração de ácidos fenólicos livres sobre o dano hepático em ratos tratados com tetracloreto (CCl4) de carbono. A administração deste teve seu efeito corroborado pela avaliação dos parâmetros bioquímicos, ou seja, aumento exacerbado das enzimas hepáticas no plasma: alanina transaminase (ALT) e aspartato transaminase (AST); decréscimo da atividades da enzimas antioxidantes no fígado e elevação da produção de peróxidos lipídicos no tecido hepático. Nos ratos que receberam EAq (480 mg/kg, v.o.) não se observou alteração comparando-os aos animais tratados apenas com CCl4 . No entanto, a administração de fração de ácidos fenólicos livres, nas duas doses (40 e 120 mg/kg, v.o.), evidenciou pronunciado efeito contra a lesão hepática, com níveis reduzidos de AL T e AST plasmáticas, aumento da atividade das enzimas antioxidantes no fígado e prevenindo a lipoperoxidação hepática mediada pelo radical CCl3• a partir do CCl4. Estudos histológicos do tecido hepático confirmaram as avaliações bioquímicas exibindo preservação tecidual, supressão de degeneração vacuolar macro e microgoticular e de sinais necróticos nos ratos tratados com a fração de ácidos fenólicos livres do pedúnculo de caju. / Phenolic compounds are widely distributed in the plant kingdom, particularly fruits and vegetables. Due to their chemical structure, these compounds, in particular flavonoids and phenolic acids, are able to inhibit oxidative processes. Furthermore, can be used to reduce the risk of non-transmissible chronic diseases such as cardiovascular diseases, cancer and atherosclerosis. Taking into consideration the large production of cashew in Brazil and the possible existence of potentially antioxidant compounds present in the cashew apples, the aim of this study was to quantitatively and qualitatively evaluate the presence of phenolic compounds in cashew apple, particularly phenolic acids, and identify their role in metabolic processes in animals. The cashew apples of three distinct clones (CCP-76, CCP-09, BRS-189 and CCP-76 (processed)) were studied. The determination of fatty acids yielded a high concentration of monounsaturated fatty acids, mainly oleic acid, and of total phenolic compound. The phenolic acids found were: gallic, proteocatechuic, p-cumaric, ferulic, caffeic and salicylic acids. Both aqueous (EAq) and ethanolic (EAlc) extracts and phenolic acid fractions were obtained from the cashew apples and were evaluated in a β-carotene/linoleate model system and Rancimat test. The phenolic acid fractions presented an expressive antioxidant activity in the β-carotene/linoleate model system and the extracts, by the Rancimat test presented a protection factor higher than that of antioxidant additive, BHT. We also observed the antioxidant capacity of the extracts and fractions of the CCP-76 clone in the DPPH radical scavenging assay. In an experimental assay with rats, the EAq (80 and 240 mg/kg) or the free phenolic acid fraction (40 and 120 mg/kg) obtained from the cashew apple of CCP-76 clone was administered via the oral route. In this study, the enhancement of enzymatic antioxidants (superoxide dismutase, catalase, glutathione peroxidase and reductase) was not observed, nevertheless, a decrease in the amount of lipoperoxidation in the brain tissue was observed, suggesting that the ingestion of cashew might increase the antioxidative state in animals. Also, the antioxidant activity of EAq and of the free phenolic acid fraction from the cashew apple of CCP-76 clone was verified on the liver damage induced by carbon tetrachloride. The liver damage caused by the administration of carbon tetrachloride was detected by biochemical parameters, namely, the increase in the serum concentrations of alanine transaminase (ALT) and aspartate transaminase (AST) as well as a decrease in the activities of antioxidant enzymes and an increase in peroxidation in the liver. Rats who received EAq (480 mg/kg, p.o.) did not present alterations in any of the parameters evaluated, compared to the animals treated with carbon tetrachloride. On the other hand, the administration of free the phenolic acid fraction in doses of 40 and 120 mg/kg, p.o., had a pronounced effect in protecting against hepatic lesion, which was evidenced by the decrease in plasma ALT and AST, enhancing the activity of antioxidant enzymes and preventing lipoperoxidation mediated by the CCl3• radical generated by carbon tetrachloride. Histological studies were able to confirm the biochemical alterations observed in that the liver tissue obtained from rats treated with phenolic acid fractions extracted from cashew apple of CCP-76 clone presented a preserved tissue structure and suppression of macro and microgoticular vacuolar degeneration as well as of signs of necrosis.

Antioxidantes (Propriedades)

Atividade antioxidante

Caju (Análise)

Dano hepático induzido por CCl4

Nutrição

Pedúnculo de caju

Antioxidant activity

Antioxidant enzymes

Antioxidants (Properties)

Caju (Analysis)

Cashew apple

CCl4-induced hepatic injury

Lipid peroxidation

Nutrition

Oxidační stres a kondiční závislost ornamentálních signálů kvality u sociálně monogamního pěvce / Oxidative stress and condition-dependence of ornamental signals of quality in socially monogamous songbird

Valášek, Stanislav

January 2016

6 ABSTRACT Conditional ornaments plays irreplaceable role in sexual selection in non-small part of by sexual reproduction reproducing animals. Fastidiousness of generating and later also carrying of these ornaments which show condition of their wearer, burdens also metabolism in non-small scale. This thesis tests hypothesis of mutual addiction between conditional ornaments, as the indicators of qualities of individuals and metabolism, as the most significant source of free radicals which are responsible for oxidative stress. The real weight of influence of ornament fastidiousness on organism, resp. on redox state, is tested in this thesis. Manipulations which were performed with individual males of model species should point how much the selected factors correlate each other. The barn swallow (Hirundo rustica) is the model species. Analyses of dates collected during trapping which were realized in breeding seasons in 2012 and 2013 does not show any important trends between observing variables. This fact is confirmed by minimal differences and inconsistent variability of levels of measured antioxidants - oxidoreductases, superoxide dismutase and glutathione peroxidase. The marginal effect of manipulations with one of the conditional ornaments which are presented in model species supports the hypothesis of...

Vliv podávání n-3 polynenasycených mastných kyselin na ukazatele zánětu u pacientů s dlouhodobou parenterální výživou / Influence of supplementation with n-3 polyunsaturated fatty acids on inflammatory markers in patients on long-term parenteral nutrition

Svěchová, Hana

January 2011

SMOFLipid® is a commonly used fat emulsion for parenteral nutrition. We investigated how enrichment of SMOFLipid® with n-3 polyunsaturated fatty acids (PUFA) in a form of second fat emulsion, Omegaven® , changes fatty acid composition of total plasma phospholipids and erythrocyte phospholipids, cytokine concentrations in serum and in supernatant from in vitro whole blood culture stimulated with lipopolasaccharide (LPS) and we evaluated also changes in oxido- reductive balance. Eight patients on long-term home parenteral nutrition recieved both emulsions, SMOFLipid® (6 weeks) and SMOFLipid® +Omegaven® (4 weeks), one by one. We observed no significant differences in common laboratory and clinical parameters between these two types of diet. Enrichment of SMOFLipid® with Omegaven® led to an increase in eicosapentaenoic (EPA) and docosahexaenoic acid (DHA) in total plasma phospholipids and there was also an increse in proportion of EPA in erythrocyte phospholipids, while proportion of DHA remained unchanged. These changes were in both phospholipids of plasma and erythrocyte compensated for a decrease in proportion of linoleic and arachidonic acid (n-6 PUFA). There were elevated IL-6 and TNF-α serum concentrations in patients after both diets. There was a decrease in IL-6 production by 36% with SMOFLipid®...

The role of p-coumaric acid on physiological and biochemical response of chia seedling under salt stress

Nkomo, Mbukeni Andrew

January 2020

Philosophiae Doctor - PhD / The role of phenolic acids in mitigating salt stress tolerance have been well documented. However, there are contradicting reports on the effect of exogenously applied phenolic acids on the growth and development of various plants species. A general trend was observed where phenolic acids were shown to inhibit plant growth and development, with the exception of a few documented cases. One of these such cases is presented in this thesis. This study investigates the role of exogenously applied p-coumaric acid (p-CA) on physio-biochemical and molecular responses of chia seedlings under salt stress. This study is divided into three parts. Part one (Chapter 3) focuses on the impact of exogenous p-coumaric acid on the growth and development of chia seedlings. In this section, chia seedlings were supplemented with exogenous p-CA and the various biochemical and plant growth parameters were measured. The results showed that exogenous p-CA enhanced the growth of chia seedlings. An increase in chlorophyll, proline and superoxide oxide contents were also observed in the p-CA treatment relative to the control. We suggested that the increase in chia seedling growth could possibly be via the activation of reactive oxygen species-signalling pathway involving O2− under the control of proline accumulation (Chapter 3). Given the allopathy, nature of p-coumaric acid it is noteworthy that the response observed in this study may be species dependent, as contrasting responses have been reported in other plant species. Part two (Chapter 4) of this study investigates the influence of piperonylic acid (an inhibitor of endogenous p-coumaric acid) on the growth and development of chia seedlings. In trying to illustrate whether p-CA does play a regulatory role in enhancing pseudocereal plant growth, we treated chia seedlings with the irreversible inhibitor of C4H enzyme, to inhibit the biosynthesis of endogenous p-CA. In this section, chia seedlings were treated with piperonylic acid and changes in plant growth, ROS-induced oxidative damage, p-CA content and antioxidant capacity was monitored. Inhibition of endogenous p-CA restricted chia seedling growth by enhancing ROS-induced oxidative damage as seen for increased levels of superoxide, hydrogen peroxide and the extent of lipid peroxidation. Although an increase in antioxidant activity was observed in response to piperonylic acid, this increase was not sufficient to scavenge the ROS molecules to prevent oxidative damage and ultimate cellular death manifested as reduced plant growth. The results presented in this section support our hypothesis that p-CA play an important regulatory role in enhancing chia seedling growth and development as shown in Chapter 3. Part three (Chapter 5) seeks to identify and functionally characterise p-coumaric acid induced putative protein biomarkers under salt stress conditions in chia seedlings. Previous studies have shown that p-CA reversing the negative effect caused by NaCl-induced salt stress. While these studies were able to demonstrate the involvement of p-CA in promoting plant growth under salt stress conditions, they focussed primarily on the physiological aspect, which lacks in-depth biochemical and molecular analysis (ionomic and proteomic data) which could help in detecting the genes/proteins involved in salt stress tolerance mechanisms. A comparative ionomics and proteomic study was conducted, with the aim of elucidating the pivotal roles of essential macro elements and/or key protein markers involved in p-CA induced salt stress tolerance in chia seedlings. With the exception of Na, all the other macro elements were decreased in the salt treatment. Contrary to what was observed for the salt treatment most of the macro elements were increased in the p-CA treatment. However, the addition of exogenous p-CA to salt stressed seedlings showed an increase in essential macro elements such as Mg and Ca which have been shown to play a key role in plant growth and development. In the proteomic analysis we identified 907 proteins associated with shoots across all treatments. Interestingly, only eight proteins were conserved amongst all treatments. A total of 79 proteins were unique to the p-CA, 26 to the combination treatment (NaCl + p-CA) and only two proteins were unique to the salt stress treatment. The unique proteins identified in each of the treatments were functionally characterised to various subcellular compartments and biological processes. Most of the positively identified proteins were localised to the chloroplast and plays key roles in photosynthesis, transportation, stress responses and signal transduction pathways. Moreover, the protein biomarkers identified in this study (especially in the p-CA treatment) are putative candidates for genetic improvement of salt stress tolerance in plants.

Antioxidant enzymes

Ascorbate peroxidase

Chia

Chlorophyll

Glycine betaine

Lipid peroxidation

p-Coumaric acid

Peroxidase

Photosynthesis

Piperonylic acid

Plant proteomics

Proline

Pseudocereals

Reactive oxygen species

Salt stress

Superoxide radical

Superoxide dismutase

Osmoprotectant

Oxidative stress

Sulfur supply as a sustainable technology for phytoextraction: its effects on cadmium uptake and detoxification in Panicum maximum Jacq. cv. Massai / Suprimento de enxofre como tecnologia sustentável para fitoextração: efeitos na absorção e detoxificação de cádmio em Panicum maximum Jacq. cv. Massai

Rabêlo, Flávio Henrique Silveira

08 February 2018

Cadmium (Cd) concentration in the environment has increased in most recent decades, which represents a serious socio-environmental problem, since Cd is toxic to most living beings. Thus, it is important to reduce the concentration of this metal in contaminated environments, and the use of plants properly supplied with sulfur (S) can contribute to this (phytoextraction), since S is a component of metabolites involved in defense responses against stress caused by Cd. Therefore, our aim with this study was to evaluate the effect of S on i) Cd uptake kinetics, ii) root development and nutrient uptake, iii) metabolic profiling and thiol peptides synthesis, and iv) activity of antioxidant and photosynthetic system of Massai grass (Panicum maximum Jacq. cv. Massai) used for Cd phytoextraction. The studies were carried out in a greenhouse conditions using pots of 0.5 and 2.0 L for development of the study about Cd uptake kinetics (treatments represented by combinations of S: 0.1 and 1.9 mmol L-1 and Cd concentrations: 0.1 and 0.5 mmol L-1) and Cd detoxification mechanisms (treatments represented by combinations of S: 0.1, 1.9 and 3.7 mmol L-1 and Cd concentrations: 0.0, 0.1 and 0.5 mmol L-1), respectively. Pots were distributed in randomized blocks, with four replications. Plants used in Cd kinetics study were exposed to treatments for 14 days after they remained in solutions containing only S for 42 days, while plants used in Cd detoxification study were exposed to treatments for 9 days after growing in solutions containing only S for 44 days. At the end of studies, plants used were harvested and sent for analysis. Maximum uptake rate (Vmax) and Cd apoplastic influx of Massai grass exposed to highest Cd concentration was highest when the plants were supplied with highest S concentration. The root development of Massai grass was strongly inhibited when plants were exposed to 0.5 mmol L-1 Cd, but proper (1.9 mmol L-1) S supply allowed highest Cd uptake, while excessive S supply (3.7 mmol L-1) decreased iron plaques formation in the roots of plants. Lysine, cysteine, ornithine, arginine, tryptophan and histidine were accumulated in more than one tissue in plants exposed to Cd, as well as galactinol. Glutathione (GSH), phytochelatins (PCs) and their homologues were strongly induced by Cd, whereas plants supplied with 1.9 and/or 3.7 mmol L-1 S showed the highest concentrations of these peptides. Plants supplied with highest S concentration showed lowest lipid peroxidation and highest photosynthetic rate, which evidences that antioxidant system of these plants was more efficient in mitigating the damages caused by Cd. In view of these results, it is clear that Massai grass properly supplied with S shows greatest Cd tolerance, as well as phytoextraction potential / A concentração de cádmio (Cd) no ambiente aumentou em décadas recentes, o que representa sério problema sócio-ambiental, visto que o Cd é tóxico para a maioria dos seres vivos. Por isso, é importante reduzir a concentração desse metal em ambientes contaminados e o uso de plantas adequadamente supridas com enxofre (S) pode contribuir para isso (fitoextração), uma vez que o S é componente de metabólitos envolvidos no combate ao estresse causado pelo Cd. Assim, o nosso objetivo com esse estudo foi avaliar o efeito do S na i) cinética de absorção do Cd, no ii) desenvolvimento radicular e na absorção de nutrientes, no iii) perfil metabólico e síntese de compostos tiol, e iv) na atividade do sistema antioxidante e fotossintético do capim-massai (Panicum maximum Jacq. cv. Massai), utilizado para fitoextração de Cd. Os estudos foram conduzidos em casa de vegetação utilizando-se vasos de 0,5 e 2,0 L para a condução do estudo de cinética de absorção de Cd (tratamentos representados pelas combinações das doses de S de 0,1 e 1,9 mmol L-1 e Cd de 0,1 e 0,5 mmol L-1) e para o estudo dos mecanismos de detoxificação de Cd (tratamentos representados pelas combinações das doses de S de 0,1; 1,9 e 3,7 mmol L-1 e Cd de 0,0; 0,1 e 0,5 mmol L-1), respectivamente. Os vasos foram distribuídos em blocos ao acaso, com quatro repetições. As plantas utilizadas no estudo de cinética foram expostas aos tratamentos durante 14 dias após as mesmas terem permanecido em soluções contendo apenas S durante 42 dias, enquanto as plantas utilizadas no estudo de detoxificação de Cd foram expostas aos tratamentos pelo período de 9 dias após terem crescido em soluções contendo apenas S por 44 dias. Ao final dos estudos, as plantas utilizadas foram colhidas e encaminhadas para análises. A velocidade máxima de absorção (Vmax) e o influxo apoplástico de Cd do capim-massai exposto à maior dose de Cd foram maiores quando as plantas foram supridas com a maior dose de S. O desenvolvimento radicular do capim-massai foi fortemente inibido quando as plantas foram expostas à dose de Cd de 0,5 mmol L-1, mas o adequado (1,9 mmol L-1) suprimento de S permitiu maior absorção de Cd, enquanto o suprimento excessivo (3,7 mmol L-1) de S diminuiu a formação de placas de ferro nas raízes das plantas. A lisina, cisteína, ornitina, arginina, triptofano e histidina foram acumulados em mais de um tecido nas plantas expostas ao Cd, assim como o galactinol. A glutationa (GSH), as fitoquelatinas (PCs) e seus homólogos foram fortemente induzidos pelo Cd, sendo que as plantas supridas com as doses de S de 1,9 e/ou 3,7 mmol L-1 apresentaram as maiores concentrações desses peptídeos. As plantas supridas com as maiores doses de S apresentaram menor peroxidação lipídica e maior taxa fotossintética, o que demonstra que o sistema antioxidante dessas plantas foi mais eficiente na atenuação dos danos causados pelo Cd. Diante desses resultados, fica claro que o capim-massai suprido adequadamente com S apresenta maior tolerância ao Cd, assim como maior potencial de fitoextração

Ácidos orgânicos

Açúcares

Alterações anatômicas

Amino acids

Aminoácidos

Anatomical changes

Antioxidant enzymes

Cinética de absorção

Compostos tiol

Environmental pollution

Enzimas antioxidantes

Estado nutricional

Estresse oxidativo

Expressão gênica

Fitoquelatinas

Gene expression

Glutathione

Glutationa

Metabolic profile

Morfologia radicular

Nutritional status

Organic acids

Oxidative stress

Perfil metabólico

Photosynthetic system

Phytochelatins

Poluição ambiental

Root morphology

Sistema fotossintético

Sugars

Thiol compounds

Uptake kinetics

Sulfur supply as a sustainable technology for phytoextraction: its effects on cadmium uptake and detoxification in Panicum maximum Jacq. cv. Massai / Suprimento de enxofre como tecnologia sustentável para fitoextração: efeitos na absorção e detoxificação de cádmio em Panicum maximum Jacq. cv. Massai

Flávio Henrique Silveira Rabêlo

08 February 2018

Cadmium (Cd) concentration in the environment has increased in most recent decades, which represents a serious socio-environmental problem, since Cd is toxic to most living beings. Thus, it is important to reduce the concentration of this metal in contaminated environments, and the use of plants properly supplied with sulfur (S) can contribute to this (phytoextraction), since S is a component of metabolites involved in defense responses against stress caused by Cd. Therefore, our aim with this study was to evaluate the effect of S on i) Cd uptake kinetics, ii) root development and nutrient uptake, iii) metabolic profiling and thiol peptides synthesis, and iv) activity of antioxidant and photosynthetic system of Massai grass (Panicum maximum Jacq. cv. Massai) used for Cd phytoextraction. The studies were carried out in a greenhouse conditions using pots of 0.5 and 2.0 L for development of the study about Cd uptake kinetics (treatments represented by combinations of S: 0.1 and 1.9 mmol L-1 and Cd concentrations: 0.1 and 0.5 mmol L-1) and Cd detoxification mechanisms (treatments represented by combinations of S: 0.1, 1.9 and 3.7 mmol L-1 and Cd concentrations: 0.0, 0.1 and 0.5 mmol L-1), respectively. Pots were distributed in randomized blocks, with four replications. Plants used in Cd kinetics study were exposed to treatments for 14 days after they remained in solutions containing only S for 42 days, while plants used in Cd detoxification study were exposed to treatments for 9 days after growing in solutions containing only S for 44 days. At the end of studies, plants used were harvested and sent for analysis. Maximum uptake rate (Vmax) and Cd apoplastic influx of Massai grass exposed to highest Cd concentration was highest when the plants were supplied with highest S concentration. The root development of Massai grass was strongly inhibited when plants were exposed to 0.5 mmol L-1 Cd, but proper (1.9 mmol L-1) S supply allowed highest Cd uptake, while excessive S supply (3.7 mmol L-1) decreased iron plaques formation in the roots of plants. Lysine, cysteine, ornithine, arginine, tryptophan and histidine were accumulated in more than one tissue in plants exposed to Cd, as well as galactinol. Glutathione (GSH), phytochelatins (PCs) and their homologues were strongly induced by Cd, whereas plants supplied with 1.9 and/or 3.7 mmol L-1 S showed the highest concentrations of these peptides. Plants supplied with highest S concentration showed lowest lipid peroxidation and highest photosynthetic rate, which evidences that antioxidant system of these plants was more efficient in mitigating the damages caused by Cd. In view of these results, it is clear that Massai grass properly supplied with S shows greatest Cd tolerance, as well as phytoextraction potential / A concentração de cádmio (Cd) no ambiente aumentou em décadas recentes, o que representa sério problema sócio-ambiental, visto que o Cd é tóxico para a maioria dos seres vivos. Por isso, é importante reduzir a concentração desse metal em ambientes contaminados e o uso de plantas adequadamente supridas com enxofre (S) pode contribuir para isso (fitoextração), uma vez que o S é componente de metabólitos envolvidos no combate ao estresse causado pelo Cd. Assim, o nosso objetivo com esse estudo foi avaliar o efeito do S na i) cinética de absorção do Cd, no ii) desenvolvimento radicular e na absorção de nutrientes, no iii) perfil metabólico e síntese de compostos tiol, e iv) na atividade do sistema antioxidante e fotossintético do capim-massai (Panicum maximum Jacq. cv. Massai), utilizado para fitoextração de Cd. Os estudos foram conduzidos em casa de vegetação utilizando-se vasos de 0,5 e 2,0 L para a condução do estudo de cinética de absorção de Cd (tratamentos representados pelas combinações das doses de S de 0,1 e 1,9 mmol L-1 e Cd de 0,1 e 0,5 mmol L-1) e para o estudo dos mecanismos de detoxificação de Cd (tratamentos representados pelas combinações das doses de S de 0,1; 1,9 e 3,7 mmol L-1 e Cd de 0,0; 0,1 e 0,5 mmol L-1), respectivamente. Os vasos foram distribuídos em blocos ao acaso, com quatro repetições. As plantas utilizadas no estudo de cinética foram expostas aos tratamentos durante 14 dias após as mesmas terem permanecido em soluções contendo apenas S durante 42 dias, enquanto as plantas utilizadas no estudo de detoxificação de Cd foram expostas aos tratamentos pelo período de 9 dias após terem crescido em soluções contendo apenas S por 44 dias. Ao final dos estudos, as plantas utilizadas foram colhidas e encaminhadas para análises. A velocidade máxima de absorção (Vmax) e o influxo apoplástico de Cd do capim-massai exposto à maior dose de Cd foram maiores quando as plantas foram supridas com a maior dose de S. O desenvolvimento radicular do capim-massai foi fortemente inibido quando as plantas foram expostas à dose de Cd de 0,5 mmol L-1, mas o adequado (1,9 mmol L-1) suprimento de S permitiu maior absorção de Cd, enquanto o suprimento excessivo (3,7 mmol L-1) de S diminuiu a formação de placas de ferro nas raízes das plantas. A lisina, cisteína, ornitina, arginina, triptofano e histidina foram acumulados em mais de um tecido nas plantas expostas ao Cd, assim como o galactinol. A glutationa (GSH), as fitoquelatinas (PCs) e seus homólogos foram fortemente induzidos pelo Cd, sendo que as plantas supridas com as doses de S de 1,9 e/ou 3,7 mmol L-1 apresentaram as maiores concentrações desses peptídeos. As plantas supridas com as maiores doses de S apresentaram menor peroxidação lipídica e maior taxa fotossintética, o que demonstra que o sistema antioxidante dessas plantas foi mais eficiente na atenuação dos danos causados pelo Cd. Diante desses resultados, fica claro que o capim-massai suprido adequadamente com S apresenta maior tolerância ao Cd, assim como maior potencial de fitoextração

Ácidos orgânicos

Açúcares

Alterações anatômicas

Aminoácidos

Cinética de absorção

Compostos tiol

Enzimas antioxidantes

Estado nutricional

Estresse oxidativo

Expressão gênica

Fitoquelatinas

Glutationa

Morfologia radicular

Perfil metabólico

Poluição ambiental

Sistema fotossintético

Amino acids

Anatomical changes

Antioxidant enzymes

Environmental pollution

Gene expression

Glutathione

Metabolic profile

Nutritional status

Organic acids

Oxidative stress

Photosynthetic system

Phytochelatins

Root morphology

Sugars

Thiol compounds

Uptake kinetics