Mitochondriální cytochrom c oxidasa: inhibice kyanidem a vliv defektu asemblačního faktoru Surf1 / Mitochondrial cytochrome c oxidase: cyanide inhibition and role of assembly factor Surf1 defect

Nůsková, Hana

January 2010

The activity of mitochondrial cytochrome c oxidase (COX) can be affected by either exogenous or endogenous factors. The most efficient and in the environment abundant compound that inhibits COX is cyanide. The very frequent cause of COX deficiency in humans is represented by a defect in the SURF1 gene. The mechanism of cyanide inhibitory effect on COX as well as the conditions for its recovery are not yet fully explained. Three parameters of COX function, namely the transport of electrons (oxygen consumption), the transport of protons (mitochondrial membrane potential, m) and the enzyme affinity to oxygen (p50 value), were studied with regard to the inhibition by KCN and its reversal by pyruvate. The function of COX was analysed in intact isolated rat liver mitochondria, both within the respiratory chain and as a sole enzyme, using succinate or an artificial electron donor ascorbate + TMPD as a substrate. 250 M KCN completely inhibited both electron- and proton-transporting function of COX, and this inhibition was reversible as proved with washing of mitochondria. The addition of 60 mM pyruvate induced the maximal recovery of both parameters to 60 - 80 % of original values. Using KCN in the low concentration range up to 5 M, a profound, 30-fold decrease of COX affinity to oxygen was observed....

Proteção antioxidante promovida por astaxantina sobre citocromo c, incorporado em vesículas e desafiado com SIN-1 / Antioxidant Protection Promoted by Astaxanthin over Cytochrome c Incorporated in Vesicles and Challenged with SIN-1

Mano, Camila Marinho

16 September 2008

A astaxantina (AST) é um carotenóide derivado do β-caroteno produzido por algas e cianobactérias, mas que também pode ser encontrada em animais marinhos. Em animais, é reportada como interceptadora de radicais de oxigênio mais eficiente que o β-caroteno. O objetivo central dessa dissertação foi avaliar a capacidade antioxidante da AST em lipossomos enriquecidos com citocromo c (cit c) desafiados com 3-morfolinosidnonimina (SIN-1), um doador de óxido nítrico, em diferentes microambientes (pH e composição das vesículas). Diferenças na interação destas vesículas com o cit c periférico, com reflexos na atividade antioxidante da AST também foram avaliadas. O SIN-1 gera, por termólise, quantidades equimolares de radical superóxido e óxido nítrico, quando há oxigênio no meio. Vesículas unilamelares de fosfatidilcolina (PC), PC contendo 5% ou 10% de fosfatidilglicerol (PG), com ou sem AST, foram incubadas com SIN-1 e/ou cit c. Medidas do índice de lipoperoxidação pelo teste das substâncias reativas ao ácido tiobarbitúrico (TBARS) revelaram que SIN-1 não causa aumento de TBARS, enquanto o cit c foi capaz de aumentar significativamente este índice. Este fato pode ser explicado pela atividade peroxidásica do cit c. Apenas em vesículas de PCPG10%, ao realizar a incubação do cit c concomitantemente com SIN-1, o índice de TBARS foi maior ao observado em vesículas incubadas apenas com cit c. É conhecido que a interação entre cit c e membranas aniônicas pode alterar a conformação da proteína, aumentando sua atividade peroxidásica. A presença da AST fez com que os índices de lipoperoxidação chegassem a valores próximos aos do controle. A alteração no pH do meio revelou que a AST possui ação antioxidante mais pronunciada em pHs 7,4 e 8,0, em comparação com pHs levemente ácidos. A presença de PG evidenciou ainda mais esta tendência e em pH 6,2, a AST apresentou inclusive pequena atividade próoxidante. Estes resultados podem ser discutidos à luz de alterações da permeabilidade da membrana e da reatividade de espécies reativas induzidas por mudanças da fluidez e de pH. O efeito dos produtos gerados por SIN-1 sobre o cit c foi estudado em condições de normóxia e hipóxia. Resultados de EPR e de fluorescência demonstram que a presença do radical superóxido previne lesões oxidativas causada por peróxido orgânico (t-butOOH) tanto no cit c quanto nas membranas, pois é capaz de reduzir o ferro hemínico do cit c. Através de CD e espectrofotometria UV-Vis e EPR, foi observado que a incubação com SIN-1 promove alterações estruturais no cit c causando ruptura na sexta coordenação do ferro hemínico, levando à geração de uma espécie de cit c com rombicidade menor em comparação ao cit c nativo e que apresenta maior atividade peroxidásica. Este trabalho contribui com informações para entendimento do mecanismo antioxidante da AST em diferentes microambientes, além de demonstrar o efeito paradoxal do superóxido que é capaz de proteger o cit c, através da redução do ferro hemínico, mas também pode expor a proteína à oxidação promovida por peroxinitrito. / Astaxanthin (AST) is a β-carotene derived carotenoid, produced by algae and cyanobacteria, but can also be found in marine animals. In phytoplankton it has the function to absorb light radiation for photosinthesys occurence. In animals AST acts as a scavenger of oxygen free radicals, even more efficiently than β-carotene itself. The main objective of this work is to evaluate the antioxidant capacity of AST over cytochrome c (cyt c) incorporated in liposomes and challenged with 3-morpholinosidnonimine (SIN-1), a nitric oxide donor, under different experimental conditions, namely vesicles composition and pH. Distinct interactions between cyt c and vesicles affecting the AST antioxidant activity were also evaluated. SIN-1 spontaneously generates equal amount of nitric oxide and superoxide anion when oxygen is present. Unilamellar vesicles made from phosphatidylcholine (PC) or PC with 5% or 10% of phosphatidylglycerol (PG), with or without AST, were incubated with SIN-1 and/or cyt c. The extent of lipid peroxidation was evaluated by the classical method of thiobarbituric reactive substances (TBARS). Control experiments with SIN-1 alone showed no increase in TBARS content, whereas cyt c significantly increased TBARS. Concomitant addition of cyt c, SIN-1 to PCPG10% vesicles led to lipid peroxidation indices even higher than those found when cyt c was incubated with PCPG10% vesicles. A peroxidase activity of cyt c resulting from the interaction between this protein and anionic membranes can explain this result. In this system, the presence of AST inhibited formation of TBARS, whose levels were near the control values. Astaxanthin was found to exhibit a more effective antioxidant capacity under basic pH (7.4 and 8.0), in comparison with pH 6.2 and 6.8. In the presence of PG, this trend became more evident. Interestingly, at pH 6.2, AST showed a slight pro-oxidant activity. These results can be explained by differences in membrane permeability and reactivity of reactive species, caused by pH and membrane fluidity alterations. The effects of products of SIN-1 decomposition on cyt c structure and its peroxidase activity were investigated under hypoxia and normoxia. EPR and fluorescence experiments revealed that superoxide anion radical, due to its ability to reduce heme iron, prevents oxidative damage of cyt c and membrane lipids by peroxide-derived free radicals. By means of CD and UV-Visible spectroscopy, we have found that concomitant incubation of SIN-1 and cyt c promoted structural alterations in the protein which changes the irons sixth axial coordination, leading to generation of a less rhombic cyt c, which is reportedly a better peroxidase than native cyt c. This work contributes with information aiming to better understand the antioxidant mechanism of AST under different membrane microenvironments and unveil a paradoxal effect of superoxide ion, which can protect cyt c from oxidative lesions by transferring electron to ferricyt c, but can also expose cyt c to oxidation by peroxynitrite.

Antioxidant

Antioxidante

Astaxanthin

Astaxantina

Citocromo c

Cytochrome c

Estresse oxidativo (Toxicidade)

Fosfatidilcolina

Fosfatidilglicerol

Lipídeos

Lipids

Peroxidase (Atividade)

Peroxinitrito

Peroxynitrite

Phosphatidylcholine

Phosphatidylglycerol

Superoxide

Superóxido

Detecção de adutos de trans,trans-2,4-decadienal em citocromo c. Efeitos em mitocôndrias isoladas / Detection of trans,trans-2,4-decadienal adducts in cytochrome c. Effects on isolated mitochondrial functions

Sigolo, Carlos Alexandre Oliveira

28 September 2007

A atividade biológica de aldeídos α,Β-insaturados tem sido associada a diversos processos incluindo regulação gênica, envelhecimento Alzheimer e disfunções mitocondriais. Neste trabalho investigamos a formação de adutos do trans,trans-2,4-decadienal (DDE), um aldeído produzido endogenamente e presente como contaminante em alimentos e água, em lisina, histidina e citocromo c. Avaliamos também alterações na função de mitocôndrias de fígado de rato expostas ao aldeído. As análises por espectrometria de massas, LC-ESI/MS, indicaram a formação de diversos tipos de adutos de DDE nos aminoácidos lisina e histidina, entre eles bases de Schiff e enaminas. Os resultados obtidos por espectrometria de massas, MALDI-Tof, indicaram a formação de adutos de DDE formados via base de Schiff de maneira concentração do aldeído, tempo e pH dependentes. As análises da proteína digerida por ESI-Q-ToF, indicaram que os adutos foram formados nos resíduos H-33, K-39, 72 e 100, localizados em regiões ricas em resíduos básicos, cuja interação com membranas e citocromo e oxidase tem sido postulada. Observamos também o deslocamento da banda Soret (λ = 409 nm) e o desaparecimento da banda em λ = 695 nm, relativa a coordenação do sexto ligante do grupo heme (M-80). Este fenômeno está associado a abertura da cavidade do grupo heme e o deslocamento do ligante, indicando alterações nas estruturas secundária e terciária da proteína. Os experimentos realizados com mitocôndrias isoladas indicaram que DDE promove danos à membrana interna mitocondrial, demonstrando i pelo aumento no consumo de O2 em mitocôndrias em estado 4. Em decorrência destas lesões observamos também o intenso inchamento mitocondrial, indicado por experimentos de espalhamento de luz e microscopia eletrônica de transmissão. O inchamento não foi bloqueado por ciclosporina A, um inibidor do poro de transição mitocondrial. DDE também induziu a perda do potencial de membrana da organela, demonstrado pelo monitoramento do indicador fluorescente safranina O e aumento da peroxidação lipídica atestado pela quantificação de malondialdeido (MDA). Estes resultados indicam que DDE promove alterações estruturais no citocromo e podendo levar ao comprometimento da atividade da proteína, além de promover alterações em parâmetros mitocondriais, indicando um possível envolvimento na disfunção mitocondrial promovida por estresse oxidativo. / Lipid hydroperoxide-derived α,β-unsaturated aldehydes are involved in several cellular processes such as gene expression, aging, Alzheimer disease and mitochondrial dysfunction. In this work we have investigated adduct formation in lysine, histidine and cytochrome c by trans,trans-2,4-decadienal (DDE), an endogenously lipoperoxidation product. DDE is also a widespread environment aldehyde found, for example, in food and as a contaminant in water. Alterations in rat liver mitochondrial parameters such as oxygen consumption, membrane potentials, swelling and lipoperoxidation were also investigated. LC-ESI/MS experiments indicated that DDE react with aminoacids lysine and histidine producing adducts. In addition, MALDI-TOF experiments indicated increases in the molecular weight of cytochrome c consistent with the formation of DDE adducts via the Schiff base mechanism. Our data shows that the protein modification was time, pH and DDE-concentration dependent, leading to the formation of at least six adducts after 2 h incubation at pH 7.4. ESI-Q-TOF MS analysis of tryptic digests indicated that H-33, K-39, K-72 and K-100 were modified by DDE. These adducts are present in clusters of basic amino acid residues, which are believed to participate in the interaction of cytochrome c with mitochondrial membrane and cytochrome c oxidase. A blue shift in the Soret band from 409 to 406 nm was also observed, indicating heme crevice opening and displacement of heme sixth ligand (Met-80) coordination in modified protein. DDE (180 µM) treatment increases the rate of mitochondrial oxygen consumption, suggesting a partial mitochondrial uncoupling. Moreover, extensive mitochondrial swelling upon treatment with DDE (900 nM-162 &#181M) was observed by light scattering and transmission electron microscopy experiments. These effects were not prevented by the mitochondrial permeability transition inhibitor cyclosporin A. A DDE concentration-dependent loss in the inner mitocondrial membrane potential, monitored by safranin O fluorescence and an increase in lipoperoxidation were also observed. All together, these results suggest that reactive aldehydes can induce inner mitochondrial membrane damage playing a role in mitochondrial dysfunction associated with oxidative stress.

Citocromo c

Cytochrome c

DDE

DDE

Desacoplamento mitocôndrial

Espécies reativas de oxigênio

Histidina

Histidine

Lisina

Lysine

Mitochondrial uncoupling

Radical livre

Reactive oxygen species

Avaliação da imuno-expressão de proteínas da via da apoptose mediadas pela proteína p53 no carcinoma hepatocelular / Immunohistochemical assessment of the expression of proteins of the apoptosis pathway mediated by p53 in hepatocellular carcinoma

Ressio, Rodrigo Albergaria

05 October 2010

O presente estudo teve por objetivo estudar a participação da apoptose na carcinogênese hepatocelular, quantificando os corpos apoptóticos imunomarcados por caspase-3 clivada em amostras de carcinoma hepatocelular (CHC) em pacientes com ou sem cirrose, comparando também estes achados com amostras correspondentes de fígado não tumoral. Visou também à análise semi-quantitativa da imuno-expressão da proteína p53, Bax e Citocromo-C, relacionadas à via mitocondrial da apoptose em busca de eventuais relações com as variáveis clínicopatológicas dos carcinomas hepatocelulares. A análise comparativa da distribuição das diversas proteínas aqui estudadas foi ainda efetuada, com vistas à possível demonstração de sua interação no processo de apoptose em CHC. Amostras selecionadas de 79 casos de CHC foram distribuídas em micromatriz tecidual e submetidas a pesquisa imuno-histoquímica com amplificação por polímeros curtos de dextran ligados a peroxidase. IA foi maior nos CHC que nas amostras não-neoplásicas, mostrando ainda tendência a associação com o grau histológico do CHC .A imuno-expressão de p53 foi maior nos CHC em fígado cirrótico (CHC-C), em casos com invasão vascular, e nos graus histológicos altos. Houve maior imunoexpressão de citocromo c em CHC-C, sendo importante sua associação com p53. Bax mostrou apenas tendência a associação com o tamanho do CHC. Essas evidências contribuem para a compreensão da importância da via mitocondrial da apoptose mediada pela proteína p53 no CHC, destacando também prováveis diferenças do mecanismo carcinogenético na presença ou não de cirrose / This study aimed at the assesment of aspects of the role of apoptosis in hepatocellular carcinogenesis, quantifying apoptotic bodies immunomarked by cleaved caspase-3 in samples of hepatocellular carcinoma (HCC) in patients with or without cirrhosis, further comparing these findings to those from samples in non-tumoral areas of these livers. We also aimed herein to semiquantitate the immunoexpression of p53, Bax, Cytochrome-C, participants of the mitochondrial pathway of apoptosis, searching for possible relations with clinico-pathological variables in HCC. Samples from 79 cases of HCC were arranged in tissue microarrays were and submitted to immunohistochemical reaction with signal amplification achieved by the short-polymer-peroxidase system. Apoptotic index measured by immunoexpression of cleaved-caspase 3 was higher in HCC than in samples from non-neoplastic areas. p53 immunoexpression was higher in HCC occurring in cirrhotic livers, (HCC-C), in cases with vascular invasion and in higher histological grades. Cytochrome-c immunoexpression was also higher in HCC-C and, interestingly, was directly related to p53. Bax immunoreactivity showed only a trend for a relation with the size of HCC. The evidences from the present study further demonstrate the importance of p53-mediated pathway of apoptosis in HCC, and also point for possible differences in carcinogenesis in cirrhotic versus non-cirrhotic livers

Apoptose

Apoptosis

Carcinoma hepatocelular

Caspase-3 clivada

Citocromo C

Cleaved caspase-3

Cytochrome C

Genes p53

Hepatocellular carcinoma

Immunohistochemistry

Imunoistoquímica

P53 gene

The Complex Formation of Silver Ion With Ribonucleic Acid, Guanosine, Inosine and Related Compounds and Peroxidase-Like Activity of a Haemundecapeptide Prepared From Horse Heart Cytochrome C

Reinosa, José Angel

01 May 1966

The importance of nucleic acids in plant and animal cells as carriers of genetic information and as protein biosynthesis agents is well recognized. It is also known that nucleic acid is a component of all viruses. Takahashi (45) and Fraenkel-Conrat (16) demonstrated that the protein component of tobacco mosaic virus is non-infectious to the host plant, although it is identical to the original virus morphologically. The virus ribonucleic acid (RNA) alone was infectious, however. Deoxyribonucleic acid (DNA), which is present in chromosomes, displays a very specific function. The chromosome long has been accepted as the carrier of the hereditary unit, the gene, whose main component is DNA, which controls the formation of enzymes and of many proteins. Agents that bring about a mutational effect, affect DNA. Some of these agents are ultraviolet light, X-ray radiation and nitrous acid.

complex

formation

silver

ion

ribonucleic

acid

guanosine

inosine

related

compounds

peroxidase

activity

haemundecapeptide

prepared

horse

heart

cytochrome C

cytochrome

Biochemistry

Plant Sciences

Purification et caractérisation spectroscopique de cytochrome c oxydases.

Pilet, Eric

20 October 2004

Les cytochromes c oxydases (CcO), situées dans les chaînes respiratoires eucaryotes et des bactéries aérobiques, catalysent la réduction de l'oxygène en eau, une réaction qui utilise quatre électrons et quatre protons. Ces complexes protéiques membranaires participent également à la formation de la force protonmotrice nécessaire à la synthèse d'ATP, en pompant quatre protons supplémentaires par molécule de dioxygène réduit. Le site actif des CcO aa3 contient un hème de type a de haut spin, l'hème a3, et un atome de cuivre, le CuB. Ces deux cofacteurs peuvent fixer, outre l'O2, d'autres ligands diatomiques impliqués dans la signalisation telle que le monoxyde d'azote (NO) et le monoxyde de carbone (CO). Les travaux présentés dans ce manuscrit, effectué sur l'oxydase mitochondriale et sur des oxydases bactériennes, aa3 et ba3, concernent à la fois l'interaction de ligands avec la CcO et le transfert interne d'électrons. Les oxydases étudiées possèdent quatre centres redox, l'hème a3 et le CuB ainsi que l'hème a (resp. b pour ba3) et le centre CuA, impliqués dans le transfert d'électron (ET) du donneur, le cytochrome c, à l'accepteur, l'oxygène fixé au site actif. L'inhibition réversible de la CcO par le NO est un processus de régulation de la respiration. En étudiant l'influence de la concentration de NO sur la dynamique du NO au sein des oxydases aa3 de P. denitrificans et ba3 de T. thermophilus nous avons mis en évidence une interaction entre plusieurs ligands dans le site actif. Pour l'oxydase aa3, la recombinaison géminée du NO, après sa photodissociation de l'hème a3, a lieu selon deux phases de 200 ps et 20 ns, dont l'intensité augmente pour les concentrations de NO superstoechiométriques. A l'inverse, aucun effet de la concentration n'est observé pour l'oxydase ba3 où l'activité NO réductase de cette CcO exclut la présence stable de deux molécules de NO dans le site actif. L'ensemble de ces résultats converge vers la présence d'une seconde molécule de NO dans ou à proximité du site actif dans l'oxydase aa3, créant un encombrement favorisant une recombinaison géminée plutôt qu'un cheminement vers l'extérieur de la protéine. Des expériences de spectroscopie RPE ont été effectuées afin de déterminer la nature du second site de fixation du NO. La modification du signal avec la concentration de NO est observée uniquement pour l'oxydase aa3. Si le spectre à basses concentrations (NO: CcO<1:1), très similaire à celui obtenu avec l'oxydase ba3, est caractéristique de la liaison du NO sur un hème ayant pour 5ème ligand une histidine, le spectre enregistré à hautes concentrations est similaire à celui mesuré lorsque NO est lié à un hème sans autre ligand en trans. Comme le spectre visible de l'oxydase n'indique pas une rupture de la liaison Fe-NεHis, nous proposons que la 2nd molécule de NO induise une rotation du NO lié à l'hème depuis une position parallèle au plan de l'histidine à une position perpendiculaire à ce plan, rompant ainsi les interactions paramagnétiques entre l'histidine et le NO. Cette interprétation est renforcée par des modélisations de la structure de l'oxydase aa3 avec un et deux molécules de NO dans le site actif. Elles montrent qu'en effet la présence d'un second NO, lié au CuB dans le site actif, induit une rotation du NO lié à l'hème de ~70°. Par ailleurs, à hautes concentrations de NO, il y a apparition d'un signal caractéristique d'une interaction métal de transition-NO, qui peut être attribué, par élimination, à la liaison CuB-NO. L'établissement de la présence simultanée de deux molécules de NO dans le site actif de la CcO aa3 de P. denitrificans dès les faibles concentrations de NO, ouvrent de nouvelles voies dans la compréhension des mécanismes d'inhibition de l'oxydase par le NO. Afin d'étudier plus en détail l'influence de l'environnement du site actif sur la dynamique du NO dans le site actif, le résidu V279 à été substitué par mutagenèse dirigée. Les premiers résultats sur des souches exprimant les oxydases mutées indiquent des modifications de leur activité O2 réductase. Par ailleurs, nous nous sommes intéressé à la vitesse de réduction du site actif par l'hème a. Cette réaction étant trop rapide pour être visualisée par injection d'électrons, nous avons étudié le flux des électrons en sens inverse. Ces expériences ont été effectuées sur l'oxydase mitochondriale dont l'hème a était oxydé et l'hème a3 réduit et lié une molécule de CO. Après photodissociation du CO de l'hème a3, les électrons se répartissent entre les deux hèmes de potentiel redox proche. Par spectroscopie, nous avons ainsi mesuré que 13 ±3 % de ce transfert s'effectue en 1,2 ns; ce temps correspond au transfert intrinsèque. Des études précédentes avaient montré une phase de 3 µs, considérée jusqu'ici comme la phase la plus rapide du ET entre les hèmes. Au regard de nos résultats, cette phase de ET peut être expliquée par le départ du CO du CuB, ce qui modifierait le potentiel redox de l'hème a3. Le transfert intrinsèque des électrons en 1,2 ns, permettrait à l'oxydase, dans des conditions physiologiques ([O2] faibles et e-peu disponibles) de capturer et de réduire l'oxygène en diminuant la durées des périodes où le site actif n'est pas réduit.

[SDV] Life Sciences

Cytochrome c oxydase

Oxyde nitrique

Recombinaison géminée

Transfert d'électrons

Purification de protéines

Spectroscopie résolue dans le temps

Résonance paramagnétique électronique

Modélisation moléculaire

Experimental studies of proton translocation reactions in biological systems : Electrogenic events in heme-copper oxidases

Lepp, Håkan

January 2008

<p>Terminal heme-copper oxidases (HCuOs) are transmembrane proteins that catalyze the final step in the respiratory chain - the reduction of O₂ to H₂O, coupled to energy conservation by generation of an electrochemical proton gradient. The most extensively investigated of the HCuOs are the <i>aa</i>₃-type oxidases, to which cytochrome <i>c</i> oxidase (Cyt<i>c</i>O) belongs, which uses energy released in the O₂-reduction for proton pumping. The bacterial nitric oxide reductases (NORs) have been identified as divergent members of the HCuO-superfamily and are involved in the denitrification pathway where they catalyze the reduction of NO to NO₂. Although as exergonic as O₂-reduction, this reaction is completely non-electrogenic. Among the traditional HCuOs, the <i>cbb</i>₃-type oxidases are the closest relatives to the NORs and as such provide a link between the <i>aa</i>₃ oxidases and the NORs. The <i>cbb</i>₃ oxidases have been shown to pump protons with nearly the same efficiency as the <i>aa</i>₃ oxidases, despite low sequence similarity.</p><p>This thesis is focused on measurements of membrane potential generating reactions during catalysis in the Cyt<i>c</i>O and the <i>cbb</i>₃ oxidase from <i>Rhodobacter sphaeroides</i>, and the NOR from <i>Paracoccus</i> <i>denitrificans</i>, using a time resolved electrometric technique. The pH dependence of the membrane potential generation in Cyt<i>c</i>O showed that only one proton is taken up and that no protons are pumped, at high pH. An additional kinetic phase was also detected at high pH that presumably originates to from charge-transfer within the K-pathway. Possible reasons for uncoupling, and the extent of charge-transfer, were studied using structural variants of Cyt<i>c</i>O. The measurements established that electrons and protons are taken up from the same side of the membrane in NOR. In addition, the directionality for proton uptake in <i>cbb</i>₃ oxidase appeared to be dependent on the choice of substrate while proton pumping was indicated to occur only during O₂-reduction.</p>

heme-copper oxidase

cytochrome c oxidase

nitric oxide reductase

cbb3-type oxidase

proton pumping

uncoupling

charge-transfer

electrogenic event

flow-flash

Biophysics

Biofysik

Boron-doped Diamond Sensors for the Determination of Organic Compounds in Aqueous Media

Hess, Euodia

January 2010

<p>In electrochemical oxidation treatment of wastewater, the electrode material is an important parameter in optimizing oxidative electrochemical processes, since the mechanism and products of several anodic reactions are known to depend on the anode material. The electrochemical oxidation of benzaldehyde, nitrobenzene and m-cresol on bare boron-doped diamond (BDD) electrode was investigated. Cytochrome c was then electrochemically immobilsed onto the functionalized BDD electrode by cyclic voltammetry. Oxidation and reduction reaction mechanism of each flavonoid was studied. There was one oxidation and reduction peaks for quercitin and catechin respectively, and two oxidation and two reduction peaks for rutin. The cytochrome c modified BDD electrode showed good sensitivity for all three flavonoids and low detection limits i.e. 0.42 to 11.24 M as evaluated at oxidation and reduction peaks, respectively.</p>

Boron-doped diamond (BDD) electrode

Benzaldehyde

Nitrobenzene

m-cresol

Quercitin

Catechin

Rutin

Cyclic Voltammetry

Electrochemical Impedance Spectroscopy

UV/Vis spectrosopy.

Experimental studies of proton translocation reactions in biological systems : Electrogenic events in heme-copper oxidases

Lepp, Håkan

January 2008

Terminal heme-copper oxidases (HCuOs) are transmembrane proteins that catalyze the final step in the respiratory chain - the reduction of O2 to H2O, coupled to energy conservation by generation of an electrochemical proton gradient. The most extensively investigated of the HCuOs are the aa3-type oxidases, to which cytochrome c oxidase (CytcO) belongs, which uses energy released in the O2-reduction for proton pumping. The bacterial nitric oxide reductases (NORs) have been identified as divergent members of the HCuO-superfamily and are involved in the denitrification pathway where they catalyze the reduction of NO to NO2. Although as exergonic as O2-reduction, this reaction is completely non-electrogenic. Among the traditional HCuOs, the cbb3-type oxidases are the closest relatives to the NORs and as such provide a link between the aa3 oxidases and the NORs. The cbb3 oxidases have been shown to pump protons with nearly the same efficiency as the aa3 oxidases, despite low sequence similarity. This thesis is focused on measurements of membrane potential generating reactions during catalysis in the CytcO and the cbb3 oxidase from Rhodobacter sphaeroides, and the NOR from Paracoccus denitrificans, using a time resolved electrometric technique. The pH dependence of the membrane potential generation in CytcO showed that only one proton is taken up and that no protons are pumped, at high pH. An additional kinetic phase was also detected at high pH that presumably originates to from charge-transfer within the K-pathway. Possible reasons for uncoupling, and the extent of charge-transfer, were studied using structural variants of CytcO. The measurements established that electrons and protons are taken up from the same side of the membrane in NOR. In addition, the directionality for proton uptake in cbb3 oxidase appeared to be dependent on the choice of substrate while proton pumping was indicated to occur only during O2-reduction.

heme-copper oxidase

cytochrome c oxidase

nitric oxide reductase

cbb3-type oxidase

proton pumping

uncoupling

charge-transfer

electrogenic event

flow-flash

Biophysics

Biofysik

Peroxisomal Targeting Of Pichia Pastoris Cytochrome C During Methanol And Fatty Acid Metabolism

Mohanty, Abhishek

07 1900

Intracellular protein sorting plays a key role in the regulation of cellular metabolism, gene expression, signal transduction and a number of other cellular processes. Proteins targeted to specific cellular compartments contain organelle-specific targeting sequences which interact with various components of the import machinery that are often evolutionarily conserved. For example, proteins targeted to peroxisomes interact with specific receptor proteins through unique peroxisomal targeting signals (PTS) which results in their import into peroxisomal matrix or insertion into peroxisomal membrane. Peroxisomal protein import has been studied in a number of species and several conserved PTS and receptor proteins have been identified. In our study, we report the unexpected finding that cytochrome c (cyt c), which lacks a canonical PTS, is targeted to peroxisomes of the methylotrophic yeast, Pichia pastoris. This is a unique feature of P. pastoris and is not observed in other yeast species such as the conventional yeast, Saccharomyces cerevisiae or other methylotrophic yeasts such as Hansenula polymorpha. Using S. cerevisiae cyc1 null mutant strain as a surrogate model, we demonstrate that P. pastoris cytochrome c (PpCyt c) is targeted to S. cerevisiae peroxisomes indicating that peroxisomal targeting is a unique and inherent property of PpCyt c and the machinery required for this is conserved in S. cerevisiae as well. We further demonstrate that Ppcyt c targeted to the fatty acid-induced peroxisomes of S. cerevisiae is a hemoprotein with covalently attached heme suggesting that PpCyt c synthesized in cytosol is first targeted to mitochondria where heme is added to the apoprotein by cytochrome c heme lyase and the holoprotein is then re-targeted to peroxisomes through an unknown mechanism. Proteins imported into peroxisomes carry specific peroxisomal targeting signals (PTS) known as PTS1 and PTS2. PTS1 is a tripeptide sequence (SKL) at the carboxy terminus of peroxisomal matrix proteins. To investigate whether the carboxy terminus of PpCyt c contain PTS1 or PTS1-like sequences, we made GFP fusion proteins with PpCyt c carboxy terminal amino acids (GFP-ATK, GFP-LAKATK) and examined their ability to localize to peroxisomes. Neither of these two proteins is targeted to peroxisomes indicating that PTS1-like sequences are not involved in peroxisomal targeting of Ppcyt c. Two receptors known as Pex5 and Pex7 are known to be involved in peroxisomal protein import and we therefore examined PpCyt c import into peroxisomes of P. pastoris strains lacking pex5 and pex7. Peroxisomal import of PpCyt c is abolished in pex5 but not pex7 mutant strain indicating that PpCyt c is imported into peroxisomes by a pex5-dependent but PTS1independent pathway. Since we observed significant amino acid differences between PpCyt c and S. cerevisiae cytochrome c (ScCyt c) in their carboxy-and amino-termini, we interchanged these amino acids between PpCyt c and ScCyt c and examined their subcellular localization. Such studies revealed that swapping the N-terminal or C-terminal amino acids of PpCyt c with those of S. cerevisaie cytochrome c (ScCyt c) abolishes peroxisomal localization of PpCyt c. Thus, both N-and C-terminal amino acids of PpCyt c are essential for its import into peroxisomes. Interestingly, in a number of fungal species, the N-and C-terminal amino acid sequences of cytochrome c are identical to those of PpCyt c indicating that peroxisomal targeting of cytochrome c may be observed in other yeast species as well. S. cerevisiae cells expressing PpCyt c exhibit several unique biochemical properties. S. cerevisiae cells expressing PpCyt c grow more rapidly than those expressing ScCyt c when cultured on media containing oleic acid as the sole carbon source and uptake of C-oleic acid from the medium as well as its assimilation into neutral lipids is quantitatively higher in the former. Surprisingly, the phenotype of S. cerevisiae cells expressing PpCyt c is dramatically altered such that the kinetics of growth on fatty acid containing media as well as lipid profile appear to be identical to those of P. pastoris rather than S. cerevisiae. Thus peroxisomal targeting of cytochrome c dramatically alters the kinetics of growth of S. cerevisiae cells in fatty acid containing media as well as the lipid metabolism raising several interesting questions on the molecular mechanisms involved in the alteration of phenotype of S. cerevisiae. It is likely that peroxisomal targeting of cytochrome c results in quantitative as well as qualitative changes in fatty acid metabolism and this opens up new vistas for the bioconversion of fatty acids into value-added lipid products by metabolic engineering. Based on these studies, we propose a new role for cytochrome c in peroxisomal fatty acid metabolism. Our study demonstrates that evolutionarily conserved proteins such as cytochrome c can acquire unique, species-specific functions that may be of great physiological significance to that organism.

Pichia Pastoris

Cell Chromes

Cytochromes

Methanol

Fatty Acids

Fatty Acid Metabolism

Methanol Metabolism

Peroxisomes

Methylotropic Yeast

Pichia Pastoris Cytochrome c (Cyt c)

Microbiology