Alternative oxidase in the branched mitochondrial respiratory network: an overview on structure, function, regulation, and role

Plants and some other organisms including protists possess a complex branched respiratory network in their mitochondria. Some pathways of this network are not energy-conserving and allow sites of energy conservation to be bypassed, leading to a decrease of the energy yield in the cells. It is a challenge to understand the regulation of the partitioning of electrons between the various energy-dissipating and -conserving pathways. This review is focused on the oxidase side of the respiratory chain that presents a cyanide-resistant energy-dissipating alternative oxidase (AOX) besides the cytochrome pathway. The known structural properties of AOX are described including transmembrane topology, dimerization, and active sites. Regulation of the alternative oxidase activity is presented in detail because of its complexity. The alternative oxidase activity is dependent on substrate availability: total ubiquinone concentration and its redox state in the membrane and O2 concentration in the cell. The alternative oxidase activity can be long-term regulated (gene expression) or short-term (post-translational modification, allosteric activation) regulated. Electron distribution (partitioning) between the alternative and cytochrome pathways during steady-state respiration is a crucial measurement to quantitatively analyze the effects of the various levels of regulation of the alternative oxidase. Three approaches are described with their specific domain of application and limitations: kinetic approach, oxygen isotope differential discrimination, and ADP/O method (thermokinetic approach). Lastly, the role of the alternative oxidase in non-thermogenic tissues is discussed in relation to the energy metabolism balance of the cell (supply in reducing equivalents/demand in energy and carbon) and with harmful reactive oxygen species formation.

Activity and functional interaction of alternative oxidase and uncoupling protein in mitochondria from tomato fruit

Cyanide-resistant alternative oxidase (AOX) is not limited to plant mitochondria and is widespread among several types of protists. The uncoupling protein (UCP) is much more widespread than previously believed, not only in tissues of higher animals but also in plants and in an amoeboid protozoan. The redox energy-dissipating pathway (AOX) and the proton electrochemical gradient energy-dissipating pathway (UCP) lead to the same final effect, i.e., a decrease in ATP synthesis and an increase in heat production. Studies with green tomato fruit mitochondria show that both proteins are present simultaneously in the membrane. This raises the question of a specific physiological role for each energy-dissipating system and of a possible functional connection between them (shared regulation). Linoleic acid, an abundant free fatty acid in plants which activates UCP, strongly inhibits cyanide-resistant respiration mediated by AOX. Moreover, studies of the evolution of AOX and UCP protein expression and of their activities during post-harvest ripening of tomato fruit show that AOX and plant UCP work sequentially: AOX activity decreases in early post-growing stages and UCP activity is decreased in late ripening stages. Electron partitioning between the alternative oxidase and the cytochrome pathway as well as H+ gradient partitioning between ATP synthase and UCP can be evaluated by the ADP/O method. This method facilitates description of the kinetics of energy-dissipating pathways and of ATP synthase when state 3 respiration is decreased by limitation of oxidizable substrate.

Angiotensin II stimulates MCP-1 production in rat glomerular endothelial cells via NAD(P)H oxidase-dependent nuclear factor-kappa B signaling

Angiotensin II (Ang II) plays a crucial role in the pathogenesis of renal diseases. The objective of the present study was to investigate the possible inflammatory effect of Ang II on glomerular endothelial cells and the underlying mechanism. We isolated and characterized primary cultures of rat glomerular endothelial cells (GECs) and observed that Ang II induced the synthesis of monocyte chemoattractant protein-1 (MCP-1) in GECs as demonstrated by Western blot. Ang II stimulation, at concentrations ranging from 0.1 to 10 µm, of rat GECs induced a rapid increase in the generation of reactive oxygen species as indicated by laser fluoroscopy. The level of p47phox protein, an NAD(P)H oxidase subunit, was also increased by Ang II treatment. These effects of Ang II on GECs were all reduced by diphenyleneiodonium (1.0 µm), an NAD(P)H oxidase inhibitor. Ang II stimulation also promoted the activation of nuclear factor-kappa B (NF-κB). Telmisartan (1.0 µm), an AT1 receptor blocker, blocked all the effects of Ang II on rat GECs. These data suggest that the inhibition of NAD(P)H oxidase-dependent NF-κB signaling reduces the increase in MCP-1 production by GECs induced by Ang II. This may provide a mechanistic basis for the benefits of selective AT1 blockade in dealing with chronic renal disease.

Correlation between total nitrite/nitrate concentrations and monoamine oxidase (types A and B) and semicarbazide-sensitive amine oxidase enzymatic activities in human mesenteric arteries from non-diabetic and type 2 diabetic patients

The aim of this study was to determine the correlation between total nitrite/nitrate concentrations (NOx) and the kinetic parameters of monoamine oxidase enzymes (MAO-A and MAO-B) and semicarbazide-sensitive amine oxidase (SSAO) in human mesenteric arteries. Arteries were from non-diabetic and type 2 diabetic patients with sigmoid or rectum carcinoma for whom surgery was the first option and who were not exposed to neo-adjuvant therapy. Segments of human inferior mesenteric arteries from non-diabetic (61.1 ± 8.9 years old, 7 males and 5 females, N = 12) and type 2 diabetic patients (65.8 ± 6.2 years old, 8 males and 4 females, N = 12) were used to determine NOx concentrations and the kinetic parameters of MAO-A, MAO-B and SSAO by the Griess reaction and by radiochemical assay, respectively. The NOx concentrations in arteries from diabetic patients did not differ significantly from those of the non-diabetic group (10.28 ± 4.61 vs 10.71 ± 4.32 nmol/mg protein, respectively). In the non-diabetic group, there was a positive correlation between NOx concentrations and MAO-B parameters: Km (r = 0.612, P = 0.034) and Vmax (r = 0.593, P = 0.042), and a negative correlation with the SSAO parameters: Km (r = -0.625, P = 0.029) and Vmax (r = -0.754, P = 0.005). However, in the diabetic group no correlation was found between NOx concentrations and the three kinetic parameters of the enzymes. These results suggest an important function of sympathetic nerves and vascular NOx concentrations in arteries of non-diabetic patients. Thus, these results confirm the importance of a balance between oxidants and antioxidants in the maintenance of vascular homeostasis to prevent oxidative stress.

Caracterização imunoquímica da ACC (ácido 1-carboxílico-1-aminociclopropano) oxidase em frutos climatéricos

Com o objetivo de caracterizar, por via imunoquímica, a enzima ACC (ácido 1-carboxílico-1-aminociclopropano) oxidase em frutos climatéricos, foram preparados anticorpos policlonais específicos para esta proteína. Utilizou-se, como antígeno, uma proteína recombinante, produzida em Escherichia coli K38/pGP1,2, contendo o vetor de expressão pT7-7A4 no qual foi inserido um clone de DNA da ACC oxidase. A especificidade dos anticorpos foi demonstrada pela técnica de "Western blot", a partir de extratos protéicos de maçãs e tomates em diferentes estágios de maturação. Verificou-se que o aumento da produção de etileno, quando os frutos passaram do estágio pré-climatérico para o climatérico, está diretamente correlacionada com o aumento da síntese da ACC oxidase. Em estágios de maturação mais avançados houve uma redução da produção de etileno e da atividade ACC oxidase, mas esta proteína continuava presente. Quando o "Western blot" foi realizado com tomates transgênicos, onde a produção de etileno e a síntese da ACC oxidase foram inibidos em mais de 95%, nenhuma reação imunoquímica foi detectada. O conjunto de resultados obtidos indica que os anticorpos detectam especificamente ACC oxidase.

TEOR DE VITAMINA C, ATIVIDADE DE ASCORBATO OXIDASE E PERFIL SENSORIAL DE MANGA (Mangífera índica L.) VAR. HADEN, DURANTE O AMADURECIMENTO

A composição química e bioquímica da manga, varia de acordo com as condições da cultura, variedade e estágio de maturação, geralmente contendo alto conteúdo de ácido ascórbico. Com o objetivo de estabelecer o papel da ascorbato oxidase [E.C.1.10.3.3], sobre os níveis de ácido ascórbico durante o processo de amadurecimento de manga (Mangífera índica L.) var. Haden, foram analisadas amostras da fruta correspondentes aos estágios verde maturo (zero) e armazenadas por 2, 4, 6, 8, 10, 12 e 14 dias a 20 ± 2oC. As amostras foram obtidas das polpas cortadas em pequenos cubos de aproximadamente 8 cm3 de 8 mangas com textura sem diferença significativa entre elas, medidas com auxílio de um penetrômetro Magness-Taylor. Em cada amostra foi determinada atividade de ascorbato oxidase para verificar sua participação em possíveis quedas de ácido ascórbico durante o amadurecimento das frutas. Também foram determinados periodicamente o teor de ácido ascórbico e o perfil sensorial durante o período de amadurecimento. A atividade enzimática foi determinada espectrofotometricamente a 245 nm 30oC, o ácido ascórbico foi analisado de acordo com a metodologia da AOAC modificada e a análise sensorial através de análise descritiva quantitativa. Os dados da análise sensorial foram analisados através de análise de variância (ANOVA), testes de médias de Tukey, análise de componentes principais e análise discriminante por passos. Durante o amadurecimento, a atividade da ascorbato oxidase aumentou e o teor de ácido ascórbico diminuiu, havendo significativa (p£0,05) correlação linear negativa (r=-0,98). Os termos descritores para a manga foram: sabor característico, aroma característico, acidez, adstringência, coloração amarela da polpa, doçura e suculência. O perfil sensorial apresentou significativa melhora com o amadurecimento. Todos os atributos sensoriais aumentaram significativamente (p£0,05) durante o amadurecimento das mangas, exceto acidez e adstringência.

Inibição da síntese da ACC (ácido 1-carboxílico-1-aminociclopropano) oxidase em maçãs frigoconservadas em atmosfera controlada

Foi estudada a expressão da ACC oxidase em maçãs, cv. Jonagold, colhidas no estádio pré-climatérico e armazenadas sob refrigeração em atmosfera normal (0ºC, 95% UR - AN) e controlada (0ºC, 95% UR, 1,5% O2 e 2,5% CO2 - AC), durante 180 dias. Na instalação do experimento, aos 90 e aos 120 dias, foram coletadas amostras para a determinação da firmeza de polpa, da acidez total titulável, dos sólidos solúveis totais, da produção de etileno, da atividade ACC oxidase e para a detecção imunoquímica das isoformas desta enzima. A dosagem da atividade ACC oxidase foi realizada por cromatografia gasosa a partir de extrato protéico solúvel acrescido de 250µM de ACC, 10µL de sulfato ferroso e 30µL de ascorbato de sódio. Para a detecção imunoquímica utilizou-se a técnica "western blot", com anticorpos policlonais anti-ACC oxidase de maçã, após separação das proteínas em eletroforese e isoeletrofocalização. Não foi detectada ACC oxidase em maçãs pré-climatéricas. Porém, após 120 horas em condições ambientais, houve a síntese dessa enzima e um incremento na produção de etileno. A refrigeração não exerceu controle na síntese da ACC oxidase e produção de etileno, resultando em significativas perdas físico-químicas nas frutas armazenadas em AN. Já a utilização de AC permitiu controlar a via de biossíntese do etileno, pela inibição da síntese da ACC oxidase, mantendo o material com boa qualidade para o consumo in natura. A adição de ACC e dos cofatores aumentou a atividade ACC oxidase e alterou o pI da ACC oxidase.

EFEITO DO TRATAMENTO TÉRMICO SOBRE A ATIVIDADE DE PEROXIDASE (POD) E POLIFENOLOXIDASE (PPO) EM MAÇÃ (Mallus comunis)

O extrato enzimático foi preparado a partir da polpa e casca da maçã de cultivares Fuji e Gala utilizando tampão fosfato de sódio 100mM, pH 5,0 como solução extratora. Dentre as análises determinou-se a concentração de proteína nos extratos enzimáticos concentrados de polpa e casca, sendo que o cultivar Fuji apresentou teores mais elevados em comparação ao cultivar Gala. Os tratamentos térmicos foram realizados nas temperaturas de 60, 65, 70 e 75°C por períodos que variaram de 1 a 10 minutos, sendo observado diminuição da atividade de POD e PPO com o aumento da temperatura e tempo; no entanto a POD não chegou a ser inativada em nenhum dos tratamentos realizados. A PPO foi inativada totalmente após 10 minutos de tratamento a 75°C. A eletroforese mostrou uma composição diferente de isoenzimas aniônicas e catiônicas da peroxidase.

Peroxidase (POD) e polifenoloxidase (PPO) em polpa de goiaba (Psidium guajava R.)

A peroxidase E.C. 1.11.1.7 (POD) e a polifenoloxidase E.C. 1.10.3.1 (PPO) foram extraídas da polpa de goiaba. Os extratos foram preparados utilizando-se a polpa da goiaba e solução tampão fosfato de sódio 100mM com pH variando de 6,0 a 7,0 em intervalos de 0,1. Foi determinada a atividade enzimática da peroxidase e da polifenoloxidase desses extratos, a fim de se observar o melhor pH para a extração de cada enzima. O pH 6,3 foi considerado o melhor para a extração da POD da polpa de goiaba, enquanto que para PPO, o pH foi 6,8. Os extratos brutos de POD e PPO foram submetidos a temperaturas de 60 °C, 65 °C, 70 °C, 75 °C e 80 °C por um período de 0 a 10 min. Os resultados demonstraram um decréscimo da atividade enzimática nos extratos com o aumento da temperatura e do tempo. No entanto, a total inativação não foi atingida o que sugere a presença de isoenzimas termoresistentes.

Atividades das enzimas peroxidase (POD) e polifenoloxidase (PPO) nas uvas das cultivares benitaka e rubi e em seus sucos e geléias

A peroxidase e a polifenoloxidase estão relacionadas com o escurecimento de frutas, por isso o controle das atividades destas enzimas é de grande importância para a tecnologia de alimentos. Neste trabalho estudaram-se as atividades dessas enzimas nas uvas frescas das cultivares Benitaka e Rubi, bem como as suas termoestabilidades e as suas atividades enzimáticas residuais no suco e nas geléias (extra e light). Foi também avaliada a qualidade microbiológica dos produtos elaborados. As atividades da enzima POD, tanto da fração solúvel quanto da ionicamente ligada, foram semelhantes nas uvas das duas variedades, Benitaka e Rubi. A atividade da enzima polifenoloxidase foi maior na variedade Rubi. As operações de cocção e pasteurização foram mais eficientes para baixar as atividades enzimáticas residuais da POD e PPO quando aplicadas às geléias de uva, em comparação com o suco. Embora não foram suficientes para a total inativação enzimática, essas operações reduziram-nas consideravelmente, e foram eficientes para garantir seguridade microbiológica dos produtos, geléias e suco.

Reactivity characteristics of cytochrome c, cytochrome oxidase and the electrostatic cytochrome c - cytochrome oxidase complex /

The mechanism whereby cytochrome £ oxidase catalyses elec-. tron transfer from cytochrome £ to oxygen remains an unsolved problem. Polarographic and spectrophotometric activity measurements of purified, particulate and soluble forms of beef heart mitochondrial cytochrome c oxidase presented in this thesis confirm the following characteristics of the steady-state kinetics with respect to cytochrome £: (1) oxidation of ferrocytochrome c is first order under all conditions. -(2) The relationship between sustrate concentration and velocity is of the Michaelis-Menten type over a limited range of substrate. concentrations at high ionic strength. (3) ~he reaction rate is independent from oxygen concentration until very low levels of oxygen. (4) "Biphasic" kinetic plots of enzyme activity as a function of substrate concentration are found when the range of cytochrome c concentrations is extended; the biphasicity ~ is more apparent in low ionic strength buffer. These results imply two binding sites for cytochrome £ on the oxidase; one of high affinity and one of low affinity with Km values of 1.0 pM and 3.0 pM, respectively, under low ionic strength conditions. (5) Inhibition of the enzymic rate by azide is non-c~mpetitive with respect to cytochrome £ under all conditions indicating an internal electron transfer step, and not binding or dissociation of £ from the enzyme is rate limiting. The "tight" binding of cytochrome '£ to cytochrome c oxidase is confirmed in column chromatographic experiments. The complex has a cytochrome £:oxidase ratio of 1.0 and is dissociated in media of high ionic strength. Stopped-flow spectrophotometric studies of the reduction of equimolar mixtures and complexes of cytochrome c and the oxidase were initiated in an attempt to assess the functional relevance of such a complex. Two alternative routes -for reduction of the oxidase, under conditions where the predominant species is the £ - aa3 complex, are postulated; (i) electron transfer via tightly bound cytochrome £, (ii) electron transfer via a small population of free cytochrome c interacting at the "loose" binding site implied from kinetic studies. It is impossible to conclude, based on the results obtained, which path is responsible for the reduction of cytochrome a. The rate of reduction by various reductants of free cytochrome £ in high and low ionic strength and of cytochrome £ electrostatically bound to cytochrome oxidase was investigated. Ascorbate, a negatively charged reagent, reduces free cytochrome £ with a rate constant dependent on ionic strength, whereas neutral reagents TMPD and DAD were relatively unaffected by ionic strength in their reduction of cytochrome c. The zwitterion cysteine behaved similarly to uncharged reductants DAD and TI~PD in exhibiting only a marginal response to ionic strength. Ascorbate reduces bound cytochrome £ only slowly, but DAD and TMPD reduce bound cytochrome £ rapidly. Reduction of cytochrome £ by DAD and TMPD in the £ - aa3 complex was enhanced lO-fold over DAD reduction of free £ and 4-fold over TMPD reduction of free c. Thus, the importance of ionic strength on the reactivity of cytochrome £ was observed with the general conclusion being that on the cytochrome £ molecule areas for anion (ie. phosphate) binding, ascorbate reduction and complexation to the oxidase overlap. The increased reducibility for bound cytochrome £ by reductants DAD and TMPD supports a suggested conformational change of electrostatically bound c compare.d to free .£. In addition, analysis of electron distribution between cytochromes £ and a in the complex suggest that the midpotential of cytochrome ~ changes with the redox state of the oxidase. Such evidence supports models of the oxidase which suggest interactions within the enzyme (or c - enzyme complex) result in altered midpoint potentials of the redox centers.

Effect of citrate on the redox properties of cytochrome C and its kinetic and binding behaviour with cytochrome oxidase /

Increasing citrate concentration, at constant ionic strength (30 mM) decreases the rate of cytochrome ~ reduction by ascorbate. This effect is also seen at both high (600 mM) and low (19 mM) ionic strengths, and the Kapp for citrate increases with increasing ionic strength. Citrate binds d both ferri -and ferrocytochrome ~, but with a lower affinity for the latter form (Kox . .red d = 2 mM, Kd = 8 mM) as shown by an equilibrium assay with N,N,N',N', Tetramethyl E- phenylenediamine. The reaction of ferricytochrome ~with cyanide is also altered in the presence of citrate: citrate increases the K~PP for cyanide. Column chromatography of cytochrome ~-cytochrome oxidase mixtures shows citrate increases the dissociation constant of the complex. These results are confirmed in kinetic assays for the "loose"site (Km = 20 pM) only. The effect of increasing citrate observable at the "tight" site (Km = 0.25 pM) is on the turnover number and not on the K . These results suggest a mechanism m where anion binding to cytochrome £ at the tight site affects the equilibrium between two forms of cytochrome c bound cytochrome oxidase: an active and an inactive one.

Analysis of a temperature sensitive mutation affecting aldehyde oxidase activity in Drosophila melanogaster

A strain of Drosophila melanogaster (mid america stock culture no. hl16) has been reported to be deficient in aldehyde oxidase activity (Hickey and Singh 1982). This strain was characterized during the course of this study and compared to other mutant strains known to be deficient in aldehyde oxidase activity. During the course of this investigation, the hl16 strain was found to be temperature sensitive in its viability. It was found that the two phenotypes, the enzyme deficiency, and the temperature sensitive lethality were the result of two different mutations, both mapping to the X-chromosome. These two mutations were found to be separable by recombination. The enzyme deficiency was found to map to the same locus as the cinnamon mutation, another mutation which affects aldehyde oxidase production. The developmental profile of aldehyde oxidase in the hl16 strain was compared to the developmental profile in the Canton S wild type strain. The aldehyde oxidase activity in adult hl16 individuals was also compared to that of various other strains. It was also found that the aldehyde oxidase activity was temperature sensitive in the adult flies. The temperature sensitive lethality mutation was mapped to position 1-0.1.

Comparative study of bovine heart and bacillus subtilis cytochrome c oxidase vesicles and the influence of bulk pH on cytochrome c oxidase components

Studies on the steady state behavior of soluble cytochrome c oxidase are extensive. These studies have examined the influence of ionic strength and pH and may provide answers to questions such as the link between proton translocation and charge separation. The present study examined the influence of external bulk pH on ApH formation, biphasic kinetics, and steady state reduction of cytochromes c and a of cytochrome c oxidase in proteoliposomes. Bulk pH has an appreciable effect on ApH formation and steady state reduction levels of cytochromes c and 8. Bulk pH affected total Vmax and Km at the low affinity binding site of cytochrome c. This study also examined the influence of bovine serum albumin and free fatty acids on proton pumping activity in bovine heart proteoliposomes. Proton pumping activity decreased after treatment with BSA, and was subsequently reinstated after further treatment with FFA. Much study in the superfamily of haem/copper oxidases has recently been devoted to the bacterial oxidases. The present study has examined some protein composition characteristics and bioenergetic features of Bacillus subtilis cytochrome caa3 oxidase. Results provide evidence for the structural composition of the enzyme in relation to the covalently bound cytochrome c to the oxidas~. Bioenergetically, caa3 COV showed appreciable proton pumping activity. Steady state analysis of the caa3 COV showed significantly different cytochrome c and a reduction characteristics compared to the bovine enzyme.

Effects of large anphiphilic ligands upon the spectra and kinetics of cytochrome C oxidase

Cytoch ro me c oxidase (ferrocytochrome c : 02 oxidoreductase ; EC 1.9. 3.1) is the terminal enzyme in the mitochondrial electron transport chain, catalyzing the transfer of electrons from ferrocytochrome c to molecular oxygen. The effects of two large amphiphilic molecules .. valinomycin and dibucaine upon the spectra of the isolated enzyme and upon the activity of both isolated enzyme and enzyme in membrane systems are investigated by using spectrophotometric and oxygen electrode techniques. The results show that both valinomycin and dibucaine change the Soret region of the spectrum and cause a partial inhibition in a concentration range higher than that in which they act as ionophores. It is concluded that both valinomycin and dibucain~ binding induce a conformational change of the protein structure which modifies the spectrum of the a3 CUB centre and diminishes the rate of electron transfer between cytochrome a and the binuclear centre.