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Adenine Dinucleotide (adenine + dinucleotide)

Distribution by Scientific Domains

Life Sciences	37%
Chemistry	37%
Medical Sciences	18%
Polymers and Materials Science	7%

Kinds of Adenine Dinucleotide

flavin adenine dinucleotide

nicotinamide adenine dinucleotide

Terms modified by Adenine Dinucleotide

adenine dinucleotide phosphate

Selected Abstracts

Electrocatalysis and Amperometric Detection of the Reduced Form of Nicotinamide Adenine Dinucleotide at Toluidine Blue/Zinc Oxide Coated Electrodes

ELECTROANALYSIS, Issue 18 2007
Ashok Kumar
Abstract Thin toluidine blue (TBO) and zinc oxide (ZnO) hybrid films have been grown on glassy carbon electrode (GCE) and indium tin oxide coated (SnO2) glass electrodes by using cyclic voltammetry (CV). Scanning electron microscopy (SEM) images revealed spherical and beads-like shape of highly oriented TBO/ZnO hybrid films. Energy dispersive spectrometry (EDS) results declared that the films composed mainly of Zn and O. Moreover, TBO/ZnO hybrid films modified electrode is electrochemically active, dye molecules were not easily leached out from the ZnO matrix and the hybrid films can be considered for potential applications as sensor for amperometric determination of reduced nicotinamide adenine dinucleotide (NADH) at 0.0,V. A linear correlation between electrocatalytic current and NADH concentration was found to be in the range between 25,,M and 100,,M in phosphate buffer. In addition, we observed that dopamine, ascorbic acid and uric acid are not interference in amperometric detection of NADH in this proposed method. In addition, TBO/ZnO hybrid film modified electrode was highly stable and its response to the NADH also remained relentless. [source]

Synthesis of Nicotinamide Adenine Dinucleotide (NAD) Analogues with a Sugar Modified Nicotinamide Moiety

HELVETICA CHIMICA ACTA, Issue 7 2007
Natasha Goulioukina
Abstract The synthesis of nicotinamide adenine dinucleotide (NAD) analogues in which the ribose unit of the nicotinamide moiety is replaced by a hexitol, altritol, and cyclohexenyl sugar mimic is described. [source]

Electroactivity of Polyaniline Multilayer Films in Neutral Solution and Their Electrocatalyzed Oxidation of ,-Nicotinamide Adenine Dinucleotide

ADVANCED FUNCTIONAL MATERIALS, Issue 6 2003
S. Tian
Abstract In this paper, we report an alternative simple method to shift the electroactivity of polyaniline (PANI) films to neutral pH conditions by forming multilayer assemblies with poly(anions) using the layer-by-layer (LBL) deposition method. A series of self-assembled PANI multilayer films with poly(anions), such as sulfonated polyaniline (SPANI), poly(acrylic acid) (PAA), poly(vinyl sulfonate) (PVS), and poly(styrene sulfonate) (PSS), were prepared by the LBL method. Their electrochemical behavior and catalytic ability for the oxidation of ,-nicotinamide adenine dinucleotide (NADH) in neutral solution were investigated by electrochemistry (EC) combined with surface plasmon spectroscopy (SPS) and the quartz crystal microbalance (QCM) technique. Results indicated that all the films showed very good stability, reversibility, and electroactivity in neutral solution. All the multilayer films can electrocatalyze the oxidation of NADH, with the catalytic ability of PANI/SPANI being higher than that of the other assemblies under the same conditions. The catalytic abilities of the films with the same thickness prepared by the copolymerization method and the LBL method were also compared. [source]

Interaction of Flavin Adenine Dinucleotide (FAD) with a Glassy Carbon Electrode Surface

CHEMISTRY & BIODIVERSITY, Issue 8 2008
Haizhen Wei
Abstract The interaction of flavin adenine dinucleotide (FAD) with a glassy carbon electrode (GCE) surface was investigated in terms of the FAD adsorption thermodynamics and kinetics, the subsequent electroreduction mechanism, and the corresponding electron-transfer rate. The kinetics of FAD electroreduction at the GCE was found to be an adsorption-controlled process. A set of electroreduction kinetic parameters was calculated: the true number of electrons involved in the FAD reduction, n=1.76, the apparent transfer coefficient, ,app=0.41, and the apparent heterogeneous electron-transfer rate constant, kapp=1.4,s,1. The deviation of the number of exchanged electrons from the theoretical value for the complete reduction of FAD to FADH2 (n=2) indicates that a small portion of FAD goes to a semiquinone state during the redox process. The FAD adsorption was well described by the Langmuir adsorption isotherm. The large negative apparent Gibbs energy of adsorption (,Gads=,39.7 ±0.4,kJmol,1) indicated a highly spontaneous and strong adsorption of FAD on the GCE. The energetics of the adsorption process was found to be independent of the electrode surface charge in the electrochemical double-layer region. The kinetics of FAD adsorption was modeled using a pseudo -first-order kinetic model. [source]

Effect of Enzyme and Cofactor Immobilization on the Response of Ethanol Oxidation in Zirconium Phosphate Modified Biosensors

ELECTROANALYSIS, Issue 10 2010
Mitk'El
Abstract Two different self-contained ethanol amperometric biosensors incorporating layered [Ru(phend)2bpy]2+ -intercalated zirconium phosphate (ZrP) as the mediator as well as yeast -alcohol dehydrogenase (y- ADH) and its cofactor nicotinamide adenine dinucleotide (NAD+) were constructed to improve upon a design previously reported where only this mediator was immobilized in the surface of a modified electrode. In the first biosensor, a [Ru(phend)2bpy]2+ -intercalated ZrP modified carbon paste electrode (CPE) was improved by immobilizing in its surface both y- ADH and NAD+ using quaternized Nafion membrane. In the second biosensor, a glassy carbon electrode was modified with [Ru(phend)2bpy]2+ -intercalated ZrP, y- ADH, and NAD+ using Nafion as the holding matrix. Calibration plots for ethanol sensing were constructed in the presence and absence of ZrP. In the absence of ZrP in the surface of the modified glassy carbon electrode, leaching of ADH was observed as detected by UV-vis spectrophotometry. Ethanol sensing was also tested in the presence and absence of ascorbate to measure the selectivity of the sensor for ethanol. These two ethanol biosensors were compared to a previously reported one where the y -ADH and the NAD+ were in solution, not immobilized. [source]

Synthesis of Carbon Nanofibers for Mediatorless Sensitive Detection of NADH

ELECTROANALYSIS, Issue 15 2008
Yang Liu
Abstract Highly sensitive amperometric detection of dihydronicotinamide adenine dinucleotide (NADH) by using novel synthesized carbon nanofibers (CNFs) without addition of any mediator has been proposed. The CNFs were prepared by combination of electrospinning technique with thermal treatment method and were applied without any oxidation pretreatment to construct the electrochemical sensor. In amperometric detection of NADH, a linear range up to 11.45,,M with a low detection limit of 20,nM was obtained with the CNF-modified carbon paste electrode (CNF-CPE). Good selectivity was exhibited for the simultaneous detection of NADH and its common interferent of ascorbic acid (AA) by differential pulse voltammogram. The attractive electrochemical performance and the versatile preparation process of the CNF-CPE made it a promising candidate for designing effective NADH sensor. [source]

Electrocatalysis and Amperometric Detection of the Reduced Form of Nicotinamide Adenine Dinucleotide at Toluidine Blue/Zinc Oxide Coated Electrodes

Electrochemical Preparation of Poly(acriflavine) Film-Modified Electrode and Its Electrolcatalytic Properties Towards NADH, Nitrite and Sulfur Oxoanions

ELECTROANALYSIS, Issue 9 2007
Shen-Ming Chen
Abstract Electrochemical polymerization of acriflavine (AF) was carried out onto glassy carbon electrodes (GCE) from the aqueous buffer solution containing 1.5×10,3,M AF monomer (pH,3.5) which produced a thin electrochemically active film. This is noted as poly(AF) film modified electrodes (PAF/GCE). This modified electrode was shown a stable reversible redox couple centered at +0.22,V in pH,3.5 buffer solutions. PAF/GCE was found to be more stable in acidic solutions and its formal potential was found to be pH dependent with a slope close to ,60,mV/pH. The electrochemical deposition kinetics of poly(AF) onto gold coated quartz crystal was studied by using electrochemical quartz crystal microbalance (EQCM) combined with cyclic voltammetry (CV). PAF/GCE was found be good mediator for electrochemical oxidation of reduced nicotinamide adenine dinucleotide (NADH) in pH,5 buffer solutions. The electrocatalytic oxidation of SO and electrocatalytic reduction of NO, SO and S2O were carried out at PAF/GCE electrode in acidic aqueous solutions. The electrocatalytic oxidation of NADH was also investigated by using amperometric method. [source]

Low Potential Detection of NADH at Titanium-Containing MCM-41,Modified Glassy Carbon Electrode

ELECTROANALYSIS, Issue 5 2007
Zhihui Dai
Abstract Titanium-containing MCM-41 (Ti-MCM-41) modified glassy carbon electrode (GCE) can exhibit an excellent electrocatalytic activity towards the oxidation of ,-Nicotinamide adenine dinucleotide (NADH). A dramatic decrease in the over-voltage of NADH oxidation reaction is observed at 0.28,V (vs. SCE). The modified electrode is found to be stable and reproducible. The electrode shows a linear response for a wide range of 10,1200,,M NADH and the detection limit is 8.0,,M. Ti-MCM-41 mesoporous molecular sieves provide an efficient matrix for development of NADH biosensors and the prepared electrode not only can be used to detect the concentration of NADH in biochemical reaction, but also as the potential matrix of the construction of dehydrogenases biosensor. [source]

New Strategy for Dehydrogenase Amperometric Biosensors Using Surfactant to Enhance the Sensitivity of Diaphorase/Ferrocene Modified Carbon Paste Electrodes for Electrocatalytic Oxidation of NADH

ELECTROANALYSIS, Issue 13 2003
César Ramírez-Molina
Abstract A carbon paste electrode (CPE) modified with diaphorase (DAP) and ferrocene (FcH) has been developed for determination of NADH at low working potential. The sensitivity and operational stability, towards the detection of the reduced form of the nicotinamide adenine dinucleotide (NADH) in flow injection analysis (FIA), were greatly improved (5 times) upon adding Tween 20 into the electrode matrix. The magnitude of the amperometric signal was dependent on DAP, FcH and surfactant loading, into the modified carbon paste electrode. A rapid and repeatable response was observed to the variation of NADH concentration in the vicinity of the electrode surface. Such advantages of the DAP/FcH/Tween 20 modified carbon paste were successfully used in the construction of L -lactate dehydrogenase modified electrodes. The use of this new approach can be generalized to other dehydrogenases and represents a decisive step for a versatile preparation method of amperometric biosensors. [source]

Compound heterozygosity of two missense mutations in the NADH-cytochrome b5 reductase gene of a Polish patient with type I recessive congenital methaemoglobinaemia

EUROPEAN JOURNAL OF HAEMATOLOGY, Issue 6 2003
Dorota Grabowska
Abstract: A case of type I methaemoglobinaemia observed in a Polish subject with compound heterozygosity for two mutations in the reduced nicotinamide adenine dinucleotide (NADH) cytochrome b5 reductase (b5R) gene is described. One is a novel mutation 647T,C which leads to substitution of isoleucine by threonine at position 215 (I215T). This maternal mutation was found in several family members. A previously known mutation, 757G,A, leads to the replacement of valine by methionine at position 252 (V252M). The latter mutation was found also in the father and one of the two brothers. The effects of these mutations were analysed on a model of the human b5R protein obtained by homology modelling. Although both amino acid substitutions are located in the NADH-binding domain, the whole protein structure, especially the region between the flavin adenine dinucleotide and NADH-binding domains, is disturbed. The structural changes in the I215T mutant are less prominent than those in the V252M mutant. We presume that the 647T,C mutation is a type I mutation, however, it has not been observed in the homozygous state. [source]

Nitric oxide and thyroid gland: modulation of cardiovascular function in autonomic-blocked anaesthetized rats

EXPERIMENTAL PHYSIOLOGY, Issue 3 2004
Andrea Lorena Fellet
We have previously reported that acute administration of NG -nitro- l -arginine methyl ester (l -NAME) increases the mean arterial pressure (MAP) and heart rate (HR) in autonomic-blocked (CAB) anaesthetized rats. In the present study we examined whether thyroid and adrenal glands are involved in these pressor and chronotropic responses. Sprague-Dawley rats were studied after bilateral vagotomy and ganglionic blockade with hexamethonium (10 mg kg,1), and stabilization of MAP with infusion of phenylephrine (PE) (6 ,g kg,1 min,1). The rats were divided into groups: L, CAB; PE, CAB + PE bolus (6 ,g kg,1); L-TX, thyroidectomy + CAB; L-AX, adrenalectomy + CAB; TX, only thyroidectomy; C, CAB. L, L-AX and L-TX groups received a bolus of l -NAME (7.5 mg kg,1). Triiodothyronine (T3), thyroxin (T4) and thyrotropin (TSH) levels were measured in L and L-TX rats before and after l -NAME administration. Reduced nicotamide adenine dinucleotide (NADPH) diaphorase activity was determined in heart and aorta of the TX group. The pressor response induced by l -NAME was similar in all groups. l -NAME-induced-tachycardia was associated with this rise in MAP. Adrenalectomy did not modify this chronotropic response, but it was attenuated by thyroidectomy. Thyroidectomy by itself decreased the circulating levels of T3 but it had no effect on the plasma levels of T4 and TSH. L and L-TX groups showed similar levels of circulating T4 and TSH, meanwhile the plasma level of T3 decreased in the L group. Nitric oxide synthase (NOS) activity in atria as well as in aorta was greater in the TX group compared with C. When autonomic influences are removed, the thyroid gland modulates intrinsic heart rate via a mechanism that involves, at least in part, the nitric oxide pathway. [source]

Restorable Type Conversion of Carbon Nanotube Transistor Using Pyrolytically Controlled Antioxidizing Photosynthesis Coenzyme

ADVANCED FUNCTIONAL MATERIALS, Issue 16 2009
Bo Ram Kang
Abstract Here, a pyrolytically controlled antioxidizing photosynthesis coenzyme, , -Nicotinamide adenine dinucleotide, reduced dipotassium salt (NADH) for a stable n-type dopant for carbon nanotube (CNT) transistors is proposed. A strong electron transfer from NADH, mainly nicotinamide, to CNTs takes place during pyrolysis so that not only the type conversion from p-type to n-type is realized with 100% of reproducibility but also the on/off ratio of the transistor is significantly improved by increasing on-current and/or decreasing off-current. The device was stable up to a few months with negligible current changes under ambient conditions. The n-type characteristics were completely recovered to an initial doping level after reheat treatment of the device. [source]

Is Helicobacter pylori a True Microaerophile?

HELICOBACTER, Issue 4 2006
Stephanie Bury-Moné
Abstract Background:, There is no general consensus about the specific oxygen and carbon dioxide requirements of the human pathogen Helicobacter pylori. This bacterium is considered a microaerophile and consequently, it is grown under atmospheres at oxygen tensions 5,19% and carbon dioxide tensions 5,10%, both for clinical and basic and applied research purposes. The current study compared the growth of H. pylori in vitro, under various gas atmospheres, and determined some specific changes in the physiology of bacteria grown under different oxygen partial pressures. Methods:, Measurements of bacterial growth under various conditions were carried out employing classical solid and liquid culture techniques. Enzymatic activities were measured using spectrophotometric assays. Results:,H. pylori and all the other Helicobacter spp. tested had an absolute requirement for elevated carbon dioxide concentrations in the growth atmosphere. In contrast with other Helicobacter spp., H. pylori can tolerate elevated oxygen tensions when grown at high bacterial concentrations. Under 5% CO2, the bacterium showed similar growth in liquid cultures under oxygen tensions from microaerobic (< 5%) to fully aerobic (21%) at cell densities higher than 5 × 105 cfu/ml for media supplemented with horse serum and 5 × 107 cfu/ml for media supplemented with ,-cyclodextrin. Evidence that changes occurred in the physiology of H. pylori was obtained by comparing the activities of ferredoxin:NADH (nicotinamide adenine dinucleotide) oxidoreductases of bacteria grown under microaerobic and aerobic atmospheres. Conclusions:,H. pylori is a capnophile able to grow equally well in vitro under microaerobic or aerobic conditions at high bacterial concentrations, and behaved like oxygen-sensitive microaerophiles at low cell densities. Some characteristics of H. pylori cells grown in vitro under microaerobic conditions appeared to mimic better the physiology of organisms grown in their natural niche in the human stomach. [source]

Synthesis of Nicotinamide Adenine Dinucleotide (NAD) Analogues with a Sugar Modified Nicotinamide Moiety

Electroactivity of Polyaniline Multilayer Films in Neutral Solution and Their Electrocatalyzed Oxidation of ,-Nicotinamide Adenine Dinucleotide

Indoleamine 2,3-dioxygenase in T-cell tolerance and tumoral immune escape

IMMUNOLOGICAL REVIEWS, Issue 1 2008
Jessica B. Katz
Summary: Indoleamine 2, 3-dioxygenase (IDO) degrades the essential amino acid tryptophan in mammals, catalyzing the initial and rate-limiting step in the de novo biosynthesis nicotinamide adenine dinucleotide (NAD). Broad evidence implicates IDO and the tryptophan catabolic pathway in generation of immune tolerance to foreign antigens in tissue microenvironments. In particular, recent findings have established that IDO is overexpressed in both tumor cells and antigen-presenting cells in tumor-draining lymph nodes, where it promotes the establishment of peripheral immune tolerance to tumor antigens. In the normal physiologic state, IDO is important in creating an environment that limits damage to tissues due to an overactive immune system. However, by fostering immune suppression, IDO can facilitate the survival and growth of tumor cells expressing unique antigens that would be recognized normally as foreign. In preclinical studies, small-molecule inhibitors of IDO can reverse this mechanism of immunosuppression, complementing classical cytotoxic cancer chemotherapeutic agents' ability to trigger regression of treatment-resistant tumors. These results have encouraged the clinical translation of IDO inhibitors, the first of which entered phase I clinical trials in the fall of 2007. In this article, we survey the work defining IDO as an important mediator of peripheral tolerance, review evidence of IDO dysregulation in cancer cells, and provide an overview of the development of IDO inhibitors as a new immunoregulatory treatment modality for clinical trials. [source]

Nicotinamide , biologic actions of an emerging cosmetic ingredient

INTERNATIONAL JOURNAL OF COSMETIC SCIENCE, Issue 5 2005
N. Otte
Synopsis Nicotinamide, the water-soluble amide of nicotinic acid, is a component of the two most important coenzymes , nicotinamide adenine dinucleotide and nicotinamide adenine dinucleotide phosphate. Thus nicotinamide is involved in numerous oxidation,reduction reactions in mammalian biological systems. Nicotinamide essentially acts as an antioxidant. Most effects are exerted via poly-adenosine diphosphate-ribose polymerase inhibition. Thus nicotinamide increasingly gains interest in the prevention and treatment of several skin diseases. It is well established in the systemic therapy of pellagra, a deficiency disease linked to nicotinic acid, but with respect to topical use there is still a need for further evidence with respect to its manifold potential uses. Currently, its local use is established in the care of acne-prone skin. Résumé Le nicotinamide, l,amide hydrosoluble de l'acide nicotinique est un composant des deux plus importants co-enzymes NAD et NADP. Le nicotinamide est impliqué dans de nombreuses réactions d'oxydo-réduction dans les systèmes biologiques des mammifères. Le nicotinamide agit essentiellement en tant qu'anti-oxydant. La plupart des effets sont exercés via l'inhibition de la poly (ADP-ribose) polymerase (PARP). Ainsi, l'intérêt du nicotinamide croît dans la prévention et le traitement de nombreuses maladies cutanées. Son rôle est bien établi dans la thérapie systémique de la pellagre, une maladie déficiente liée à l'acide nicotinique, mais en ce qui concerne son utilisation topique, du fait de ses multiples applications potentielles, il est encore nécessaire d'accumuler davantage de preuves. Son utilisation locale est couramment admise dans le traitement des peaux sujettes à l'acné. [source]

Coimmobilization of malic enzyme and alanine dehydrogenase on organic,inorganic hybrid gel fibers and the production of L -alanine from malic acid using the fibers with coenzyme regeneration

JOURNAL OF APPLIED POLYMER SCIENCE, Issue 5 2010
Koji Nakane
Abstract Malic enzyme (EC 1.1.1.39) and alanine dehydrogenase (EC 1.4.1.1) were entrap-immobilized on hybrid gel fibers of cellulose acetate (CA) and zirconium (Zr) alkoxide by air-gap wet spinning. The production of L -alanine from malic acid with coenzyme regeneration was examined with the enzymes immobilized on the fibers. The productivity of L -alanine of the immobilized enzymes decreased to approximately one-fifth of that of free enzymes, but the CA,Zr-fiber-immobilized enzymes retained a high level of productivity after repeated use. Reduced form of nicotinamide adenine dinucleotide (NADH) recycling also occurred effectively for the enzymes immobilized on the fiber. © 2010 Wiley Periodicals, Inc. J Appl Polym Sci, 2010 [source]

Enhancement of poly-adenosine diphosphate-ribosylation in human hepatocellular carcinoma

JOURNAL OF GASTROENTEROLOGY AND HEPATOLOGY, Issue 5 2000
Fumio Nomura
Abstract Background: Poly-adenosine diphosphate (ADP)-ribosylation, catalysed by poly(ADP-ribose) polymerase (PARP), is a post-translational modification of nuclear proteins and is involved in a wide range of biological processes including DNA repair, cell proliferation and malignant transformation. Alteration of this reaction in human hepatocellular carcinoma (HCC) is of interest, but has not yet been explored. The aim of this study was to evaluate poly-ADP-ribosylation and to compare the expression of PARP in HCC and adjacent non-tumour tissues. Methods: Tumorous and adjacent non-tumorous tissues were obtained from five consecutive patients with HCC during surgery for tumour resection. Tissue homogenates were subjected to ADP-ribosylation with [32P]-nicotinamide adenine dinucleotide. The ADP-ribosylated proteins were separated by sodium dodecylsulfate,polyacrylamide gel electrophoresis, followed by autoradiography. Expression of PARP was also evaluated by western blotting. Results: Several proteins were ADP-ribosylated in human HCC tissues. Notably, the radiolabelling of a 116-kDa protein was remarkably greater than that in adjacent non-tumorous tissues (86.5 ± 35.2 arbitrary units by densitometry vs 12.2 ± 9.9, mean± SD, n = 5, P < 0.02). The radiolabelling of the 116-kDa protein was decreased in the presence of PARP inhibitors in a concentration-dependent manner. Immunoblot analyses revealed that the radiolabelled protein was PARP and that its expression was significantly greater in HCC than in adjacent non-tumorous tissues (333 ± 204% of non-tumorous tissue, P < 0.05). Conclusions: We found that poly-ADP-ribosylation and PARP expression were significantly increased in human HCC compared with those in adjacent non-tumorous tissues in surgically obtained specimens. [source]

Sirtuins, melatonin and circadian rhythms: building a bridge between aging and cancer

JOURNAL OF PINEAL RESEARCH, Issue 1 2010
Brittney Jung-Hynes
Abstract:, Histone deacetylases (HDAC) have been under intense scientific investigation for a number of years. However, only recently the unique class III HDAC, sirtuins, have gained increasing investigational momentum. Originally linked to longevity in yeast, sirtuins and more specifically, SIRT1 have been implicated in numerous biological processes having both protective and/or detrimental effects. SIRT1 appears to play a critical role in the process of carcinogenesis, especially in age-related neoplasms. Similarly, alterations in circadian rhythms as well as production of the pineal hormone melatonin have been linked to aging and cancer risk. Melatonin has been found act as a differentiating agent in some cancer cells and to lower their invasive and metastatic status. In addition, melatonin synthesis and release occurs in a circadian rhythm fashion and it has been linked to the core circadian machinery genes (Clock, Bmal1, Periods, and Cryptochromes). Melatonin has also been associated with chronotherapy, the timely administration of chemotherapy agents to optimize trends in biological cycles. Interestingly, a recent set of studies have linked SIRT1 to the circadian rhythm machinery through direct deacetylation activity as well as through the nicotinamide adenine dinucleotide (NAD+) salvage pathway. In this review, we provide evidence for a possible connection between sirtuins, melatonin, and the circadian rhythm circuitry and their implications in aging, chronomodulation, and cancer. [source]

Interactions between melatonin and nicotinamide nucleotide: NADH preservation in cells and in cell-free systems by melatonin

JOURNAL OF PINEAL RESEARCH, Issue 2 2005
Dun-Xian Tan
Abstract:, Interactions of melatonin and nicotinamide adenine dinucleotide (NADH) have been studied in different experimental models including NADH-promoted oxyhemoglobin oxidation, vanadate-induced NADH oxidation and paraquat-induced NADH depletion in cultured PC12 cells. Our findings indicate that melatonin preserves NADH levels under oxidative stress both in cell-free systems and in cultured PC12 cells. These interactions likely involve electron donation by melatonin and reduction of the NAD radical. As a result, the NAD radical is recycled to NADH and melatonin is oxidized to N1 -acetyl- N2 -formyl-5-methoxykynuramine (AFMK). NADH is a central molecule at the crossroads between energy metabolism and the antioxidant defense system in organisms. Recycling of NADH by melatonin might improve the efficiency of NADH as an energy carrier and as an antioxidant. Interactions between melatonin and NADH may be implicated in mitochondrial metabolism. [source]

Melatonin protects against streptozotocin, but not interleukin-1,-induced damage of rodent pancreatic ,-cells

JOURNAL OF PINEAL RESEARCH, Issue 3 2001
Annika K. Andersson
In the present study, we examined whether melatonin can protect rodent pancreatic islets against streptozotocin (STZ) and interleukin-1, (IL-1,)-induced suppression of ,-cell function. Formation of free radicals, DNA damage and extensive DNA repair leading to depletion of intracellular nicotinamide adenine dinucleotide (NAD) may mediate STZ toxicity. Activation of inducible nitric oxide synthase and nitric oxide (NO) formation may cause IL-1,-induced ,-cell impairment. We also studied the effect of melatonin against STZ-induced hyperglycemia in C57BL/Ks mice. For in vitro studies, cultured rat islets were exposed to melatonin (100 ,M,1 mM) 30 min prior to STZ (0.5 mM) or IL-1, (25 U/mL) addition. After an additional 30 min incubation with STZ, islet function and NAD content were analyzed either acutely or after 18 hr of recovery in fresh culture medium. For IL-1, experiments, islets were incubated for 48 hr with the cytokine before evaluation of islet function. We found that melatonin counteracted STZ-induced inhibition of glucose metabolism and insulin release in cultured rat islets after 18 hr of recovery. Moreover, NAD levels were higher in the melatonin-treated group at this time point. Melatonin had no effect on IL-1,-induced islet inhibition of glucose oxidation or NO formation. Diabetes induced by STZ (140 mg/kg body weight; i.v.) was effectively prevented by administration of melatonin (100 mg/kg body weight; i.p.) 30 min before STZ injection. We conclude that the protective effects of melatonin against ,-cell damage may be related to interference with DNA damage and poly(ADP-ribose) polymerase (PARP) activation rather than through effects on NO generation pathways. [source]

Contribution of NADH Increases to Ethanol's Inhibition of Retinol Oxidation by Human ADH Isoforms

ALCOHOLISM, Issue 4 2009
Jennifer R. Chase
Background:, A decrease in retinoic acid levels due to alcohol consumption has been proposed as a contributor to such conditions as fetal alcohol spectrum diseases and ethanol-induced cancers. One molecular mechanism, competitive inhibition by ethanol of the catalytic activity of human alcohol dehydrogenase (EC 1.1.1.1) (ADH) on all-trans-retinol oxidation has been shown for the ADH7 isoform. Ethanol metabolism also causes an increase in the free reduced nicotinamide adenine dinucleotide (NADH) in cells, which might reasonably be expected to decrease the retinol oxidation rate by product inhibition of ADH isoforms. Methods:, To understand the relative importance of these two mechanisms by which ethanol decreases the retinol oxidation in vivo we need to assess them quantitatively. We have built a model system of 4 reactions: (1) ADH oxidation of ethanol and NAD+, (2) ADH oxidation of retinol and NAD+, (3) oxidation of ethanol by a generalized Ethanoloxidase that uses NAD+, (4) NADHoxidase which carries out NADH turnover. Results:, Using the metabolic modeling package ScrumPy, we have shown that the ethanol-induced increase in NADH contributes from 0% to 90% of the inhibition by ethanol, depending on (ethanol) and ADH isoform. Furthermore, while the majority of flux control of retinaldehyde production is exerted by ADH, Ethanoloxidase and the NADHoxidase contribute as well. Conclusions:, Our results show that the ethanol-induced increase in NADH makes a contribution of comparable importance to the ethanol competitive inhibition throughout the range of conditions likely to occur in vivo, and must be considered in the assessment of the in vivo mechanism of ethanol interference with fetal development and other diseases. [source]

Photoinduced electron transfer in glucose oxidase: a picosecond time-resolved ultraviolet resonance Raman study

JOURNAL OF RAMAN SPECTROSCOPY, Issue 11 2008
Akiko Fujiwara
Abstract Picosecond time-resolved ultraviolet resonance Raman (UVRR) spectroscopy has been applied to photoinduced electron transfer (ET) of glucose oxidase (GOD). In this study, we succeeded in directly observing changes in the aromatic amino acid residues in the photoinduced ET of GOD for the first time. UVRR spectra excited at 226 nm showed bands from Trp and Tyr residues. An intensity decrease of the Trp UVRR bands and the appearance of the UVRR bands attributable to Trp,+ were observed in the time-resolved spectra. In the time-resolved UVRR spectra excited at 240 nm, the intensity decrease of the flavin adenine dinucleotide (FAD) bands was also observed on the same time scale. These results showed that the Trp residue(s) serves as an electron donor to excited-state FAD in the photoinduced ET of GOD. The comparison of the temporal changes of the Trp and FAD band intensities suggested that the ET from the Trp residue(s) to the FAD occurs with a time constant of ,1.5 ps. Copyright © 2008 John Wiley & Sons, Ltd. [source]

Resonance Raman spectra of the neutral and anionic radical semiquinones of flavin adenine dinucleotide in glucose oxidase revisited

JOURNAL OF RAMAN SPECTROSCOPY, Issue 8 2006
Johannes P. M. Schelvis
Abstract Flavin radical semiquinones are intermediates in important physiological processes. Resonance Raman (RR) spectroscopy is an important tool to determine the interactions between these radical intermediates and their protein environment that regulate their reactivity and role in the reaction mechanisms. RR spectra of flavin radical semiquinones have been available for several flavoproteins, and those in the glucose oxidase (GO) seem significantly different from all the other available data. Since GO is often used not only as a standard for flavin-containing proteins but also in biotechnological applications, we decided to reexamine the RR spectra of the neutral and anionic radical semiquinone forms of the flavin adenine dinucleotide (FAD) cofactor in this enzyme. The new data show that the vibrational wavenumbers of the neutral and anionic radical semiquinone forms of FAD in GO are very similar to those in other flavoproteins. The discrepancies that were observed earlier seem related to contributions of the FAD in different redox and protonation states. We also obtained the first RR spectra of the oxidized FAD cofactor in GO. Analysis of the vibrations of the oxidized FAD and its anionic radical semiquinone in GO in H2O and D2O solutions indicates that the subtle differences between these spectra in GO and in other flavoproteins are related to the weak hydrogen-bonding environment of the FAD cofactor in GO. Copyright © 2006 John Wiley & Sons, Ltd. [source]

Single sample extraction protocol for the quantification of NAD and NADH redox states in Saccharomyces cerevisiae

JOURNAL OF SEPARATION SCIENCE, JSS, Issue 18 2008
Jennifer L. Sporty
Abstract A robust redox extraction protocol for quantitative and reproducible metabolite isolation and recovery has been developed for simultaneous measurement of nicotinamide adenine dinucleotide (NAD) and its reduced form, NADH, from Saccharomyces cerevisiae. Following culture in liquid media, yeast cells were harvested by centrifugation and then lysed under nonoxidizing conditions by bead blasting in ice-cold, nitrogen-saturated 50 mM ammonium acetate. To enable protein denaturation, ice cold nitrogen-saturated CH3CN/50 mM ammonium acetate (3:1 v/v) was added to the cell lysates. Chloroform extractions were performed on supernatants to remove organic solvent. Samples were lyophilized and resuspended in 50 mM ammonium acetate. NAD and NADH were separated by HPLC and quantified using UV,Vis absorbance detection. NAD and NADH levels were evaluated in yeast grown under normal (2% glucose) and calorie restricted (0.5% glucose) conditions. Results demonstrate that it is possible to perform a single preparation to reliably and robustly quantitate both NAD and NADH contents in the same sample. Robustness of the protocol suggests it will be (i) applicable to quantification of these metabolites in other cell cultures; and (ii) amenable to isotope labeling strategies to determine the relative contribution of specific metabolic pathways to total NAD and NADH levels in cell cultures. [source]

Sodium acetate enhances hydrogen peroxide production in Weissella cibaria

LETTERS IN APPLIED MICROBIOLOGY, Issue 1 2009
A. Endo
Abstract Aims:, To investigate hydrogen peroxide production by lactic acid bacteria (LAB) and to determine the key factors involved. Methods and Results:, Six strains of Weissella cibaria produced large amounts (2·2,3·2 mmol l,1) of hydrogen peroxide in GYP broth supplemented with sodium acetate, but very low accumulations in glucose yeast peptone broth without sodium acetate. Increased production of hydrogen peroxide was also recorded when strains of W. cibaria were cultured in the presence of potassium acetate, sodium isocitrate and sodium citrate. Oxidases and peroxidases were not detected, or were present at low levels in W. cibaria. However, strong nicotinamide adenine dinucleotide (NADH) oxidase activity was recorded, suggesting that the enzyme plays a key role in production of hydrogen peroxide by W. cibaria. Conclusions:,Weissella cibaria produces large quantities of hydrogen peroxide in aerated cultures, in a process that is dependent on the presence of acetate in the culture medium. NADH oxidase is likely the key enzyme in this process. Significance and Impact of the Study:, This is the first study showing that sodium acetate, normally present in culture media of LAB, is a key factor for hydrogen peroxide production by W. cibaria. The exact mechanisms involved are not known. [source]

Assimilation of NAD+ precursors in Candida glabrata

MOLECULAR MICROBIOLOGY, Issue 1 2007
Biao Ma
Summary The yeast pathogen Candida glabrata is a nicotinamide adenine dinucleotide (NAD+) auxotroph and its growth depends on the environmental supply of vitamin precursors of NAD+. C. glabrata salvage pathways defined in this article allow NAD+ to be synthesized from three compounds , nicotinic acid (NA), nicotinamide (NAM) and nicotinamide riboside (NR). NA is salvaged through a functional Preiss,Handler pathway. NAM is first converted to NA by nicotinamidase and then salvaged by the Preiss,Handler pathway. Salvage of NR in C. glabrata occurs via two routes. The first, in which NR is phosphorylated by the NR kinase Nrk1, is independent of the Preiss,Handler pathway. The second is a novel pathway in which NR is degraded by the nucleosidases Pnp1 and Urh1, with a minor role for Meu1, and ultimately converted to NAD+ via the nicotinamidase Pnc1 and the Preiss,Handler pathway. Using C. glabrata mutants whose growth depends exclusively on the external NA or NR supply, we also show that C. glabrata utilizes NR and to a lesser extent NA as NAD+ sources during disseminated infection. [source]

Flavin-sensitized Photo-oxidation of Lysozyme and Serum Albumin

PHOTOCHEMISTRY & PHOTOBIOLOGY, Issue 4 2009
Yazhou Zhang
The excited state processes of riboflavin, flavin mononucleotide and flavin adenine dinucleotide in argon-saturated aqueous solution were studied in the presence of lysozyme or bovine serum albumin (BSA). UV,Vis absorption and fluorescence spectroscopy indicates that the noncovalent flavin-protein binding is relatively weak. Quenching of the flavin triplet state by BSA, observed by time-resolved photolysis, is less efficient than by lysozyme. Light-induced oxidation of the two proteins and reduction of the three flavins were studied. The quantum yields of the former and latter in the absence of oxygen are up to 0.1 and 0.04, respectively. The effects of pH and sensitizer and protein concentrations were examined in greater detail. The proposed reaction is electron transfer from the tryptophan moiety to the flavin triplet rather than excited singlet state. [source]