Protection against oxidative protein damage induced by metal-catalyzed reaction or alkylperoxyl radicals: comparative effects of melatonin and other antioxidants

Melatonin is a well-known hydroxyl radical (*OH) scavenger that protects DNA and lipids from free radical attack. In this paper, we studied the ability of melatonin to prevent oxidative damage to bovine serum albumin (BSA) induced by two different paradigms: the metal-catalyzed oxidation (MCO) induced by Cu(2+)/H(2)O(2) and the alkoxyl and alkylperoxyl radicals formed by the azo initiator 2,2'-azobis(2-amidinopropane) hydrochloride (AAPH, 40 mM). The protective effects of melatonin were compared with 6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylic acid (trolox), glutathione (GSH), ascorbate, 3,4',5-trihydroxy-trans-stilbene (resveratrol, 0.1 microM-4 mM) and mannitol (50 microM-100 mM). Melatonin efficiently prevented protein modification induced by both models, as assayed by polyacrylamide gel electrophoresis and carbonyl content. Both trolox and ascorbate had an obvious pro-oxidant effect in the Cu(2+)/H(2)O(2) model, whereas both prevented BSA damage induced by AAPH. In the MCO model, the efficacy of GSH in terms of protein protection was higher than melatonin at relatively high concentrations (250 microM-4 mM); however, at lower concentrations (50-250 microM), the efficacy of melatonin was superior to GSH. D-Mannitol (50 microM-100 mM) and resveratrol did not protect BSA from the site-specific damage induced by Cu(2+)/H(2)O(2). On the other hand, the relative protective efficiency in the AAPH model was melatonin approximately trolox>GSH>ascorbate.     

Effect of ionic strength on the binding of ascorbate to albumin

A fluorophore-nitroxide free radical dual-functional probe (FN) was utilized to study the kinetics of ascorbate (AH(-)) binding to Bovine Serum Albumin (BSA). Since the free radical fragment in the FN probe intramolecularly quenches fluorescence, ascorbate reduction of the nitroxide function is accompanied by a concomitant fluorescence intensity increase from the fluorophore. Thus, both fluorescence and the EPR techniques could be utilized to measure the reaction rate. In the presence of BSA protein, the observed rate of the overall process is the sum of that from at least two reactions: the reaction between free ascorbate and free probe, and the reaction between bound ascorbate and bound probe. Our findings show that the observed rate is strongly dependent on the ionic strength of the medium. A corollary of this observation is the indication of a purely electrostatic interaction between ascorbate and the BSA protein. This conclusion was further corroborated by 1H NMR measurement of the transverse relaxation time, T(2), of ascorbate protons in BSA solutions. Ascorbate ion was released from the ascorbate/BSA ensemble in the presence of increasing concentrations of NaCl. Binding constants of AH(-) to BSA were calculated at different ionic strengths at pH 7.4. Furthermore, an increase in ionic strength did not affect the ability of albumin to protect ascorbate against autoxidation. This suggests that the protein's protective antioxidant effect may be attributed to BSA binding of trace quantities of transition-metal cations (rather than ascorbate binding to BSA). This conclusion is supported by ascorbate UV-absorption measurements in the presence of albumin and Cu(2+) ions as a function of ionic strength.     

PEGylation of bovine serum albumin using click chemistry for the application as drug carriers

Monomethyl poly(ethylene glycol) (mPEG)-modified bovine serum albumin (BSA) conjugates (BSA-mPEG) were obtained by the mild Cu(I)-mediated cycloaddition reaction of azided BSA (BSA-N(3) ) and alkyne-terminated mPEG. The structure and characteristics of BSA-mPEG conjugates were thoroughly investigated. There were about two PEG chains conjugated onto each BSA molecule as determined by matrix-assisted laser desorption/ionization time of flight (MALDI-TOF) analysis. The intrinsic nonspecific binding ability of BSA was used for adsorption and sustained release of both rifampicn and 5-fluorouracil (5-FU). The helical structures of BSA were preserved to a large extent after modification and drug adsorption on BSA was confirmed via circular dichroism spectroscopy. Drugs adsorbed onto the conjugated formulation to a lesser extent than on BSA due to mPEG modification. The in vitro release of both rifampicin and 5-FU, however, indicated that BSA-mPEG can function as a drug carrier. Overall, the click reaction provided a convenient tool for the pegylation of BSA. The biological activity of the BSA-mPEG conjugates, including the drug transportation capacity and biocompatibility, were largely retained.     

Spectroscopic study of the interaction of gossypol with bovine serum albumin

The interaction of gossypol with bovine serum albumin (BSA) at pH 7.6 in 0.02 M borax-borate buffer has been followed by circular dichroism (CD) and difference spectroscopy. From the extrinsic CD band at 390 nm, a binding constant of 2.7 X 10(3) M-1 was calculated. At 54 degrees the induced CD spectrum was abolished, suggesting that the interaction is not favoured at that temperature. The effect of various solvents and salts on the interaction has been followed by difference spectroscopy. The modification of epsilon-amino groups of lysine did not affect the interaction. Binding of gossypol to BSA does not cause a change in its secondary structure or sedimentation coefficient.     

Modification of functional groups of the streptokinase molecule during photooxidation

Photochemical oxidation with methylene blue as photosensitizer results in the destruction of one histidine residue in the streptokinase molecule. This process is characterized by the rate constant corresponding to the modification of free L-histidine and results in partial inactivation of the protein. The rate of protein photo oxidation and photoinactivation is pH-dependent. As can be judged from the results of CD spectroscopy and gel chromatography, in weakly acidic (but not in weakly alkaline) media the reaction results in conformation changes of the streptokinase globule which affect the state of the protein tryptophanyl residue. It was found that the imidazole group destroyed during the photooxidation reaction is not essential either for the specific activity of streptokinase or for the formation of is stable complex with human plasminogen. The specificity of modification of the streptokinase histidine residue during the photooxidation reaction is discussed.     

Underlying molecular interaction of bovine serum albumin and linezolid: a biophysical outlook

Linezolid, one of the reserve antibiotic of oxazolidinone class has wide range of antimicrobial activity. Here we have conducted a fundamental study concerning the dynamics of its interaction with bovine serum albumin (BSA), and the post binding modification of the later by employing different spectroscopic (absorption, fluorescence and circular dichroism (CD) spectroscopy) and molecular docking tools. Gradual quenching of the tryptophan (Trp) fluorescence upon addition of linezolid to BSA confirms their interaction. Analysis of fluorescence quenching at different temperature indicates that the interaction is made by static complex formation and the BSA has one binding site for the drug. The negative Gibbs energy change (ΔG⁰), and positive values of enthalpy change (ΔH⁰) and entropy change (ΔS⁰) strongly suggest that it is an entropy driven spontaneous and endothermic reaction. The reaction involves hydrophobic pocket of the protein, which is further stabilized by hydrogen bonding and electrostatic interactions as evidenced from 8-anilino-1-napthalene sulfonic acid, sucrose and NaCl binding studies. These findings also support the molecular docking study using AutoDock 4.2. The influence of this interaction on the secondary structure of the protein is negligible as evidenced by CD spectroscopy. So, from these findings, we conclude that linezolid interacts with BSA in 1:1 ratio through hydrophobic, hydrogen bonding and ionic interactions, and this may not affect the secondary structure of the protein.     

铜锌超氧物歧化酶对几种羟自由基产生系统的影响

应用脱氧核糖降解法研究了ＣｕＺｎ－ＳＯＤ对几种·ＯＨ产生系统的作用机理．结果证明：ＳＯＤ对Ｆｅ（３＋）·Ｏ·Ｈ２Ｏ２系统中·ＯＨ的产生有明显的抑制作用,而失活ＳＯＤ或ＢＳＡ对它的抑制作用不大;在Ｆｅ（２＋）·Ｈ２Ｏ２和ＣＵ（２＋）·Ｈ２Ｏ２系统中,ＳＯＤ、失活ＳＯＤ和ＢＡＳ均能抑制·ＯＨ的产生;在Ｆｅ（２＋）·Ｏ系统中,ＳＯＤ对·ＯＨ产生作用不大,而失活ＳＯＤ或ＢＳＡ对它有明显的抑制作用．由此推测ＳＯＤ对·ＯＨ形成可能有三方面的影响：１．对Ｏ的清除作用,阻断Ｈａｂｅｒ－Ｗｅｉｓｓ反应;２．对金属离子的络合作用,降低·ＯＨ的产额;３．促进Ｈ２Ｏ２的积累,加快Ｆｅｎｔｏｎ反应．     

BSA reduces inhibition in a TaqMan assay for the detection of Batrachochytrium dendrobatidis

A TaqMan assay for the causative agent of chytridiomycosis in amphibians (Batrachochytrium dendrobatidis) can be inhibited by phenolic compounds, including humic and tannic acids, resulting in false negatives. Bovine serum albumin (BSA) is known to reduce inhibition of PCR when samples are contaminated with these inhibitors. We assessed the effect of BSA in reducing inhibition of the TaqMan assay when analyzing skin swabs for B. dendrobatidis. We found that the addition of BSA to the TaqMan reaction reduced inhibition to insignificant levels. BSA did not appreciably affect the efficiency or analytical sensitivity of the TaqMan reaction in the analysis of standard DNA solutions free from environmental inhibitors. We recommend the addition of 400 ng microl(-1) of BSA to the standard TaqMan assay to reduce inhibition associated with sampling wild amphibians.     

Altered circadian rhythm of melatonin concentrations in hypocretin-deficient men

Hypocretin deficiency causes narcolepsy. It is unknown whether melatonin secretion is affected in this sleep disorder. Therefore, in both narcolepsy patients and matched controls, the authors measured plasma melatonin levels hourly for 24 h before and after 5 days of sodium oxybate (SXB) administration. Although mean melatonin concentrations were similar between patients and controls, in narcoleptics the percentage of 24-h melatonin secreted during the daytime was significantly higher, and melatonin secretion exhibited a weaker coupling to sleep. SXB did not affect melatonin secretion. These findings suggest that hypocretin deficiency might disturb both the circadian control of melatonin release and its temporal association with sleep.     

Functionalization of amino-modified probes for atomic force microscopy

The probes for atomic force microscopy (AFM) functionalized with bovine serum albumin (BSA) were obtained; they can be used for molecular recognition studies. The procedure of modification and functionalization of the AFM probe included three stages. First, amino probes were obtained by modification in vapors of an amino silane derivative. Then, a covalent bond was formed between the surface amino groups of the probe and a homobifunctional aminoreactive crosslinker. Finally, the probe with a covalently attached crosslinker was functionalized with BSA molecules. The AFM probes were characterized by force measurements at different stages of the modification; the adhesion force and the work of adhesion force were determined. The modification process was confirmed by visualization of BSA and supercoiled pGEMEX DNA molecules immobilized on the standard amino mica and on amino mica modified with a crosslinker.     

Superoxide-dependent oxidation of melatonin by myeloperoxidase

Myeloperoxidase uses hydrogen peroxide to oxidize numerous substrates to hypohalous acids or reactive free radicals. Here we show that neutrophils oxidize melatonin to N(1)-acetyl-N(2)-formyl-5-methoxykynuramine (AFMK) in a reaction that is catalyzed by myeloperoxidase. Production of AFMK was highly dependent on superoxide but not hydrogen peroxide. It did not require hypochlorous acid, singlet oxygen, or hydroxyl radical. Purified myeloperoxidase and a superoxide-generating system oxidized melatonin to AFMK and a dimer. The dimer would result from coupling of melatonin radicals. Oxidation of melatonin was partially inhibited by catalase or superoxide dismutase. Formation of AFMK was almost completely eliminated by superoxide dismutase but weakly inhibited by catalase. In contrast, production of melatonin dimer was enhanced by superoxide dismutase and blocked by catalase. We propose that myeloperoxidase uses superoxide to oxidize melatonin by two distinct pathways. One pathway involves the classical peroxidation mechanism in which hydrogen peroxide is used to oxidize melatonin to radicals. Superoxide adds to these radicals to form an unstable peroxide that decays to AFMK. In the other pathway, myeloperoxidase uses superoxide to insert dioxygen into melatonin to form AFMK. This novel activity expands the types of oxidative reactions myeloperoxidase can catalyze. It should be relevant to the way neutrophils use superoxide to kill bacteria and how they metabolize xenobiotics.     

Chitosan–bovine serum albumin complex formation: A model to design an enzyme isolation method by polyelectrolyte precipitation

Interactions between a model protein (bovine serum albumin—BSA) and the cationic polyelectrolyte, chitosan (Chi), have been characterized by turbidimetry, circular dichroism and fluorescence spectroscopy. It has been found that the conformation of the BSA does not change significantly during the chain interaction between BSA and chitosan forming the non-covalently linked complex. The effects of pH, ionic strength and anions which modify the water structure around BSA were evaluated in the chitosan–BSA complex formation. A net coulombic interaction force between BSA and Chi was found as the insoluble complex formation decreased after the addition of NaCl. Around 80% of the BSA in solution precipitates with the Chi addition. A concentration of 0.05% (w/v) Chi was necessary to precipitate the protein, with a stoichiometry of 6.9 g BSA/g Chi. No modification of the tertiary and secondary structure of BSA was observed when the precipitate was dissolved by changing the pH of the medium. Chitosan proved to be a useful framework to isolate proteins with a slightly acid isoelectrical pH by means of precipitation.     

褪黑素和褪黑素受体对下丘脑-垂体-肾上腺轴作用的研究进展

松果体于儿童中期可发育至最高峰,普遍在7岁之后开始呈逐渐萎缩,并在成年后逐渐有钙盐沉着。褪黑素主要是由松果体进行合成和分泌所形成,存在较好的昼夜节律性,且通常是通过下丘脑的视交叉上核进行控制,并与环境中的光-暗呈现的周期改变存在密切关联。此外,褪黑素具有极其广泛的生物学作用,且其发挥作用的首站便是与特异性褪黑素受体相关结合,随后经由信号转导系统发挥相应的生物效应。褪黑素受体属于G蛋白耦联受体超家族重要成员之一,其主要是通过百日咳毒素敏感G蛋白的一致性G蛋白通路,减少环腺苷酸的急剧或(和)抑制毛喉菇素刺激的环腺苷酸升高,从而间接影响黑色素活动。下丘脑-垂体-肾上腺轴(HPA轴)是机体在发生应激反应过程中具有一定影响的系统,其所分泌的激素也会表现出昼夜节律性的改变,且此种改变与褪黑素的有关变化呈现出明显的相反性。提示了两者可能存在一定的相关,在机体免疫功能的调控中扮演着不同的角色。本文通过阐述褪黑素和褪黑素受体对HPA轴作用的最新研究进展,旨在明确三者存在的错综复杂的相互作用关系,继而为机体免疫功能调控的一系列疾病研究提供参考依据。     

Non-enzymatic posttranslational modifications of bovine serum albumin by oxo-compounds investigated by chromatographic and electrophoretic methods

Non-enzymatic posttranslational modifications of bovine serum albumin (BSA) by oxo-compounds, particularly glucose, ribose, glyoxal and glutardialdehyde, have been investigated using a set of modern chromatographic and electrophoretic separation methods. High-performance liquid chromatography (HPLC) alternatively with UV spectrophotometric (diode array) or mass spectrometric (MS) detection, polyacrylamide gel electrophoresis (PAGE) with Coomassie brilliant blue staining detection, and capillary zone electrophoresis (CZE) with UV spectrophotometric detection have been employed for the investigation of the chemical and structural changes of BSA caused by its reaction with the above oxo-compounds exhibiting different degree of reactivity. The extent of modifications was found to be dependent on the nature of the oxo-compound used and progressed in the glucose相似文献   

Cell surface localization of a novel non-genomic progesterone receptor on the head of human sperm

Cell surface receptors for progesterone were visualized in human sperm using fluorescein isothiocyanate-progesterone 3-(O-carboxymethyl) oxime-bovine serum albumin (FITC prog CMO BSA). The receptors were confined to the head and not the midpiece or tail. FITC prog CMO BSA was also an effective stimulus to elevate intracellular free calcium in human sperm as detected by fura-2 fluorescence. The elevation of intracellular free calcium is a stimulus for the acrosome reaction, a process which is necessary to occur for sperm to fertilize the egg. It is proposed that progesterone, which is present in the female reproductive tract, can bind to progesterone receptors located in the plasma membrane of the sperm head and elicit an influx of Ca2+ into the underlying cytoplasm and or acrosome and induce the acrosome reaction and facilitate fertilization.     

氨基PEG化试剂的合成及其修饰能力的测定

分别用氰脲酰氯法及Ｎ－羟基丁二酰亚胺活性酯法合成了蛋白质的氨基ＰＥＧ化试剂ｍＰＥＧｃｃ和ｍＰＥＧ－ＧＳ,并研究了它们对蛋白质的修饰作用。在合成过程中,通过分析反应体系中微量水分的存在对ｍＰＥＧｃｃ合成效率的影响,及溶剂中小分子可活化杂质成分对ｍＰＥＧ－ＧＳ合成产物质量的影响,发现去水剂的存在,可使ｍＰＥＧｃｅ产率提高７倍;二氧六环优于ＤＭＦ,且二氧六环的预处理也很重要。同时,为了测定活化ＰＥＧ修饰蛋白质的效能,首次以ＢＳＡ为模型蛋白,建立起一种测定活化ＰＥＧ修饰能力的方法,应用此方法能直观而又准确地比较各种方法活化的ＰＥＧ对蛋白质的修饰能力,具有普遍的意义。     

DHEA-sulfate causes a phase-dependent increase in melatonin secretion: a study of perifused rat pineal glands

Steroid hormones affect various metabolic activities, including melatonin synthesis, in mammals and nonmammals. We report here the effects of dehydroepiandrosterone (DHEA) and DHEA-sulfate (DHEA-S), two steroids with weak androgen potency, on the levels of isoproterenol-stimulated melatonin released by perifused rat pineal glands removed in the middle of the light and dark spans [7 and 19 Hours After Light Onset (HALO), respectively] in a L/D 12:12 regimen. DHEA-S but not DHEA was found to have a direct action on beta-adrenergic-stimulated melatonin release. DHEA-S increased melatonin secretion (by 50-80%) dose-dependently in pineals obtained during the light span. This effect depended on the circadian stage, because at night (19 HALO), only the highest concentration (10(-3) M) of DHEA-S increased melatonin secretion (by 25%). In contrast, DHEA had no effect on melatonin release in pineals obtained during the light span. This work shows that DHEA-S but not DHEA was able to stimulate melatonin secretion by adrenergic-stimulated pineals removed during the light phase. It also suggests that the effects observed, or their intensity, or both depend on the circadian stage.     

Thermal aggregation of glycated bovine serum albumin

Aggregation and glycation processes in proteins have a particular interest in medicine fields and in food technology. Serum albumins are model proteins which are able to self-assembly in aggregates and also sensitive to a non-enzymatic glycation in cases of diabetes. In this work, we firstly reported a study on the glycation and oxidation effects on the structure of bovine serum albumin (BSA). The experimental approach is based on the study of conformational changes of BSA at secondary and tertiary structures by FTIR absorption and fluorescence spectroscopy, respectively. Secondly, we analysed the thermal aggregation process on BSA glycated with different glucose concentrations. Additional information on the aggregation kinetics are obtained by light scattering measurements. The results show that glycation process affects the native structure of BSA. Then, the partial unfolding of the tertiary structure which accompanies the aggregation process is similar both in native and glycated BSA. In particular, the formation of aggregates is progressively inhibited with growing concentration of glucose incubated with BSA. These results bring new insights on how aggregation process is affected by modification of BSA induced by glycation.     

The Effects of Melatonin on the Physical Properties of Bones and Egg Shells in the Laying Hen

Laying hens often experience unbalanced calcium utilization which can cause deficiencies in bone and egg mineralization. Because melatonin has been shown to affect bone mineralization in other animals, we examined whether treating hens with melatonin would affect eggshell thickness and improve skeletal performance, thereby reducing skeletal and egg shell defects. Birds were given a diet containing either low (30 µg/kg), medium (300 µg/kg), or high (3 mg/kg) concentrations of melatonin, or control feed through approximately one laying cycle. We examined the weight, length, and strength of egg, femur, tibia, and keel. Hens treated with a high concentration of melatonin showed significant strengthening in their femur and tibia, as measured by maximum force sustained and breaking force, compared to controls. Egg weights from hens treated with melatonin were significantly greater than those from hens that were not treated with melatonin. Conversely, egg shell mass of hens treated with melatonin was significantly lower than those of hens not treated with melatonin. Our data suggest that melatonin may affect the allocation of calcium to bone at the expense of egg shell mineralization.     

Chemical modification of buried lysine residues of bovine serum albumin and its influence on protein conformation and bilirubin binding.

Using a double modification technique about 20% of the lysine residues of bovine serum albumin (BSA) which are not easily accessible in the native protein have been modified. The technique involved approximately 80% modification of lysine residues of BSA with citraconic anhydride followed by chemical modification of the remaining lysine residues with acetic anhydride, succinic anhydride, potassium cyanate, or O-methylisourea. Finally, these preparations were decitraconylated under mild acidic conditions to yield acetylated, succinylated, carbomylated or guanidinated BSA. All of these preparations were found to be homogeneous with respect to charge and size. The spectral, hydrodynamic and bilirubin binding properties of these preparations are described. In contrast to most of the highly modified proteins these preparations with the exception of succinylated BSA are very similar to native BSA in their spectral and hydrodynamic properties. However, the equilibrium association constant (Ka) with bilirubin measured by fluorescence quenching was decreased by about 100-fold in acetylated, carbamylated and succinylated BSA, but only 3-fold in guanidinated BSA. Since conformationally acetylated and carbamylated BSAs are identical to guanidinated BSA we conclude that the decrease in Ka in these preparations is solely due to loss of positive charge on 'critical' lysine residues. The results support a binding model for BSA in which bilirubin binding site is buried and the protein undergoes a series of relaxational changes in conformation upon interaction with bilirubin.