Noncovalent interaction between amyloid-β-peptide (1–40) and oleuropein studied by electrospray ionization mass spectrometry

Beta amyloid peptide (Abeta) is the major proteinaceous component of senile plaques formed in Alzheimer's disease (AD) brain. The aggregation of Abeta is associated with neurodegeneration, loss of cognitive ability, and premature death. It has been suggested that oxidative stress and generation of free radical species have implications in the fibrillation of Abeta and its subsequent neurotoxicity. For this reason, it is proposed that antioxidants may offer a protective or therapeutic alternative against amyloidosis. This study is the first report of the formation of the noncovalent complex between Abeta or its oxidized form and the natural derived antioxidant oleuropein (OE) by electrospray ionization mass spectrometry (ESI MS). ESI MS allowed the real time monitoring of the complex formation between Abeta, OE, and variants thereof. Several experimental conditions, such as elevated orifice potential, low pH values, presence of organic modifier, and ligand concentration were examined, to assess the specificity and the stability of the formed noncovalent complexes.     

Melatonin Rescues the Dendrite Collapse Induced by the Pro-Oxidant Toxin Okadaic Acid in Organotypic Cultures of Rat Hilar Hippocampus

The pro-oxidant compound okadaic acid (OKA) mimics alterations found in Alzheimer’s disease (AD) as oxidative stress and tau hyperphosphorylation, leading to neurodegeneration and cognitive decline. Although loss of dendrite complexity occurs in AD, the study of this post-synaptic domain in chemical-induced models remains unexplored. Moreover, there is a growing expectation for therapeutic adjuvants to counteract these brain dysfunctions. Melatonin, a free-radical scavenger, inhibits tau hyperphosphorylation, modulates phosphatases, and strengthens dendritic arbors. Thus, we determined if OKA alters the dendritic arbors of hilar hippocampal neurons and whether melatonin prevents, counteracts, or reverses these damages. Rat organotypic cultures were incubated with vehicle, OKA, melatonin, and combined treatments with melatonin either before, simultaneously, or after OKA. DNA breaks were assessed by TUNEL assay and nuclei were counterstained with DAPI. Additionally, MAP2 was immunostained to assess the dendritic arbor properties by the Sholl method. In hippocampal hilus, OKA increased DNA fragmentation and reduced the number of MAP2(+) cells, whereas melatonin protected against oxidation and apoptosis. Additionally, OKA decreased the dendritic arbor complexity and melatonin not only counteracted, but also prevented and reversed the dendritic arbor retraction, highlighting its role in post-synaptic domain integrity preservation against neurodegenerative events in hippocampal neurons.     

Different mechanisms of oxidative stress and neurotoxicity for Alzheimer's A beta(1--42) and A beta(25--35)

Oxidative stress induced by amyloid beta-peptide (A beta) has been implicated in the neurodegeneration observed in Alzheimer's disease (AD) brain. However, the mechanism by which the predominant form of A beta found in AD brains, A beta(1--42), causes oxidative stress and neurotoxicity remains unknown. Numerous laboratories have used the smaller 11-amino acid fragment of the full-length peptide, A beta(25--35), as a convenient alternative in AD investigations since the smaller peptide mimics several of the toxicological and oxidative stress properties of the native full-length peptide. Our observation that the truncated peptide is more rapidly toxic and causes more oxidative damage than the parent A beta(1--42) led us to investigate the cause for this enhanced toxicity of A beta(25--35) in order to gain insight into the mechanism of action of these peptides. These studies reveal that two different mechanisms may be operative in the two peptides; however, the single methionine residue in the peptides appears to play a crucial role in both mechanisms. That methionine is C-terminal in A beta(25--35) seems to be the cause for its exaggerated effects. When the next amino acid in the sequence of A beta(1--42) (valine) is appended to A beta(25--35), the resultant peptide, A beta(25--36), in which methionine is no longer C-terminal, is neither toxic to cultured neurons nor does it cause oxidative damage. Additionally, oxidizing the sulfur of methionine to a sulfoxide abrogates the damaging effects of both A beta(25--35) and A beta(1--42). The putative mechanistic role of methionine in the observed properties of A beta peptides is discussed in the context of the obtained results as is the role of A beta(1--42)-induced oxidative stress in the neurodegeneration found in AD brain.     

Free radical-scavenging activity of indolic compounds in aqueous and ethanolic media

Indolic compounds are a broad family of substances present in microorganisms, plants and animals. They are mainly related with tryptophan metabolism, and present particularities that depend on their respective chemical structures. The most important members of the family are the plant hormone, indole-3-acetic acid, and the animal hormone, melatonin. An important characteristic of some indolic compounds is that they may be useful as chemical preventive agents against diseases such as cancer, oxidative stress, etc. For this reason, the possible antioxidant activities (free radical-scavenging activity) of several indoles were studied. The2,2'-azino-bis-(3-ethylbenzthiazoline-6-sulfonic acid /H(2)O(2)/HRP decoloration method was applied to determine both hydrophilic (in buffered media) and lipophilic (in organic media) antioxidant properties of the indolic compounds. Also, a study of the hydrophilic antioxidant activities of indoles at different pH values (between 4.5 and 8.5) was made. Finally, their possible role as diet plant antioxidants is discussed.     

In Silico Analysis of Metabolites from Peruvian Native Plants as Potential Therapeutics against Alzheimer’s Disease

Background: Despite research on the molecular bases of Alzheimer’s disease (AD), effective therapies against its progression are still needed. Recent studies have shown direct links between AD progression and neurovascular dysfunction, highlighting it as a potential target for new therapeutics development. In this work, we screened and evaluated the inhibitory effect of natural compounds from native Peruvian plants against tau protein, amyloid beta, and angiotensin II type 1 receptor (AT1R) pathologic AD markers. Methods: We applied in silico analysis, such as virtual screening, molecular docking, molecular dynamics simulation (MD), and MM/GBSA estimation, to identify metabolites from Peruvian plants with inhibitory properties, and compared them to nicotinamide, telmisartan, and grapeseed extract drugs in clinical trials. Results: Our results demonstrated the increased bioactivity of three plants’ metabolites against tau protein, amyloid beta, and AT1R. The MD simulations indicated the stability of the AT1R:floribundic acid, amyloid beta:rutin, and tau:brassicasterol systems. A polypharmaceutical potential was observed for rutin due to its high affinity to AT1R, amyloid beta, and tau. The metabolite floribundic acid showed bioactivity against the AT1R and tau, and the metabolite brassicasterol showed bioactivity against the amyloid beta and tau. Conclusions: This study has identified molecules from native Peruvian plants that have the potential to bind three pathologic markers of AD.     

Quantification of the A beta peptide in Alzheimer's plaques by laser dissection microscopy combined with mass spectrometry

The accumulation and aggregation of the beta-amyloid peptide (A beta) in the brain represents a key factor in the pathogenesis of Alzheimer's disease (AD). Many of the transgenic mouse models for AD exhibit an amyloid pathology with neuritic plaques but they typically vary by the type and abundance of plaques identified in their brains and by the onset and severity of cognitive impairment. Thus, an important consideration in the characterization of AD transgenic mouse models should be the quantitative evaluation of the amyloid load in the brain together with a detailed physico-chemical analysis of A beta from the deposited plaques. Here we present an analytical procedure to collect single amyloid plaques from anatomically defined brain regions by laser dissection microscopy that can be quantitatively assessed in their A beta isoforms composition by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. Quantification was achieved by stable isotope dilution using calibrated 15N-labeled A beta standards that were spiked in the sample immediately after laser dissection. Using this method, we found that the amyloid loads in brain plaques isolated from the transgenic AD mouse model PS2APP or from human were similar. Total A beta composition was estimated at approximately 50-100 fmol per excised plaque disc, as confirmed by immunoblot analysis. N-Terminal truncated A beta isoforms were identified in both transgene and human amyloid plaques but with significantly elevated levels in human samples.     

Synthesis and biological evaluation of indole-3-carboxamide derivatives as antioxidant agents

A novel series of indole-3-carboxamide derivatives (6a-6l) have been designed, synthesized and evaluated for their antioxidant activity against human neuroblastoma SH-SY5Y cell line using H2O₂ radical scavenging assay. Biological activity evaluation showed that compounds 6a, 6f and 6i exhibited significant in vitro activities, which could have the potential to be developed for novel antioxidants.     

Non-covalent binding of endogenous ligands to recombinant cellular retinol-binding proteins studied by mass spectrometric techniques.

Recent developments in mass spectrometry have demonstrated the capability of this technique to transfer non-covalent protein complexes, involving low and high molecular weight ligands, from a condensed state to the gas phase. In this work, electrospray mass spectrometry with a quadrupole analyzer (ES-MS) and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOFMS) were used to analyze the non-covalent association between recombinant rat cellular retinol-binding protein type-I (CRBP) with its specific ligand, all-trans retinol (vitamin A), and with fatty acids. Under denaturing conditions, MALDI-TOFMS and ES-MS techniques allowed determination of the molecular weight of apo-CRBP with good accuracy (<0.01%) and to identify a protein fraction ( approximately 20%) retaining the initial methionine. By adding saturating amounts of vitamin A, ES-MS studies on the protein in the holo-form under native conditions allowed detection of retinol bound within the cavity together with water molecules, as expected from its crystal structure. ES mass spectra of CRBP in the native state were also recorded under non-denaturing conditions, with the aim to study non-covalent interactions between CRBP and non-specific ligands such as fatty acids, bound to the protein as a result of expression in various strains of E. coli grown in different media. Since ES mass spectra do not elucidate which species interact with the protein, in order to investigate the ligands possibly retained in the active site of recombinant CRBP, liquid chromatography/ES-tandem mass spectrometry was used. In particular, this technique was applied to identify and quantify fatty acids bound to CRBP. Quantitative data indicated the presence of a few fatty acids at a total concentration lower than 2% of that of the protein. Similar findings were observed for the homolog rat cellular retinol-binding protein type-II, demonstrating the high degree of purity and homogeneity of apo-CRBP preparations derived from gene expression.     

A study of peptide—Peptide interactions using MALDI ion mobility o-TOF and ESI mass spectrometry

Matrix-assisted laser desorption ionization ion mobility coupled to orthogonal time-of-flight mass spectrometry (MALDI-IM-oTOF MS) is evaluated as a tool for studying non-covalent complex (NCX) formation between peptides. The NCX formed between dynorphin 1-7 and Mini Gastrin I is used as a model system for comparison to previous MALDI experiments (Woods, A. S.; Huestis, M. A. J. Am. Soc. Mass Spectrom. 2001, 12, 88-96). The dynorphin 1-7/Mini Gastrin I complex is stable after more than a ms drift time through the He filled mobility cell. Furthermore, the effects of solution pH on NCX ion signal intensity is measured both by MALDI-IM-MS analysis and by nanoelectrospray mass spectrometry. When compared to the previous MALDI study this work shows that all three techniques give similar results. In addition, fragmentation can be observed from of the non-covalent complex parent ion that occurs prior to TOF mass analysis but after mobility separation, thus providing NCX composition information.     

电喷雾质谱的非共价键蛋白质复合物研究

电喷雾质谱(ESI-MS)已经成为检测和研究生物分子弱相互作用,即非共价键作用的一个重要分析手段.ESI-MS除了具有快速、灵敏、专属的特点以外,还有能够直接得出复合物的分子量和化学计量比的优点.本文通过蛋白质与蛋白质、配体、金属离子的非共价复合物的例子阐述了ESI-MS技术的主要特性,综述了ESI-MS在非共价键蛋白质复合物方面的早期和近期应用研究成果.引用文献34篇.     

Analyzing glycerol-mediated protein oligomerization by electrospray ionization mass spectrometry

Glycerol is widely used as protein stabilizer, in both local and commercial preparations, so it has become necessary to develop methods for mass spectrometric analysis of protein preparations in the presence of glycerol. However, this stabilizing agent may cause signal suppression when present in high concentrations, and is also known to induce protein supercharging even at low concentrations. This work reports the use of electrospray ionization (ESI) mass spectrometry to characterize glycerol-mediated protein oligomerization. This phenomenon seems to involve the formation of strong non-covalent interactions between protein and glycerol involving close contact between the monomers, leading to formation of protein oligomers adducted with glycerol molecules under the characteristic analytical conditions of the ESI interface. At high orders of oligomerization a lower number of glycerol molecules is required to maintain the high oligomeric states than for the dimers and trimers, and it is possible that for the higher oligomers the monomers become so close to one another that non-covalent bonds between the side chains of the amino acid residues in the proteins may be established.     

Donator acceptor map for carotenoids, melatonin and vitamins

Bright yellow and red colors in animals and plants are assumed to be caused by carotenoids (CAR). In animals, these pigments are deposited in scales, skin and feathers. Together with other naturally occurring and colorless substances such as melatonin and vitamins, they are considered antioxidants due to their free-radical-scavenging properties. However, it would be better to refer to them as "antiradicals", an action that can take place either donating or accepting electrons. In this work we present quantum chemical calculations for several CAR and some colorless antioxidants, such as melatonin and vitamins A, C and E. The antiradical capacity of these substances is determined using vertical ionization energy (I), electron affinity (A), the electrodonating power (omega(-)) and the electroaccepting power (omega(+)). Using fluor and sodium as references, electron acceptance (R(a)) and electron donation (R(d)) indexes are defined. A plot of R(d) vs R(a) provides a donator acceptor map (DAM) useful to classify any substance regarding its electron donating-accepting capability. Using this DAM, a qualitative comparison among all the studied compounds is presented. According to R(d) values, vitamin E is the most effective antiradical in terms of its electron donor capacity, while the most effective antiradical in terms of its electron acceptor capacity, R(a), is astaxanthin, the reddest CAR. These results may be helpful for understanding the role played by naturally occurring pigments, acting as radical scavengers either donating or accepting electrons.     

Gas-phase binding of non-covalent protein complexes between bovine pancreatic trypsin inhibitor and its target enzymes studied by electrospray ionization tandem mass spectrometry

The potential of electrospray ionization (ESI) mass spectrometry (MS) to detect non-covalent protein complexes has been demonstrated repeatedly. However, questions about correlation of the solution and gas-phase structures of these complexes still produce vigorous scientific discussion. Here, we demonstrate the evaluation of the gas-phase binding of non-covalent protein complexes formed between bovine pancreatic trypsin inhibitor (BPTI) and its target enzymes over a wide range of dissociation constants. Non-covalent protein complexes were detected by ESI-MS. The abundance of the complex ions in the mass spectra is less than expected from the values of the dissociation constants of the complexes in solution. Collisionally activated dissociation (CAD) tandem mass spectrometry (MS/MS) and a collision model for ion activation were used to evaluate the binding of non-covalent complexes in the gas phase. The internal energy required to induce dissociation was calculated for three collision gases (Ne, Ar, Kr) over a wide range of collision gas pressures and energies using an electrospray ionization source. The order of binding energies of the gas-phase ions for non-covalent protein complexes formed by the ESI source and assessed using CAD-MS/MS appears to differ from that of the solution complexes. The implication is that solution structure of these complexes was not preserved in the gas phase.     

The protective role of melatonin under heavy metal-induced stress in Melissa Officinalis L.

Heavy metals, due to their inability to degrade, pose a serious environmental and nutritional problem. The accumulation of essential and non-essential heavy metals in living organisms reduces normal growth and development, resulting in acute poisoning, disease and even death of organisms. Melatonin is a very important multifunctional molecule in protecting plants from oxidative stress due to its ability to directly neutralize reactive oxygen species (ROS). Also, melatonin has a chelating property, which may contribute in reducing metal-induced toxicity. In this paper, the protective role of melatonin in counteracting metal-induced free radical generation was highlighted. Using the HPLC-FLD technique melatonin was identified and quantified in the roots and leaves of lemon balm ( Melissa officinalis L.), grown under photoperiod conditions. Furthermore, the response of plants pre-treated with exogenous 0.1 mM melatonin to the increased zinc (Zn) and cadmium (Cd) concentrations was observed, with changes in mineral (Ca, Mg), physiological and antioxidant status of the plant during heavy metals stress. The obtained melatonin concentrations were the highest published for dry plants so far. Elevated Cd and Zn levels in soil caused alternation in biochemical and physiological parameters of lemon balm leaves and roots. However, melatonin pre-treatment increased plant tolerance to heavy metals stress. Increased Cd and Zn uptake and their translocation into the leaves were also improved, indicating the possible use of melatonin in phytoremediation.     

Photodynamic Treatment of Red Blood Cell Concentrates For Virus Inactivation Enhances Red Blood Cell Aggregation: Protection with Antioxidants

Abstract— Photodynamic treatment (PDT) using phthalocyanines and red light appears to be a promising procedure for decontamination of red blood cell (RBC) concentrates for transfusion. A possible complication of this treatment may be induced aggregation of RBC. The production of RBC aggregates was measured with a novel computerized cell flow properties analyzer (CFA). The PDT of RBC concentrates with sulfonated aluminum phthalocy-anine (AIPcS4) and the silicon phthalocyanine Pc 4 under virucidal conditions markedly enhanced RBC aggregation and higher shear stress was required to disperse these aggregates. The clusters of cells were huge and abnormally shaped, unlike the rouleaux formed by untreated RBC. This aggregation was prevented when a mixture of antioxidants was included during PDT. Addition of the antioxidants after PDT reduced aggregation only partially. It is concluded that inclusion of antioxidants during PDT of RBC concentrates prior to transfusion may reduce or eliminate the hemodynamic risk that the virucidal treatment may present to the recipient.     

A rapid library screen for tailoring beta-peptide structure and function

Recently we described a beta-decapeptide (beta53-1) that folds into a 14-helix in aqueous solution, binds the oncoprotein hDM2 with submicromolar affinity, and inhibits the interaction of hDM2 with a peptide derived from the activation domain of p53 (p53AD). The solution structure of beta53-1 in CD3OH revealed an unexpected C-terminal unwinding that staggers the side chains comprising the hDM2 recognition epitope to better mimic those of p53AD. The structure-function relationship implied by this distortion suggested that a library of beta53-1 analogues possessing diversity along a nonrecognition face might contain molecules possessing greater affinity for hDM2. Here we describe (1) beta-peptide synthesis protocols that produce high quality one-bead-one-beta-peptide libraries suitable for on-bead screening without purification, (2) a versatile, scalable on-bead screen, and (3) a simple tandem mass spectrometry (MS/MS) decoding method. Using this procedure, we identified beta53-1 analogues with improved structural and functional properties.     

ATP与氨基酸弱相互作用的质谱与理论计算研究

利用电喷雾质谱、荧光、核磁和理论计算研究了ATP与19种氨基酸的弱相互作用.在质谱中发现除甘氨酸(Gly)、丙氨酸(Ala)、缬氨酸(Val)外,其它氨基酸均可观测到与ATP因弱相互作用形成的复合物离子.利用不同质谱锥孔电压下复合物稳定性的不同,分析了侧链基团对ATP与19种氨基酸弱相互作用的影响.并利用荧光光谱和核磁共振波谱法研究了芳香性氨基酸与ATP的弱相互作用.结果表明,氨基酸与ATP的弱相互作用强弱顺序为:色氨酸(Trp)＞苯丙氨酸(Phe)＞具有R‖C-NH2的氨基酸＞具有-RCOOH、-R-NH2的氨基酸＞具有-RSH、-ROH的氨基酸＞R为长链的氨基酸＞R为短链的氨基酸.不同官能团的氨基酸与ATP的弱相互作用的模拟计算也证实了此结论,并发现氨基酸的主侧链基团与ATP分子基团间的多个分子间因氢键作用使复合物能稳定存在.这一结果将为预测蛋白与ATP结合位点及研究ATP的识别机理提供依据.     

Analysis of non-covalent protein complexes by capillary electrophoresis--time-of-flight mass spectrometry

A capillary electrophoresis-electrospray ionisation time-of-flight mass spectrometry (CE-ESI-TOF-MS) method for characterisation of non-covalent protein complexes is described using a coaxial liquid sheath-flow sprayer. The CE capillary was connected to the mass spectrometer using a commercial CE-MS sprayer mounted on a ceramic holder of the ESI interface of the mass spectrometer. Using myoglobin (Mb) as an example of non-covalent protein complex, the effect on complex stability caused by organic modifiers added to the sheath liquid was analysed. Depending on the amount of methanol, either intact Mb or the apoprotein and the prosthetic heme group were detected.     

A novel thiol compound, N-acetylcysteine amide, attenuates allergic airway disease by regulating activation of NF-kappaB and hypoxia-inducible factor-1alpha

Reactive oxygen species (ROS) play an important role in the pathogenesis of airway inflammation and hyperresponsiveness. Recent studies have demonstrated that antioxidants are able to reduce airway inflammation and hyperreactivity in animal models of allergic airway disease. A newly developed antioxidant, small molecular weight thiol compound, N-acetylcysteine amide (AD4) has been shown to increase cellular levels of glutathione and to attenuate oxidative stress related disorders such as Alzheimer's disease, Parkinson's disease, and multiple sclerosis. However, the effects of AD4 on allergic airway disease such as asthma are unknown. We used ovalbumin (OVA)-inhaled mice to evaluate the role of AD4 in allergic airway disease. In this study with OVA-inhaled mice, the increased ROS generation, the increased levels of Th2 cytokines and VEGF, the increased vascular permeability, the increased mucus production, and the increased airway resistance in the lungs were significantly reduced by the administration of AD4. We also found that the administration of AD4 decreased the increases of the NF-kappaB and hypoxia-inducible factor-1alpha (HIF-1alpha) levels in nuclear protein extracts of lung tissues after OVA inhalation. These results suggest that AD4 attenuates airway inflammation and hyperresponsiveness by regulating activation of NF-kappaB and HIF-1alpha as well as reducing ROS generation in allergic airway disease.