Molecular mechanism investigation on the interaction of Clothianidin with human serum albumin

Abstract

With the widespread application of neonicotinoid insecticides, Clothianidin has received much attention due to the potential harm to human health and ecological environment. However, the mechanism of Clothianidin's underlying toxicity to organisms remains unclear. In this work, the interaction between Clothianidin and human serum albumin was investigated and the intrinsic fluorescence of human serum albumin got quenched via static mechanisms upon the addition of Clothianidin. The binding constants between Clothianidin and human serum albumin at three different temperature were obtained to be 3.543?×?10⁴, 2.995?×?10⁴, and 2.490?×?10⁴ M^?1, respectively. Based on the van't Hoff equation, the thermodynamic parameters, ΔH⁰ and ΔS⁰ were estimated to be ?53.885?KJ mol^?1 and ?110.535?J mol^?1K^?1, respectively. A single binding site was predicted from the binding constants at different temperatures by multiple spectroscopic techniques and the negative values of ΔH⁰ and ΔS⁰ indicated the binding of human serum albumin with Clothianidin was driven by hydrogen bonds or van der Waals forces. Furthermore, the loose and unfolded secondary structure of human serum albumin along with the addition of clothianidin had been observed through ultraviolet-visible absorption and circular dichroism spectra. In addition, it was also found that Clothianidin had polar effects of structural microenviroment not only on Trp but also Tyr residues from synchronous fluorescence analysis. This study illuminates the molecular mechanism of the interaction between human serum albumin and clothianidin for the first time and helps to construct a specific pesticide biosensor system of human health.     

In Vitro Study of Ketoprofen and Indapamide Used in Multidrug Therapy: 1H-NMR Analysis

ABSTRACT

Interaction of ketoprofen (KP, a nonsteroidal anti-inflammatory drug) and indapamide (IDP, a thiazide-related diuretic) with human serum albumin (HSA) in low-affinity binding sites (LAS) and competition between these medicines used in multidrug therapy have been studied by proton nuclear magnetic resonance (¹H-NMR) spectroscopy.

The analysis of chemical shifts, Δσ (ppm), of drug proton resonances and the values of the association constant, K_a [M^?1], were used to estimate the effect of IDP and KP on the KP–HSA and IDP–HSA complexes, respectively. The results showed the changes in the affinity of human serum albumin toward the drug with different mechanisms of action (KP and IDP) and the competition in the binding to HSA.     

Gd-DTPA-induced dynamic metabonomic changes in rat biofluids

ObjectivesThe purposes of this study were (1) to detect the dynamic metabonomic changes induced by gadopentetate dimeglumine (Gd-DTPA) and (2) to investigate the potential metabolic disturbances associated with the pathogenesis of nephrogenic systemic fibrosis (NSF) at the early stage.MethodsA nuclear magnetic resonance (NMR)-based metabolomics approach was used to investigate the urinary and serum metabolic changes induced by a single tail vein injection of Gd-DTPA (dosed at 2 and 5 mmol/kg body weight) in rats. Urine and serum samples were collected on days 1, 2 and 7 after dosing.ResultsMetabolic responses of rats to Gd-DTPA administration were systematic involving changes in lipid metabolism, glucose metabolism, TCA cycle, amino acid metabolism and gut microbiota functions. Urinary and serum metabonomic recovery could be observed in both the 2 and 5 mmol/kg body weight group, but the metabolic effects of high-dosed (5 mmol/kg body weight) Gd-DTPA lasted longer. It is worth noting that hyperlipidemia was observed after Gd-DTPA injection, and nicotinate might play a role in the subsequent self-recovery of lipid metabolism. The disturbance of tyrosine, glutamate and gut microbiota metabolism might associate with the progression of NSF.ConclusionThese findings offered essential information about the metabolic changes induced by Gd-DTPA, and could be potentially important for investigating the pathogenesis of NSF at the early stage. Moreover, the recovery of rats administrated with Gd-DTPA may have implications in the treatment of early stage NSF.     

Synthesis and characterization of β-cyclodextrin/fraxinellone inclusion complex and its influence on interaction with human serum albumin

Aqueous solubility is one of the key determinants in developing new chemical entities as drugs. In this study, to improve the solubility of fraxinellone, a novel β-cyclodextrin/fraxinellone inclusion complex was prepared and characterized by Fourier transform infrared spectroscopy, thermogravimetric analysis, X-ray diffraction, and elemental analysis. Moreover, the influence of inclusion of small molecule by cyclodextrins on its binding with transporter in human body is essential for drug development. For the first time, we report the interaction of fraxinellone and its inclusion complex with human serum albumin. Fluorescence quenching of albumin by fraxinellone and its inclusion complex is a static process through complex formation. The results indicated that β-cyclodextrin did not affect the binding force and site of fraxinellone to the protein. Furthermore, circular dichroism showed that both fraxinellone and its inclusion complex induced a significant change in the secondary structure of human serum albumin.     

Curcumin as a tool to assess the surface hydrophobicity of proteins

ABSTRACT

Curcumin is non-fluorescent in aqueous media; however, in the vicinity of hydrophobic surface it fluoresces. This property is used to assess the use of curcumin as a surface hydrophobic probe. The surface hydrophobicity of proteins was measured by calculating the binding affinity and surface hydrophobicity index value. Surface hydrophobicity of bovine serum albumin, β-lactoglobulin, soy lipoxygenase-1, ovalbumin, and lysozyme is in the following order: bovine serum albumin?>?β-lactoglobulin?>?soy lipoxygenase-1?>?ovalbumin?>?lysozyme. The binding affinities of curcumin decreased with the decrease in surface hydrophobicity of proteins. The orders of surface hydrophobicity index value, determined using curcumin, show similar trend with the reported values of standard probes, viz. cis-parinaric acid and 1-anilinonaphthalene-8-sulfonate. The surface hydrophobicity index value of proteins determined using curcumin decreased in the presence of urea, suggesting the possible use of curcumin as a probe to determine the surface hydrophobicity of proteins.     

Determination of Microamounts of Proteins by Resonance Light Scattering with Copper Phthalocyanine Tetrasulfonic Acid

Abstract

Based on the strong enhancement effect of proteins on the resonance light scattering of copper phthalocyanine tetrasulfonic acid, a method for the determination of microamounts of proteins has been developed. Under the experimental conditions (2.0×10^?6 mol/L copper phthalocyanine tetrasulfonic acid, pH 2.60, ionic strength 0.001 mol/L NaCl), the linear range of this assay is 0.06–4.0 µg/mL for bovine serum albumin (BSA), 0.1–2.0 µg/mL for human serum albumin (HSA), 0.0–2.0 µg/mL for human γ‐IgG, and 0.2–6.0 µg/mL for ovalbumin. The detection limits (3δ) are 16.8 ng/mL for BSA, 23.4 ng/mL for HSA, 37.6 ng/mL for human γ‐IgG, and 48.3 ng/mL for ovalbumin, respectively. This method has been applied to the analysis of total proteins in human serum samples collected from the hospital, and the results were in good agreement with those reported by the hospital.     

Determination of Radiation Dose Distribution by Magnetic Resonance Imaging in the New Tissue Equivalent Gel

Abstract

A new tissue-equivalent substance for the MR dosimetry has been developed. It is composed of water, bovine serum albumin, acrylamide with N,N′-methylene-bis-acrylamide, ammonium ferrous sulphate and sulphuric acid. The elemental composition, mass density, and electron density of the PIRA gel are closer to real tissue than those of dosimeter gels previously investigated. Irradiation causes the changes in the NMR properties of the gel. The dose dependence of NMR longitudinal relaxation rate, R1, is reproducible (less than 2% variation) and is linear up to about 30 Gy, with a slope of 0.023 s^?1Gy^?1 at 0.48 T. The gel, referred to as PIRA, can be used to obtain accurate radiation dose distribution with conventional magnetic resonance imaging devices.     

FTIR‐ATR Study of pH Effects on Egg Albumin Secondary Structure

Abstract

The pH effects on the secondary structures of egg albumin were investigated using Fourier transform infrared–attenuated total reflection (FTIR‐ATR) technique with a single‐bounce diamond crystal. The albumin was first denatured in a series of solutions with pH ranging from 1 to 12. The albumin film was then cast on the ATR crystal from the albumin solution for the IR spectrum collection. Significant secondary structure spectral differences were observed for these films. The findings are presented in terms of the shape and position of the albumin amide I band between 1600 and 1700 cm^?1.     

长链脂肪酸影响胆红素-人血清蛋白复合物的激发态分化

胆红素与人血清白蛋白结合后会发生光异构和光诱导环化反应,其中后一反应将最终形成一种名为光红素的产物,这些光诱导化学反应是临床上治疗新生儿黄疸的基本原理. 据前人研究报道,长链脂肪酸的加入有利于光红素的生成,但其背后的机理,特别是其激发态动力学尚不明确. 本文利用飞秒瞬态吸收和飞秒荧光转换技术,探究了棕榈酸对胆红素在血清蛋白中的光化学反应的影响. 研究表明,随着棕榈酸的加入,光激发后的胆红素更倾向于通过4 ps的衰减通道返回热基态,而不是通过固有的超快激发态衰减途径(小于1 ps). 这一效应促进了热基态的胆红素发生由Z-Z到E-Z构型的异构化,从而提高了光红素的产率. 这是首次利用飞秒时间分辨光谱技术对长链脂肪酸在光疗过程中的作用进行表征,其结果可为相关临床研究提供有利的信息.     

Studies on the interaction of gliclazide with bovine serum albumin by fluorescence and synchronous fluorescence spectroscopy

The interaction between gliclazide and bovine serum albumin was investigated by fluorescence and synchronous fluorescence spectroscopy. From the experimental results, it was found that the quenching mechanism was static. The results of the synchronous fluorescence obtained indicated that the binding of gliclazide with bovine serum albumin could affect conformation in bovine serum albumin. In addition, the binding constants (K_a), binding sites (n), thermodynamic parameters, binding forces, Hill’s coefficient, and binding rate of gliclazide to protein calculated from two methods using the same equation were consistent at three different temperatures (298, 310, 318 K). This indicated that as a useful supplement to the conventional method, synchronous fluorescence spectroscopy could be used to study the mechanism of drugs and proteins. The conclusion was verified by UV/vis method.     

Fluorescence Study of Sinapic Acid Interaction with Bovine Serum Albumin and Egg Albumin

The mechanism of interaction of protein with compounds used for preparation of matrices for matrix-assisted laser desorption ionization–mass spectrometry (MALDI-MS) methods is unknown. This paper reports the investigation of this mechanism for sinapic acid and bovine serum albumin and egg albumin. To examine these interactions in water a fluorescence method was applied. Sinapic acid can exist in three different forms, depending on pH: undissociated and with one or two deprotonated groups. pK_as of these states are: 4.47 for the COOH group and 9.21 for the OH group [1]. Therefore the interactions were examined at pH: 2.0, 6.4, and 10.5. The results show that sinapic acid at pH 10.5, being a bivalent anion, does not form any complex with these two proteins. At pH 2.0, sinapic acid, being undissociated, interacts weakly with egg albumin. Sinapic acid does not interact with bovine serum albumin at this pH. At pH 6.4, sinapic acid interacts only with bovine serum albumin. Parameters of the sinapic acid and bovine serum albumin complex were calculated based on the theory of multiple equlibria: the total number of binding sites, N = 15; the binding constant, K = 600 M ^–1; and the Hill's coefficient, j = 0.97. These parameters indicate (but not definitively because a large saturation was not obtained) that this is a simple binding of sinapic acid to bovine serum albumin with the binding sites of the same type.     

Study on the analytical solution of the MSA for a one-component two-Yukawa potential in bovine serum albumin—NaC1 aqueous solution

Using the mean spherical approximation (MSA), an explicit analytical equation of state (EOS) with non-dimensional variables for one-component two-Yukawa fluid is established based on the work of Blum, L., and Ubriaco, M., 2000, Molec. Phys., 98, 829. A simple and directly iterative method is found for obtaining an acceptable solution. The strict two-Yukawa EOS is used to correlate the experimental osmotic pressure data of aqueous bovine serum albumin (BSA)-NaCl solutions in the one-component assumption. Considering the experimental error, the correlation results are good, with only one regressed parameter (disperse energy parameter ?). The deviation of correlation is discussed in detail. A concept of effective diameter, which obviously can decrease the deviation of correlation, is given.     

Conformation transitions of blood proteins under influence of physical factors on microwave dielectric method

In this article, the influence of γ-irradiation and temperature on albumin and fibrinogen conformation and dielectric properties of protein solutions have been studied by the microwave dielectric method. Both the values of the real part ε′ (dielectric permittivity) and the imaginary part ε″ (dielectric losses) of the complex dielectric permittivity of the aqueous solution of bovine serum albumin and human fibrinogen as functions of temperature and γ-irradiation dose have been obtained. The time of dielectric relaxation of water molecules in the protein solutions was calculated. The hydration of the albumin and fibrinogen molecules was determined. The temperature dependencies of hydration are non-monotonous and have a number of characteristic features at the temperatures 30-34 and 44-47 °C for serum albumin, and 24 and 32 °C for fibrinogen.     

Static and Dynamic Quenching of Tryptophan Fluorescence in Various Proteins by a Chromium (III) Complex

The interaction of a chromium (III) complex, (R,R)-N,N′-Bis(3,5-di-tert-butylsalicylidene)-1,2-cyclohexane-diaminochromium (III), with human serum albumin, bovine serum albumin, lysozyme, and free tryptophan was studied using steady-state fluorescence spectroscopy. Dynamic and static quenching constants were calculated using Stern-Volmer kinetics. The complex bound more tightly to the serum albumins than to lysozyme or free tryptophan, but only one binding site was determined in all systems. The interaction was also determined to be thermodynamically favorable, and the binding constants were on the order of 10³–10⁶. The fluorescence quenching was static in nature with Forster distances in the 1.8–2.0 nm range.     

Determination of Protein by Fluorescence Enhancement of Curcumin in Lanthanum-Curcumin-Sodium Dodecyl Benzene Sulfonate-Protein System

We found that the fluorescence intensity of the lanthanum (La³⁺)-curcumin (CU) complex can be highly enhanced by proteins in the presence of sodium dodecyl benzene sulphonate (SDBS). Based on this finding, a new fluorimetric method for the determination of protein was developed. Under optimized conditions, the enhanced intensities of fluorescence are quantitatively in proportion to the concentrations of proteins in the range 0.0080?C20.0 ??g·mL^?1 for bovine serum albumin (BSA) and 0.00080?C20.0 ??g·mL^?1 for human serum albumin (HSA) with excitation of 425 nm, and 0.00020?C20.0 ??g·mL^?1 for bovine serum albumin (BSA) and 0.00080?C20.0 ??g·mL^?1for human serum albumin (HSA) with excitation of 280 nm, while corresponding qualitative detection limits (S/N????3) are as low as 5.368, 0.573, 0.049, 0.562 µg·mL^?1, respectively. Study on reaction mechanism reveals that proteins can bind with La³⁺, CU and SDBS through self-assembling function with electrostatic attraction, hydrogen bonding, hydrophobic interaction and van der Waals forces, etc. The proteins form a supermolecular association with multilayer structure, in which La³⁺-CU is clamped between BSA and SDBS. The unique high fluorescence enhancement of CU is resulted through synergic effects of favorable hydrophobic microenvironment provided by BSA and SDBS, and efficient intermolecular energy transfer among BSA, SDBS and CU. In energy transfer process, La³⁺ plays a crucial role because it not only shortens the distance between SDBS and CU, but also acts as a ??bridge?? for transferring the energy from BSA to CU.     

Binding Study of Phenformin with Bovine Serum Album Using a Combined Technique of Equilibrium Dialysis with Flow-Injection Chemiluminescence Detection

ABSTRACT

The interaction between phenformin hydrochloride and bovine serum albumin (BSA) was investigated by the methods of chemiluminescence combined with equilibrium dialysis technique. A novel N-bromosuccinimide (NBS)–eosin Y (EY) chemiluminescence (CL) method was established for the determination of phenformin. The mechanism of this chemiluminescence system was proposed. Optimization studies were performed to determine the phenformin. Under the optimal conditions, the CL intensity was linear for a phenformin concentration over the range of 4.6 × 10^?8 to 5.0 × 10^?5 g/mL. The detection limit was 1.5 × 10^?8 g/mL. The data obtained by the present equilibrium dialysis–CL system were analyzed using the Klotz plot and the Scatchard analysis. The results showed that the Klotz plot and the Scatchard plot are linear with good correlation coefficient, indicating that the phenformin has only one type of binding site on BSA. The binding parameters were the number of the binding sites n (1.02) and the estimated association constant K (2.66 × 10⁴ L/mol). The chemiluminescence system combined with equilibrium dialysis developed in this work demonstrated its use for determination of interaction between drug and protein by using relatively simple instrument.     

Mutual information theory for biomedical applications: Estimation of three protein-adsorbed dialysis membranes

Protein-adsorbed dialysis membranes are evaluated with time-of-flight secondary ion mass spectrometry (TOF-SIMS) chemical imaging technique. Protein adsorption causing permeability change is one of big issues in the development of dialysis membranes. Bovine serum albumin adsorption onto three kinds of dialysis membranes has been evaluated with TOF-SIMS. In the present study three kinds of proteins, bovine serum albumin, α-chymotripsinogen A, and cytochrome C adsorbed onto hollow-fiber dialysis membranes, were measured by means of TOF-SIMS and then TOF-SIMS spectra were analyzed using mutual information. Then specific peaks of fragment ions related to α-chymotripsinogen A and bovine serum albumin were found, respectively. In this condition, however, specific peaks to cytochrome C were not able to find compared with other samples. Finally, chemical images of α-chymotripsinogen A and bovine serum albumin, respectively, adsorbed onto the membranes with co-existing proteins were obtained. The results of TOF-SIMS images of the proteins on the membranes show different tendency of adsorption depending on co-existing proteins. Further study is needed to study more detailed protein adsorption onto the membranes with co-existing proteins.     

Synthesis of Amide Compounds of Ferulic Acid and Their Association with Bovine Serum Albumin

ABSTRACT

In this work, three new amide compounds of ferulic acid (FA) were synthesized. The fluorescence and ultraviolet spectroscopy were explored to study the interactions between three amide compounds of FA and bovine serum albumin (BSA) under imitated physiological conditions. The experimental results showed that the fluorescence quenching mechanism between BSA and three amide compounds of FA were mainly static quenching and nonradiation energy transfer at 25°C, 30°C, and 37°C. The Stern–Volmer quenching constants, the binding constants, and the number of binding sites and corresponding thermodynamic parameters ΔH, ΔG, and ΔS were calculated at different temperatures. From the thermodynamic parameters, we concluded that the action force was mainly a hydrophobic interaction. According to the F?rster theory of nonradiation energy transfer, the binding distances (r) between BSA and amide compounds are less than 7 nm. Furthermore, the effects of amide compounds on the conformation of BSA were analyzed using synchronous fluorescence spectroscopy.     

Interaction of fisetin with human serum albumin by fluorescence, circular dichroism spectroscopy and DFT calculations: binding parameters and conformational changes

The interaction between fisetin, an antioxidant and neuroprotective flavonoid, and human serum albumin (HSA) is investigated by means of fluorescence (steady-state, synchronous, time-resolved) and circular dichroism (CD) spectroscopy. The formation of a 1:1 complex with a constant of about 10⁵ M⁻¹ was evidenced. Förster's resonance energy transfer and competitive binding with site markers warfarin and ibuprofen were considered and discussed. Changes in the CD band of HSA indicate a decrease in the α-helix content upon binding. An induced CD signal for bound fisetin was observed and rationalized in terms of density functional theory calculations.     

Ellipsometry studies of albumin films on tantalum oxide and SiO2

The adsorption of (1) bovine serum albumin in acetate buffer, (2) albumin followed by glutaraldehyde crosslinking, (3) albumin followed by exposure to an albumin/glutaraldehyde solution, and (4) albumin after the surface was subjected to treatment (3), has been studied using Ta oxide/Ta chips and SiO₂/Si wafers as substrates. The films were washed, air dried and measured in air using an automatic laser ellipsometer, 6328 Å. The films formed from treatment (3) and treatment (4) have a lower refractive index and are thicker than films formed from treatment (1) and treatment (2). The adsorption of albumin on SiO₂/Si wafers seems to be slower than that on the Ta oxide/Ta surfaces.