Resolution of human mercapt- and nonmercaptalbumin by high-performance liquid chromatography

Gel-exclusion high-performance liquid chromatographic (HPLC) analysis of human serum albumin (HSA) on PGP 2000 column (0.10 M sodium phosphate buffer, 0.30 M NaCl, pH 6.86) showed at least two peaks, the principal component corresponding to human mercaptalbumin (HMA) and the second one to human nonmercaptalbumin (HNA). Mechanism for the separation of HMA and HNA might be due to weak resin-HSA interaction. HPLC analysis of bovine plasma albumin (BPA) showed a single peak on PGP 2000 column. The elution volume of HSA was larger than that of BPA, resulting in a clear resolution of HSA and BPA.     

HPLC-studies on nonmercapt-mercapt conversion of human serum albumin

Human mercaptalbumin (HMA) and nonmercaptalbumin (HNA) could be separated by high-performance liquid chromatography (HPLC) at neutral pH. Using HPLC, the present authors found the nonmercapt-mercapt conversion (HNA----HMA) during hemodialysis and the mercapt-nonmercapt conversion (HMA----HNA) after hemodialysis in chronic renal failure, indicating HMA as the covalent carrier protein for sulfur-containing amino acids.     

Direct observation of covalent adducts with Cys34 of human serum albumin using mass spectrometry

The interactions of the unpaired thiol residue (Cys34) of human serum albumin (HSA) with low-molecular-weight thiols and an Au(I)-based antiarthritic drug have been examined using electrospray ionization mass spectrometry. Early measurements of the amount of HSA containing Cys34 as the free thiol suggested that up to 30% of circulating HSA bound cysteine as a mixed disulfide. It has also been suggested that reaction of HSA with cysteine, occurs only on handling and storage of plasma. In our experiments, there were three components of HSA in freshly collected plasma from normal volunteers, HSA, HSA+cysteine, and HSA+glucose in the ratio approximately 50:25:25. We addressed this controversy by using iodoacetamide to block the free thiol of HSA in fresh plasma, preventing its reaction with plasma cysteine. When iodoacetamide was injected into a vacutaner tube as blood was collected, the HSA was modified by iodoacetamide, with 20-30% present as the mixed disulfide with cysteine (HSA+cys). These data provide strong evidence that 20-30% of HSA in normal plasma contains one bound cysteine. Reaction of HSA with [Au(S(2)O(3))(2)](3-) resulted in formation of the adducts HSA+Au(S(2)O(3)) and HSA+Au. Reaction of HSA with iodoacetamide prior to treatment with [Au(S(2)O(3))(2)](3-) blocked the formation of gold adducts.     

Redox state of albumin affects its lipid mediator binding characteristics

Depending on its redox status, albumin is known to exist as two forms: reduced albumin or human mercaptalbumin (HMA); and oxidised albumin or human nonmercaptalbumin (HNA). The ratio of HNA to HMA is reportedly elevated in several diseases. Since lipid mediators, such as eicosanoids and lysophospholipids, are typically bound to albumin, we examined the possible preferences of lipid mediators for HNA or HMA. We observed that DHA-derived and EPA-derived eicosanoids preferred to be bound to HMA, while the levels of lysophospholipid mediators, such as lysophosphatidic acids and sphingosine 1-phosphate, were higher in the HNA fraction. Considering the bioactivities reported in previous basic studies, these results suggest that proatherosclerotic lipid mediators might generally prefer HNA, while antiatherosclerotic ones might prefer HMA. Oxidative stress affects the redox status of albumin, which might modulate the dynamism of lipid mediators. This pathway might be partly involved in the association between oxidation and atherosclerosis.     

Multiple forms of immunoreactive dynorphin in human pituitary and pheochromocytoma

Multiple forms of immunoreactive dynorphin (I-Dy) in human pituitary and pheochromocytoma were examined utilizing gel filtration and high performance liquid chromatography (HPLC). Gel filtration of I-Dy from these tissues revealed the major component in the position of Dy(1-17) and other minor components with large molecular weight forms. HPLC profile of this major component from gel filtration showed a large peak corresponding to the position of Dy(1-17) and small peaks corresponding to the positions of Dy (1-13), (1-12) and other unknown peptides. These results strongly suggest the presence of Dy(1-17) as the major component, and Dy (1-13), (1-12) or other unknown peptides as the minor components in these human tissues.     

Formation of albumin dimers induced by exposure to peroxides in human plasma: a possible biomarker for oxidative stress

Human serum albumin (HSA) has one free thiol residue at Cys-34 that is likely oxidized by various reactive oxygen species (ROS). We attempted to identify the oxidation product of Cys-34 of HSA following exposure of plasma to ROS. Oxidation induced by tert-butyl hydroperoxide (t-BuOOH) of this free cysteine residue in HSA was observed in detail. Analysis of oxidized albumin in a partially purified fraction obtained by affinity column chromatography clearly revealed the formation of albumin disulfide dimers following t-BuOOH exposure. Albumin disulfide dimer formation was observed in normal plasma following treatment with various peroxides, as well as in untreated plasma from patients on hemodialysis using SDS-PAGE and Western blot analysis. The present results indicate that albumin dimers are oxidative products derived from peroxides, and that their presence in plasma might be a marker of oxidative stress as secondary metabolites of peroxidation.     

Peptide fractionation by high-performance liquid chromatography on an Asahipak GS-320 column: application to determination of the disulfide pairings in ribonuclease F1

High-performance liquid chromatography on an Asahipak GS-320 column using isocratic elution with 0.1 M acetic acid has proven effective for fractionation of peptides of molecular weights lower than 3000. This technique enabled the separation of the peptides derived from digestion of native ribonuclease F1 by trypsin and chymotrypsin in combination with conventional gel filtration through Sephadex G-25 and reversed-phase HPLC. Amino acid analysis of the cystine-containing peptides thus obtained revealed the disulfide linkages Cys-6-Cys-102 and Cys-24-Cys-84 in this protein. The behavior of a number of peptides in the HPLC on an Asahipak GS-320 column is described and the separation mechanism is discussed.     

Single bouts of exercise affect albumin redox state and carbonyl groups on plasma protein of trained men in a workload-dependent manner.

The purpose of this study was to investigate the effect of single bouts of exercise at three different intensities on the redox state of human serum albumin (HSA) and on carbonyl groups on protein (CP) concentrations in plasma. Trained men [n = 44, maximal oxygen consumption (Vo(2max)): 55 +/- 5 ml.kg(-1).min(-1), nonsmokers, 34 +/- 5 years of age] from a homogenous population, volunteers from a police special forces unit, were randomly assigned to perform on a cycle ergometer either at 70% (n = 14), 75% (n = 14), or 80% (n = 16) of Vo(2max) for 40 min. Blood was collected before exercise, immediately after the exercise test (IE), and 30 min after each test (30M) and 30 h after each test (30H). The reduced fraction of HSA, human mercaptalbumin (HMA), decreased at all three exercise intensities IE and 30M, returning to preexercise values by 30H (P < 0.05). HMA was primarily oxidized to its reversible fraction human nonmercaptalbumin 1 (HNA1). CP concentrations increased at 75% of Vo(2max) IE and 30M with a tendency (P < 0.1) and at 80% Vo(2max) IE and 30M significantly, returning to preexercise concentrations by 30H (P < 0.01). These results indicate that the HSA redox system in plasma is activated after a single bout of cycle ergometer exercise at 70% Vo(2max) and 40 min duration. The extent of the HSA modification increased with exercise intensity. Oxidative protein damage, as indicated by CP, was only significantly increased at 80% Vo(2max) intensity in this homogenous cohort of trained men.     

Molecular dynamics study of conformational changes in human serum albumin by binding of fatty acids

Human serum albumin (HSA) binds with fatty acids under normal physiologic conditions. To date, there is little published information on the tertiary structure of HSA-fatty acid complex in aqueous solution. In the present study, we used molecular dynamics (MD) simulations to elucidate possible structural changes of HSA brought about by the binding of fatty acids. Both unliganded HSA and HSA-fatty acid complex models for MD calculations were constructed based on the X-ray crystal structures. Five myristates (MYRs) were bound in the HSA-fatty acid complex model. In the present MD study, the motion of domains I and III caused by the binding of MYR molecules increased the radius of gyration of HSA. Root-mean-square fluctuations from the MD simulations revealed that the atomic fluctuations of the specific amino acids at drug-binding site I that can regulate the drug-binding affinity were increased by the binding of MYR molecules. Primary internal motions, characterized by the first three principal components, were observed mainly at domains I and III in the principal component analysis for trajectory data. The directional motion projected on the first principal component of unliganded HSA was conserved in HSA-MYR complex as the third principal directional motion with higher frequency. However, the third principal directional motion in unliganded HSA turned into the first principal directional motion with lower frequency in the HSA-MYR complex. Thus, the present MD study provides insights into the possible conformational changes of HSA caused by the binding of fatty acids.     

Sulfenic acid formation in human serum albumin by hydrogen peroxide and peroxynitrite

Human serum albumin (HSA), the most abundant protein in plasma, has been proposed to have an antioxidant role. The main feature responsible for this property is its only thiol, Cys34, which comprises approximately 80% of the total free thiols in plasma and reacts preferentially with reactive oxygen and nitrogen species. Herein, we show that the thiol in HSA reacted with hydrogen peroxide with a second-order rate constant of 2.26 M(-1) s(-1) at pH 7.4 and 37 degrees C and a 1:1 stoichiometry. The formation of intermolecular disulfide dimers was not observed, suggesting that the thiol was being oxidized beyond the disulfide. With the reagent 7-chloro-4-nitrobenzo-2-oxa-1,3-diazol (NBD-Cl), we were able to detect the formation of sulfenic acid (HSA-SOH) from the UV-vis spectra of its adduct. The formation of sulfenic acid in Cys34 was confirmed by mass spectrometry using 5,5-dimethyl-1,3-cyclohexanedione (dimedone). Sulfenic acid was also formed from exposure of HSA to peroxynitrite, the product of the reaction between nitric oxide and superoxide radicals, in the absence or in the presence of carbon dioxide. The latter suggests that sulfenic acid can also be formed through free radical pathways since following reaction with carbon dioxide, peroxynitrite yields carbonate radical anion and nitrogen dioxide. Sulfenic acid in HSA was remarkably stable, with approximately 15% decaying after 2 h at 37 degrees C under aerobic conditions. The formation of glutathione disulfide and mixed HSA-glutathione disulfide was determined upon reaction of hydrogen peroxide-treated HSA with glutathione. Thus, HSA-SOH is proposed to serve as an intermediate in the formation of low molecular weight disulfides, which are the predominant plasma form of low molecular weight thiols, and in the formation of mixed HSA disulfides, which are present in approximately 25% of circulating HSA.     

一品红苞片花色素的分离及初步鉴定

用紫外-可见光分光光度计、高效液相色谱（HPLC）和质谱（MS）技术对一品红（Euphorbia pulcherrima）红色苞片中的花色素提取液进行了初步鉴定.一品红花色素的甲醇溶液分别在270、340和520 nm处有3个吸收峰;在440 nm吸光度与可见光最大吸收波长520 nm吸光度的比值为0.29;花色素的甲醇溶液中加入AlCl3后发生红移,再加入HCl后发生蓝移;色素溶液在紫外光下无荧光;色素样品经液相色谱分离后在270 nm检测有5个比较明显的吸收峰;质谱中得到595、611、381、571和589等对应的分子离子峰;花色素酸解液高效液相色谱图谱和鼠李糖、葡萄糖的出峰时间一致.由这些结果可推断一品红花色素样品中主要含有5种组分：矢车菊花色素芸香苷、飞燕草花色素芸香苷、飞燕草花色素苯甲酰基葡糖苷、矢车菊花色素苯甲酰基葡糖苷和一种未知成分.     

HPLC analysis of E. coli rRNA on ASAHIPAK GS-520 and nucleobases, nucleosides and nucleotides on ASAHIPAK GS-320

High-performance gel filtration chromatography using packed column Asahipak GS-520 was employed to separate E. coli 23S, 16S and 5S rRNAs. Low-molecular-weight components of nucleic acid were separated with Asahipak GS-320. Concurrent, rapid analysis of nucleobases, nucleosides and nucleotides was obtained isocratically. The elution of these substances is also described.     

一品红苞片花色素的分离及初步鉴定

用紫外-可见光分光光度计、高效液相色谱(HPLC)和质谱(MS)技术对一品红(Euphorbia pulcherrima)红色苞片中的花色素提取液进行了初步鉴定。一品红花色素的甲醇溶液分别在270、340 和520 nm 处有 3 个吸收峰; 在 440 nm 吸光度与可见光最大吸收波长 520 nm 吸光度的比值 为0.29; 花色素的甲醇溶液中加入AlCl3后发生红移, 再加入HCl后发生蓝移; 色素溶液在紫外光下无荧光; 色素样品经液相色谱分离后在 270 nm检测有 5 个比较明显的吸收峰; 质谱中得到 595、611、381、571 和 589 等对应的分子离子峰; 花色素酸解液高效液相色谱图谱和鼠李糖、葡萄糖的出峰时间一致。由这些结果可推断一品红花色素样品中主要含有 5 种组分: 矢车菊花色素芸香苷、飞燕草花色素芸香苷、飞燕草花色素苯甲酰基葡糖苷、矢车菊花色素苯甲酰基葡糖苷和一种未知成分。     

The binding of pyridoxal 5'-phosphate to human serum albumin

Most of the pyridoxal 5'-phosphate (PLP) in plasma is bound to protein, primarily albumin. Binding to protein is probably important in transporting PLP in the circulation and in regulating its metabolism. The binding of PLP to human serum albumin (HSA) was studied using absorption spectral analysis, equilibrium dialysis, and inhibition studies. The kinetics of the changes in the spectrum of PLP when mixed with an equimolar concentration of HSA at pH 7.4 followed a model for two-step consecutive binding with rate constants of 7.72 mM-1 min-1 and 0.088 min-1. The resulting PLP-HSA complex had absorption peaks at 338 and 414 nm and was reduced by potassium borohydride. The 414-nm peak is probably due to a protonated aldimine formed between PLP and HSA. The binding of PLP to bovine serum albumin (BSA) at equimolar concentrations at pH 7.4 occurred at about 10% the rate of its binding to HSA. The final PLP-BSA complex absorbed maximally at 334 nm and did not appear to be reduced with borohydride. Equilibrium dialysis of PLP and HSA indicated that there were more than one class of binding sites of HSA for PLP. There was one high affinity site with a dissociation constant of 8.7 microM and two or more other sites with dissociation constants of 90 microM or greater. PLP binding to HSA was inhibited by pyridoxal and 4-pyridoxic acid. It was not inhibited appreciably by inorganic phosphate or phosphorylated compounds. The binding of PLP to BSA was inhibited more than its binding to HSA by several compounds containing anionic groups. It is concluded that PLP binds differently to HSA than it does to BSA.     

Influence of quercetin on the interaction of gliclazide with human serum albumin – spectroscopic and docking approaches

Protein‐binding interactions are displacement reactions which have been implicated as the causative mechanisms in many drug–drug interactions. Thus, the aim of presented study was to analyse human serum albumin‐binding displacement interaction between two ligands, hypoglycaemic drug gliclazide and widely distributed plant flavonoid quercetin. Fluorescence analysis was used in order to investigate the effect of substances on intrinsic fluorescence of human serum albumin (HSA) and to define binding and quenching properties of ligand–albumin complexes in binary and ternary systems, respectively. Both ligands showed the ability to bind to HSA, although to a different extent. The displacement effect of one ligand from HSA by the other one has been described on the basis of the quenching curves and binding constants comparison for the binary and ternary systems. According to the fluorescence data analysis, gliclazide presents a substance with a lower binding capacity towards HSA compared with quercetin. Results also showed that the presence of quercetin hindered the interaction between HSA and gliclazide, as the binding constant for gliclazide in the ternary system was remarkably lower compared with the binary system. This finding indicates a possibility for an increase in the non‐bound fraction of gliclazide which can lead to its more significant hypoglycaemic effect. Additionally, secondary and tertiary structure conformational alterations of HSA upon binding of both ligands were investigated using synchronous fluorescence, circular dichroism and FT‐IR. Experimental data were complemented with molecular docking studies. Obtained results provide beneficial information about possible interference upon simultaneous co‐administration of the food/dietary supplement and drug.     

Alteration of redox state of human serum albumin in patients under anesthesia and invasive surgery

Human serum albumin is a mixture of mercapt- (HMA, reduced form) and nonmercaptalbumin (HNA, oxidized form). We studied the mercapt↔nonmercapt conversion of human serum albumin, which reflects the redox state of the extracellular fluids, in cardiac and other common surgical patients using high-performance liquid chromatography. Mean values of [(HMA)/(HMA + HNA)] ± standard deviation [f_HMA ± σ], for patients who received common surgery (group 1) and cardiac surgery (group 2) at the start of anesthesia were0.636±0.50(n=83) and 0.615±0.062(n=14), respectively. f_HMA values were markedly lower than those for healthy male adults of 0.750±0.028(n=28). f_HMA values increased at 24 h after the start of anesthesia and decreased on the 4th postoperative day in most of the patients. These postoperative changes were prominent in surgical cardiac patients. Although f_HMA values after the 7th postoperative day recovered to those at the start of anesthesia in almost all of common surgical patients, those in cardiac surgical patients, never recovered even on the 21st postoperative day.     

Disulfide assignments in recombinant mouse and human interleukin 4

The disulfide pairings of mouse and human interleukin 4 (IL-4) proteins have been determined. The purified proteins, synthesized by recombinant DNA technology, are fully active as judged by their ability to stimulate an appropriate biological response in a variety of functional assays. Peptide maps were produced by digesting the proteins with pepsin and separating the resulting fragments by reverse-phase HPLC using linear acetonitrile-TFA gradients. Cystine-containing peptides were identified by determining which reverse-phase peaks showed an altered elution pattern after reduction. These peptides were purified further and defined by composition and sequence analysis. Three sets of disulfide-linked peptides were consistently identified for each protein. For mouse IL-4, the first and fifth, second and fourth, and third and sixth cysteines are joined. The disulfide bonds in human IL-4 are between the first and sixth, second and fourth, and third and fifth cysteines. A large double-loop region within the central three-fifths of each protein is stabilized by these bonds. Sequence analysis of the peptides containing the third and fifth cysteines of human IL-4 also demonstrated that only one of the potential N-glycosylation sites is used by C127 mammary tumor cells. Complete alkylation of mouse IL-4 under mild conditions completely destroyed its biological activity in a hematopoietic precursor cell proliferation assay.     

Disulfide isoforms of recombinant glia maturation factor beta

Recombinant human glia maturation factor beta (r-hGMF-beta) is a single-chain polypeptide (141 amino acid residues) containing three cysteines, at positions 7, 86 and 95. Nascent r-hGMF-beta exists in the reduced state and has no biological activity. The protein can be activated through oxidative refolding by incubation with a mixture of reduced and oxidized glutathione. Reverse-phase HPLC analysis of the refolded r-hGMF-beta shows the presence of four peaks, corresponding to the reduced form plus three newly generated intrachain disulfide-containing isoforms predicted from the number of cysteine residues. Only one isoform shows biological activity when tested for growth suppression on C6 glioma cells. We infer from the HPLC elution pattern that the active form contains the disulfide bridge Cys86-Cys95.     

Conformational changes and allosteric communications in human serum albumin due to ligand binding

It is well recognized that knowledge of structure alone is not sufficient to understand the fundamental mechanism of biomolecular recognition. Information of dynamics is necessary to describe motions involving relevant conformational states of functional importance. We carried out principal component analysis (PCA) of structural ensemble, derived from 84 crystal structures of human serum albumin (HSA) with different ligands and/or different conditions, to identify the functionally important collective motions, and compared with the motions along the low-frequency modes obtained from normal mode analysis of the elastic network model (ENM) of unliganded HSA. Significant overlap is observed in the collective motions derived from PCA and ENM. PCA and ENM analysis revealed that ligand selects the most favored conformation from accessible equilibrium structures of unliganded HSA. Further, we analyzed dynamic network obtained from molecular dynamics simulations of unliganded HSA and fatty acids- bound HSA. Our results show that fatty acids-bound HSA has more robust community network with several routes to communicate among different parts of the protein. Critical nodes (residues) identified from dynamic network analysis are in good agreement with allosteric residues obtained from sequence-based statistical coupling analysis method. This work underscores the importance of intrinsic structural dynamics of proteins in ligand recognition and can be utilized for the development of novel drugs with optimum activity.     

Temperature effect on the structural stability, similarity, and reversibility of human serum albumin in different states

In order to investigate the thermal stability of human serum albumin (HAS) in three different states (aqueous solution, cast film, and solid powder), Fourier transform infrared (FTIR) spectroscopy was applied to determine the protein secondary structural changes of these HSA samples under non-isothermal or isothermal condition. The structural similarity of HSA before and after thermal treatment was also studied to estimate the thermo-reversible property of the HSA in these different states. The results indicate that with the increase of temperature, the maximum peaks at 1652 and 1547 cm(-1) (alpha-helix) shifted to 1647 and 1542 cm(-1) (random coil), respectively. An additional peak at 1620 cm(-1) assigned to intermolecular beta-sheet structure clearly appeared with temperature. The alpha-helix content was found to be reduced in favor of the formation of intermolecular hydrogen-bonded antiparallel beta-sheet structure beyond 60 degrees C in the heating process. From the data of structural similarity, HSA sample whether in solid powder or cast film form exhibited a better thermo-reversible property than HSA in aqueous solution even heating to 200 degrees C.