Species-dependent binding of serum albumins to the streptococcal receptor protein G

The interaction of the serum albumin binding domain from streptococcal protein G to serum albumins isolated from different species was investigated. The highest affinity to protein G was found for serum albumins from rat, man and mouse. A medium binding was found for serum albumin from rabbit, cow, hen and horse, while little or no binding was found for ovalbumin and serum albumin from sheep. The interaction between human serum albumin and protein G showed rapid binding kinetics at the temperatures 7, 22 and 37 degrees C. Furthermore, the ability of different serum albumins to function as affinity ligands when covalently coupled to a solid support was tested. The results show that protein G derivatives could be eluted at different pH depending on the origin of the serum albumin. It was also possible to elute the streptococcal receptor efficiently from the mouse serum albumin matrix with human serum albumin. Based on these results, a gene fusion system for recovery of sensitive proteins by affinity purification is described, where high yields are obtained under mild elution conditions.     

The effect of ligand presaturation on the interaction of serum albumins with an immobilized Cibacron Blue 3G-A studied by affinity gel electrophoresis.

The interaction of the immobilized triazine dye Cibacron Blue 3G-A with rat, rabbit, sheep, goat, bovine and human serum albumins was studied by affinity gel electrophoresis. Dissociation constants were estimated in each instance and showed human serum albumin to have a significantly higher affinity for the dye than did albumin from any other species. Pretreatment of the defatted proteins with bilirubin (3 mol of bilirubin/mol of protein) did not increase the dissociation constants of the serum albumins, whereas pretreatment with palmitate (7 mol of palmitate/mol of protein) increased the dissociation constant in all cases: 3-fold for human serum albumin, 15-fold for other serum albumins. Increasing the bilirubin/albumin ratio (to 7:1) did not affect the dissociation constant of the albumins studied. Decreasing the palmitate/albumin ratio decreased the dissociation constant for human serum albumin, but did not affect those of bovine and rat albumins. Altering the chain length of the presaturating fatty acid dramatically changed the dissociation constant of both human and bovine serum albumins. Butyrate, hexanoate, octanoate and decanoate did not significantly influence the dissociation constants of bovine and human serum albumins for Cibacron Blue, whereas laurate, myristate and palmitate greatly increased the dissociation constant. These data are discussed in relationship to the behaviour of albumins during dye--agarose column chromatography. In Addendum the effect of nucleotide presaturation on the interaction between Bacillus stearothermophilus 6-phosphogluconate dehydrogenase and the immobilized triazine dyes Cibacron Blue 3G-A and Procion Red HE-3B was examined, and the implications for dye--ligand chromatography are discussed.     

Studies on the mechanism of binding of serum albumins to immobilized cibacron blue F3G A.

The interaction of Cibacron Blue F3G A-Sepharose 4B with several serum albumins was studied. Although all albumins used were fond to bind to this adsorbent, human serum albumin was bound to a far greater extent than were the others. From the results of competition experiments and n.m.r. studies of Cibacron Blue and/or bilirubin binding to human serum albumin it is proposed that the mechanism of the interaction between human serum albumin and cibacron Blue is consistent wit Cibacron Blue binding to bilirubin-binding sites. In contrast with these findings with human serum albumin, there is little or no interaction of Cibacron Blue and the bilirubin-binding sites of albumins from rabbit, horse, bovine or sheep sera, although some interaction occurs between Cibacron Blue and the fatty acid-binding sites of these proteins. Structural analogues of Cibacron Blue have been used to investigate the binding of albumins to these ligands.     

Investigations of interaction mechanism and conformational variation of serum albumin affected by artemisinin and dihydroartemisinin

In this work, binding interactions of artemisinin (ART) and dihydroartemisinin (DHA) with human serum albumin (HSA) and bovine serum albumin (BSA) were investigated thoroughly to illustrate the conformational variation of serum albumin. Experimental results indicated that ART and DHA bound strongly with the site I of serum albumins via hydrogen bond (H-bond) and van der Waals force and subsequently statically quenched the intrinsic fluorescence of serum albumins through concentration-dependent manner. The quenching abilities of two drugs on the intrinsic fluorescence of HSA were much higher than the quenching abilities of two drugs on the intrinsic fluorescence of BSA. Both ART and DHA, especially DHA, caused the conformational variation of serum albumins and reduced the α-helix structure content of serum albumins. DHA with hydrophilic hydroxyl group bound with HSA more strongly, suggesting the important roles of the chemical polarity and the hydrophilicity during the binding interactions of two drugs with serum albumins. These results reveal the molecular understanding of binding interactions between ART derivatives and serum albumins, providing vital information for the future application of ART derivatives in biological and clinical areas.     

Spectral and fluorescent study of the interaction of squarylium dyes,derivatives of 3<Emphasis Type="Italic">H</Emphasis>-indolium,with albumins

Noncovalent interaction of intraionic squarylium dyes, derivatives of 3H-indolium, as well as the structurally analogous ionic indodicarbocyanine dye with serum albumins (human, bovine, rat) and, for comparison, with ovalbumin has been studied by spectral and fluorescent methods. The hydrophilic squarylium dye with sulfonate groups was found to interact with albumins more efficiently, which is probably due to the double negative charge on the dye molecule at the expense of the sulfonate groups and the ability to form hydrogen bonds with albumin. The hydrophilic indodicarbocyanine dye without the squarylium group in its structure binds to albumins much weaker than the structurally analogous squarylium dye. The dyes bind to ovalbumin less efficiently than to serum albumins. Along with the binding of monomeric dye molecules, the aggregation of the dyes on albumins is also observed. The hydrophobic squarylium dye without sulfonate groups tends to form aggregates in aqueous solutions, which partially decompose upon the introduction of albumin into the solution. The hydrophilic squarylium dye with sulfonate groups can be recommended for tests as a spectral-fluorescent probe for serum albumins in extracellular media of living organisms.     

Molecular characteristics of methylglyoxal-modified bovine and human serum albumins. Comparison with glucose-derived advanced glycation endproduct-modified serum albumins

The amino acid modification, gel filtration chromatographic, and electrophoretic characteristics of bovine and human serum albumins irreversibly modified by methylglyoxal (MG-SA) and by glucose-derived advanced glycation endproducts (AGE-SA) were investigated. Methylglyoxal selectively modified arginine residues at low concentration (1 mM); at high methylglyoxal concentration (100 mM), the extent of arginine modification increased and lysine residues were also modified. Both arginine and lysine residues were modified in AGE-SA. Analytical gel filtration HPLC of serum albumin derivatives suggested that the proportion of dimers and oligomers increased with modification in both low and highly modified MG-SA and AGE-SA derivatives relative to unmodified serum albumins. In SDS-PAGE analysis, dimers and oligomers of low-modified MG-SA were dissociated into monomers, but not in highly modified MG-SA. MG-SA had increased anodic electrophoretic mobility under nondenaturing conditions atpH 8.6, indicating an increased net negative charge, which increased with extent of modification; highly modified MG-SA and AGE-SA had similar high electrophoretic mobilities. MG-SA derivatives were fluorescent: the fluorescence was characteristic of the arginine-derived imidazoloneN -(5-methyl-4-imidazolon-2-yl)ornithine, but other fluorophores were also present. AGE-SA had similar fluorescence, attributed, in part, to glucose-derived imidazolones. AGE formed from glucose-modified proteins and AGE-like compounds formed from methylglyoxal-modified proteins may both be signals for recognition and degradation of senescent macromolecules.Abbreviations AGE advanced glycation endproduct - BSA bovine serum albumin - HSA human serum albumin - MG-SA methylglyoxal-modified serum albumin - MG-BSA methylglyoxal-modified bovine serum albumin - MG-HSA methylglyoxal-modified human serum albumin - AGE-SA AGE-modified serum albumin - AGE-BSA AGE-modified bovine serum albumin - AGE-HSA AGE-modified human serum albumin - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - HPLC high-performance liquid chromatography - FFI 2-(2-furoyl)-4(5)-(2-furanyl)-1H-imidazole     

Changes of serum albumin affinity for aspirin induced by fatty acid

Saturated fatty acids such as myristic acid play an important role in the pathogenesis of cardiovascular disorders.

Using the quenching fluorescence method we examined the influence of myristate on the changes of transporting protein affinity towards aspirin—the most popular anticoagulant.

Our results showed that the presence of the myristic acid alters the stability of the anticoagulant–albumin complex. The ranges of [myristate]/[albumin] molar ratio at which the stability of drug–protein complex increases or decreases were determined. The differences in interaction between ligands and human or bovine serum albumins were identified. The competition in binding of ligands with these albumins was also described.     

Immobilized metal ion affinity chromatography of serum albumins.

The interaction of several serum albumins with chelated (iminodiacetate, IDA) and immobilized (agarose-IDA) metal ions, Co2+, Ni2+, Cu2+ and Zn2+, was studied. There was no retention of human, bovine, porcine, murine and avian albumins on IDA-Zn(II) and IDA-Co(II) columns. However, all albumins studied, i.e., those of: man, cow, pig, dog, rabbit, rat, mouse, chicken and pigeon were retained on IDA-Cu(II) columns, and all except dog albumin were retained also on IDA-Ni(II). The recognition of albumins by chelated and immobilized transition metals seems to be related to an affinity for the imidazole side chains. It is postulated that one to three imidazoles is involved in this interaction, under the employed experimental conditions (pH 7.0; 1 M sodium chloride). There is no evidence for any significant contribution of tryptophan or cysteine (Cys 34) residues to the chromatographic event. The retention of defatted albumin and albumin oligomers (human), on IDA-Cu(II) columns was not significantly different from that of non-defatted albumin or albumin monomer, respectively.     

The binding of L-tryptophan to serum albumins in the presence of non-esterified fatty acids.

Bovine, human and rat serum albumins were defatted and palmitic acid, oleic acid and lauric acid added in various molar ratios. The binding of L-tryptophan to these albumins was measured at 20 degrees C in a 0.138 M salt solution at pH 7.4, by using an ultrafiltration technique, and analysed in terms of n, the number of available tryptophan-binding sites per albumin molecule, with apparent association constant, k. 2. n and k were 0.90 and 2.3x10(-4)M(minus-1) respectively for defatted bovine serum albumin and 0.87 and 9.7x10(-3)M(-minus-1) for human albumin. Addition of palmitic acid did not decrease n until the molar ratio, fatty acid/bovine albumin, approached and exceeded 2. The decrease in k was small and progressive. In contrast, lauric caused a marked decrease in n and k at ratios as low as 0.5. A similar distinction between the effects on n of palmitic acid and oleic acid and those of lauric acid was seen for human albumin. k for human albumin was not significantly affected by fatty acids under the conditions studied. 3. It is concluded that primary long-chain fatty acid sites interact only weakly with the tryptophan site on albumin and that inhibition of tryptophan binding occurs when secondary long-chain sites are occupied. Primary medium-chain fatty acid sites are distinct from primary long-chain sites but may be grouped with secondary long-chain sites. 4. The relationship between free and bound tryptophan in samples of rat plasma (Stoner et al., 1975) is discussed in terms of a similar but limited study of rat albumin.     

The paradoxical effect of fatty acid on steroid-albumin interaction.

Careful investigation of the influence of palmitic and lauric acid on the interaction of progesterone and testosterone with several batches of untreated and defatted bovine and human serum albumins have revealed that, by contrast with published data for studies with progesterone as well as nonsteroid ligands, there is a surprising stimulation rather than inhibition of binding, albeit with a reduction of the apparent number of binding sites in almost all instances. Furthermore, fatty acid tends to minimize or eliminate the well-known differences in affinity between bovine and human albumin for interactions with these two steroids. The values for binding affinity in the interaction of testosterone with these batches of human serum albumin are significantly higher than those previously published by us and other authors and the value for progesterone-bovine albumin interaction is not in accordance with the "polarity rule". Studies of these same interactions by ultraviolet difference spectroscopy give further evidence of the augmentation in binding but, in the case of defatted bovine albumin only, the aromatic difference troughs are indicative of tyrosine perturbation whereas refatted bovine albumin, defatted and refatted human albumin manifest tryptophan perturbation. Quantitative correlation of perturbation with level of bound steroid suggests that fatty acid alters the ratio (possibly hydrogen-bonded to non hydrogen-bonded) of two forms of bound steroid. There is also further evidence that the binding sites for testosterone and progesterone are not identical.     

Hemin-induced lysis of rat erythrocytes. Protective action of ceruloplasmin and different serum albumins

Hemin-induced lysis of rat erythrocytes is markedly reduced by ceruloplasmin (human) and serum albumins from different species, the order of effectiveness beings: bovine albumin approximately equal to ceruloplasmin greater than human albumin approximately equal to dog albumin greater than apotransferrin (human). Although the proteins studied had hemin binding capacity, the best protective agents, ceruloplasmin and bovine albumin, did bind hemin less strongly than human and dog albumin. The results suggest the existence of another protective mechanism, possibly involving an interaction between erythrocyte membranes and serum proteins.     

Spectroscopic studies on the complex formation of suramin with bovine and human serum albumin.

The binding of suramin to bovine and human serum albumin was investigated by gel filtration and spectroscopic measurements. Besides some low-affinity binding sites suramin has, on the bovine serum albumin molecule one and on the human serum albumin molecule two, high-affinity binding sites. Spectroscopic measurements reveal that there are large differences between the albumins in the mechanism of binding to the high-affinity binding sites. Further, it is suggested that high concentrations of suramin provoke an unfolding of the albumin moleculse. In order to explain the unusual behaviour of suramin in connection with the displacement of other ligands from the albumin binding the fluorescence probe 1-anilino-8-naphthalenesulfonic acid (ANS) was employed as a reporter group molecule for fluorescence as well as circular dichroism measurements. By these measurements it could be shown that suramin greatly influences the microorganization of both albumin molecules. In the case of these measurements large differences between bovine and human serum albumin were also found.     

Use of fluorescence enhancement technique to study bilirubin–albumin interaction

Bilirubin–albumin solution gave an emission spectrum in the wavelength range 500–600 nm with emission maxima at 528 nm when excited at 487 nm. The magnitude of fluorescence intensity increased on increasing bilirubin/albumin molar ratio. At three different albumin concentrations, namely, 1.0, 2.5 and 10.0 μM, there was an initial linear increase in fluorescence up to a molar ratio 1.0 in all cases beyond which it sloped off or decreased. This fluorescence enhancement was used to calculate the binding parameters of bilirubin–albumin interaction and the value of binding constant was found to be 1.72×10⁷ l/mol similar to the published values obtained with other methods. Different serum albumins, namely, human (HSA), goat (GSA), pig (PSA) and dog serum albumins (DSA) bound bilirubin with almost the same affinity when studied by the technique of fluorescence enhancement. Bilirubin–albumin interaction was also studied at different pH and ionic strengths. There was a decrease in bilirubin–albumin complex formation on either decreasing the pH from 9.0 to 7.0 or increasing the ionic strength from 0.15 to 1.0. These results suggest that the technique of fluorescence enhancement can be used successfully to study the bilirubin–albumin interaction.     

The reactivity of p-nitrophenyl acetate with serum albumins

1. Serum albumins from nine of 10 vertebrate species were found to react rapidly with p-nitrophenylacetate. 2. The high reactivities were shown to be partially attributable to strong, rapidly reversible binding of p-nitrophenylacetate by each serum albumin. 3. As previously observed in the case of human serum albumin (Koh and Means, Arch. Biochem. Biophys. 192, 73-79, 1979), this binding takes place in the primary binding site for several physiologically (i.e. tryptophan, small fatty acid anions) and pharmacologically (i.e. diazepam) important compounds. 4. Horse serum albumin differed from all other serum albumins included in this study in that it did not react rapidly with p-nitrophenylacetate, presumably, due to significant differences in its corresponding binding site.     

Interaction of serum albumin with normal and sickle hemoglobins.

The stability of oxyhemoglobin S during mechanical shaking was enhanced by the addition of human serum albumin. The stabilizing effect was maximum when the concentration of serum albumin approached that of oxyhemoglobin, suggesting a molecular level interaction between them. The effects of serum albumin on oxyhemoglobin A were essentially similar to those on oxyhemoglobin S. Deoxy- and methemoglobins were also stabilized by serum albumin. The addition of human serum albumin to a solution containing sickle cell oxyhemoglobin slowly formed a compound which had an absorbance peak at 620 nm. After purification by Sephadex G-200 column chromatography, this compound was identified as methemalbumin. Comparison of the rates of formation of methemalbumin from hemoglobin with various ligand states and human serum albumin showed that the rate of formation from hemichrome was much faster than from met-, oxy- and deoxyhemoglobin. About 60% of the heme was transferred from hemichrome to albumin when the mixture was kept standing at room temperature for 5 min, in contrast to only 5% from methemoglobin. This result suggests that hemichrome, rather than methemoglobin, is the intermediate in the formation of methemalbumin from oxyhemoglobin and human serum albumin. This hypothesis is supported by the finding that the rate of formation of methemalbumin was faster at alkaline pH values than at acid pH values. Serum albumin from various animal sources showed different stabilizing effects. The formation of methemalbumin from these animal albumins was far less than that from human albumin.     

血清白蛋白序列中的相似氨基酸突变特点分析

血清白蛋白是必不可少的生命物质,在生命运动和发展延续中起着重要的作用。它不仅能维持正常的血浆渗透压,最重要的是能够储存和运输众多的内源性和外源性物质。本文利用生物信息学的方法分析了几种不同物种的血清白蛋白的结构信息和疏水性特点,研究表明人、牛、猴、兔、狼、猫的血清白蛋白序列均属于亲水性蛋白质,在100 bp以内的疏水性值差别比较明显。通过对血清白蛋白进行多序列比对分析,发现兔血清白蛋白的氨基酸突变的数目是最多的。在这几种血清白蛋白序列中,氨基酸突变更容易发生在结构相似、极性相似和能量比较接近的氨基酸之间,如D和L、E和D。对于人血清白蛋白来说,从疏水性的丙氨酸A到酸性的谷氨酸E的突变比较多,使得人血清白蛋白在进化过程中的亲水性增强,是个很好的储存和运输小分子的载体。这些基于生物信息学方面的血清白蛋白的突变及其进化关系的研究,为进一步研究药物与血清白蛋白的相互作用在其他物种中表现和特点提供了良好的基础。     

Behavior of various mammalian albumins towards bilirubin binding and photochemical properties of different bilirubin-albumin complexes

Bilirubin (BR) binding properties of serum albumins from different mammalian species viz. human (HSA), equine (ESA), dog (DSA) and guinea pig (GPSA) were studied by absorption, fluorescence and CD spectroscopy. Whereas, a complex of BR with ESA produced maximum change, GPSA–BR complex showed weaker interaction as reflected from absorption and fluorescence spectroscopic data. Conformational analysis of these albumins by near- and far-UV CD spectra suggested similar structural characteristics (both secondary and tertiary structures) for ESA and HSA, whereas, DSA and GPSA had lower amounts of secondary and tertiary structures being minimum for GPSA. Photoirradiation results of BR–albumin complexes showed GPSA-bound BR more labile compared with other complexes, whereas, BR–ESA complex was found to be more stable against photoinduced chemical changes. Taken together, all these results suggest that chiroptical properties/stability of albumin bound BR varies with albumin species.     

The use of 8-anilino-1-naphthalenesulfonic acid as a reporter group molecule for circular dichroism and fluorescence measurements. The effect of stearic acid and sodium dodecylsulfate on the conformation of bovine and human serum albumin.

The fluorescence probe ANS(8-anilino-1-naphthalenesulfonic acid) was employed as a reporter group molecule for circular dichroism and fluorescence measurements in order to investigate the effects of stearic acid and sodium dodecylsulfate on the conformation of bovine and human serum albumin. Stearate as well as dodecylsulfate displaces ANS from the binding to both albumins. Besides this displacement, stearate and dodecylsulfate influence the fluorescence properties and the extrinsic Cotton effects on ANS bound to both albumins. It is suggested that the origin of these effects is a microdisorganization of the albumin structure, provoked by the binding of stearate and sodium dodecylsulfate. Each of the four extrinsic CD bands of bound ANS was influenced in a different manner by the addition of stearate and dodecylsulfate. Using the data of the fluorescence measurements and of the circular dichroism measurements it was possible to differentiate the effects of one ligand on both albumins and of both ligands on one albumin more efficiently than would have been possible using one of the two methods alone. It is suggested that the use of ANS as a reporter group molecule for fluorescence and circular dichroism measurements is a very good tool to detect small changes in the environment of ligand binding sites on protein molecules.     

Understanding the role of internal lysine residues of serum albumins in conformational stability and bilirubin binding

The role of internal lysine residues of different serum albumins, viz. from human, rabbit, goat, sheep and buffalo (HSA, RbSA, GSA, SSA and BuSA), in conformational stability and bilirubin binding was investigated after blocking them using acetylation, succinylation and guanidination reactions. No significant change in the secondary structure was noticed whereas the tertiary structure of these proteins was slightly altered upon acetylation or succinylation as revealed by circular dichroism (CD), fluorescence and gel filtration results. Guanidination did not affect the native protein conformation to a measurable extent. Scatchard analysis, CD and absorption spectroscopic results showed marked reductions (5-21-fold decrease in K(a) and approximately 50% decrease in the CD Cotton effect intensity) in the affinity of albumins for bilirubin upon acetylation or succinylation whereas guanidination produced a small change. Interestingly, monosignate CD spectra of bilirubin complexed with GSA, SSA and BuSA were transformed to bisignate CD spectra upon acetylation or succinylation of internal lysine residues whereas spectra remained bisignate in the case of bilirubin bound to acetylated or succinylated derivatives of HSA and RbSA. When probed by CD spectroscopy, bilirubin bound to acetylated or succinylated derivatives of GSA and SSA rapidly switched over to native albumins and not vice versa. These results suggested that salt linkage(s) contributed by internal lysine residue(s) play an important role in the high-affinity binding of bilirubin to albumin and provide stability to the native three-dimensional conformation of the bound pigment. Chloroform severely decreased the intensity of both positive and negative CD Cotton effects of bilirubin complexed with acetylated or succinylated derivatives of all albumins which otherwise increased significantly in the case of bilirubin complexed with native and guanidinated albumin derivatives, except the bilirubin-RbSA complex which showed a small decrease in intensity. These results suggest that the presence of salt linkage(s) in bilirubin-albumin complexation is(are) crucial to bring about effective and efficient stereochemical changes in the bound pigment by co-binding of chloroform which seems to have at least one conserved binding site on these albumins that is shared with bilirubin.     

Zinc uptake by human erythrocytes with and without serum albumins in the medium

Different mechanisms of Zn uptake are present in mammalian cells. The variations in the Zn uptake by human erythrocytes in the absence and presence of albumins, bovine and human, as well as the differences of Zn uptake with and without 4-4′-diidothiocyanatostilbene-2,2′-disulfonic acid have been analyzed in this study. The results show a significantly greater rate of Zn uptake in the absence rather than in the presence of albumins in the extracellular medium and being significantly greater with bovine than with human serum albumin when the experiments were performed in media with equimolar concentrations of Zn. However, when comparing Zn uptake in a medium without albumin with similar free-Zn concentration to Zn ultrafiltrable (20%) of other one with albumin, a significantly greater Zn uptake on the latter was observed. The DIDS inhibition on Zn uptake is higher if the albumin is also present in the medium. These results suggest that in Zn uptake by erythrocytes the albumin directly or indirectly would be involved, facilitating the well-known processes of passive transport and anionic exchanger.