The hyaluronan–protein complexes at low ionic strength: How the hyaluronidase activity is controlled by the bovine serum albumin

Hyaluronan (HA) hydrolysis catalysed by hyaluronidase (HAase) is strongly inhibited when performed at low HAase over HA concentration ratio and under low ionic strength conditions. The reason is the ability of long HA chains to form electrostatic and non-catalytic complexes with HAase. For a given HA concentration, low HAase concentrations lead to very low hydrolysis rates because all the HAase molecules are sequestered by HA, whilst high HAase concentrations lead to high hydrolysis rates because the excess of HAase molecules remains free and active. At pH 4, non-catalytic proteins like bovine serum albumin (BSA) are able to compete with HAase to form electrostatic complexes with HA, liberating HAase which recovers its catalytic activity. The general scheme for the BSA-dependency is thus characterised by four domains delimited by three noticeable points corresponding to constant BSA over HA concentration ratios. The existence of HA–protein complexes explains the atypical kinetic behaviour of the HA / HAase system. We also show that HAase recovers the Michaelis–Menten type behaviour when the HA molecule complexed with BSA in a constant complexion state, i.e. with the same BSA over HA ratio, is considered for substrate. When the ternary HA / HAase / BSA system is concerned, the stoichiometries of the HA–HAase and HA–BSA complexes are close to 10 protein molecules per HA molecule for a native HA of 1 MDa molar mass. Finally, we show that the behaviour of the system is similar at pH 5.25, although the efficiency of BSA is less.     

光谱和微量热法分析柑橘苷与BSA分子间作用及构建其理论模型

光谱和微量热法分析柑橘苷(naringin,NAR)与牛血清白蛋白（bovine serum albumin, BSA）分子间作用,构建NAR与BSA分子间作用的理论模型。采用紫外-荧光光谱法解析Fōrster方程求得NAR与BSA分子间作用及分子间作用的临界距离r,等温滴定微量热技术测定NAR与BSA分子间作用的积分量热曲线,获得Δ H并通过Gibbs-Helmholtz方程获取Δ S和Δ G。基于光谱和微量热辅助分析,构建NAR与BSA分子间作用的理论模型。结果表明,光谱法测出NAR与BSA发生分子间作用,NAR与BSA分子间作用的临界距离为2.06 nm,表明NAR与BSA分子间作用为短程分子间作用。微量热法成功测定出NAR与BSA分子间的热力学参数Δ H<0,Δ S>0,Δ G<0,说明NAR与BSA分子间作用是自发进行的放热相互作用。依据Ross理论分析NAR与BSA分子间作用力主要是疏水作用力和静电作用力。模型构建结果说明,NAR与BSA分子间作用主要发生在BSA的domain IIA区域,NAR与BSA分子间作用力主要是静电作用力,兼有范德华作用力和氢键。实验与理论模型构建结果基本一致。本研究工作可为深入了解蛋白质与大分子化合物间的作用以及研究微观药理学机制提供有益的参考。     

Discovery and SAR of hydrazide antagonists of the pituitary adenylate cyclase-activating polypeptide (PACAP) receptor type 1 (PAC1-R)

Potent small molecule antagonists for the PAC(1)-R have been discovered. Previously known antagonists for the PAC(1)-R were slightly truncated peptide ligands. The hydrazides reported here are the first small molecule antagonists ever reported for this class B GPCR.     

Total internal reflection fluorescence study of energy transfer in surface-adsorbed and dissolved bovine serum albumin

A simple adaptation of a commercial spectrofluorometer allows selective excitation of fluorescent biomolecules adsorbed to a solid surface while they are in equilibrium with a bulk solution. As a demonstration of this technique, we have detected a change in the effective singlet-singlet energy transfer in fluorescence-labeled bovine serum albumin (BSA) upon adsorption to a fused silica surface. The technique combines total internal reflection fluorescence excitation of surface-adsorbed BSA with a fluorescence spectroscopic examination of energy transfer between two different fluorophores that are covalently bound to amino groups in each BSA molecule. Two donor--acceptor pairs were used, 4-chloro-7-nitro-2,1,3-benzoxadiazole-rhodamine and dansyl-eosin. For studies of surface-adsorbed BSA, we constructed a device in which the excitation light of a standard fluorescence spectrometer totally internally reflects from a surface at which adsorbed BSA is in equilibrium with the bulk solution. A shallow evanescent wave is created, which excites fluorescence from only those BSA molecules in close proximity to the surface. Spectral examination shows significantly less effective singlet-singlet energy transfer from the donor to the acceptor in surface-adsorbed BSA relative to that in native bulk-dissolved BSA. Under appropriate and reasonable assumptions, the energy transfer change between native and adsorbed states of fluorescent BSA can be interpreted as a conformational change of BSA upon adsorption.     

Characterization of covalent protein conjugates using solid-state 13C NMR spectroscopy.

Cross-polarization magic-angle spinning (CPMAS) 13C NMR spectroscopy has been used to characterize covalent conjugates of alachlor, an alpha-chloroacetamide hapten, with glutathione (GSH) and bovine serum albumin (BSA). The solid-state NMR method demonstrates definitively the covalent nature of these conjugates and can also be used to characterize the sites of hapten attachment to proteins. Three different sites of alachlor binding are observed in the BSA system. Accurate quantitation of the amount of hapten covalently bound to GSH and BSA is reported. The solid-state 13C NMR technique can easily be generalized to study other small molecule/protein conjugates and can be used to assist the development and refinement of synthetic methods needed for the successful formation of such protein alkylation products.     

Identification of the cleavage sites of oxidized protein that are susceptible to oxidized protein hydrolase (OPH) in the primary and tertiary structures of the protein

Amino acid sequences in H(2)O(2)-oxidized bovine serum albumin (BSA) that are susceptible to proteolytic cleavage by oxidized protein hydrolase (OPH) were investigated. When oxidized BSA was treated with OPH, low-molecular-weight fragments (54, 46, 24, 22, 20, and 8 kDa) were produced as analyzed by SDS-PAGE. N-Terminal amino acid sequence analysis of these fragments indicated that oxidized BSA was cleaved by OPH at three major sites, Leu218-Ser219, Tyr410-Thr411, and Phe506-Thr507, at an early stage of the proteolytic degradation. In the three-dimensional structure of BSA deduced by computer modeling, these cleavage sites were found to be located slightly inside the BSA molecule, in positions not easily accessible by OPH. The influence of oxidation on the tertiary structure of BSA was then investigated by hypothetically replacing all the four methionine and two tryptophan residues with their oxidized forms, methionine sulfoxide and N'-formyl-kynurenine, respectively. The three-dimensional structure of the hypothetically oxidized BSA indicated that all the three cleavage sites in the protein could become more exposed to the solvent than in unoxidized BSA. These results suggest that, upon oxidation of BSA, the amino acid sequences that are potentially cleavable by OPH but present inside the molecule become exposed on the surface and susceptible to proteolysis by OPH. This is the first report demonstrating the cleavage sites of oxidized protein by oxidized protein-selective protease, suggesting the possible mechanism of oxidized protein-selective degradation by the enzyme.     

Idiotype regulation of the anti-bovine serum albumin response. I. Generation of an idiotype-specific Lyt-1-2+ suppressor T cell

A monoclonal antibody (3C-7) specific for a determinant localized on the carboxy-terminus of the BSA molecule (P505-582) has been shown to cause suppression of the multispecific BSA antibody response if given i.v. before immunization. The fine binding specificity and the isotype subclass are not responsible for the suppression generated. Administration of 3C-7 i.v. results in the generation of a suppressor T cell that, when transferred into reconstituted irradiated mice, results in a diminished anti-BSA response. Suppression can be eliminated by panning T cells on idiotype (3C-7) coated plates, but not by panning on BSA, polyclonal anti-BSA antibodies, or MOPC 21. The action of the cell is antigen (BSA) specific. Idiotype-binding T cells reconstitute suppression and appear to be Lyt-1-2+. These observations demonstrate that a limited set of monoclonal antibodies directed against a single determinant on a protein molecule have the capacity to regulate the immune response to a multiplicity of determinants present on the same protein. These data support the concept of antibody-induced regulation by the induction of suppressor cells through idiotype recognition.     

The prevention of adsorption of interferents to radiolabelled protein by Tween 20

Radiolabels are often used to quantitatively determine the amount of protein immobilized on chromatographic supports, immunochemical plates and biosensor surfaces. Bovine serum albumin (BSA) was chosen as a model protein for quantitative deposition studies. BSA was radioiodinated (125I-) or fluorescently labelled (fluorescein), then incubated with the following surfaces: quartz, quartz derivatized by 3-aminopropyltriethoxysilane (Qz-APTES), and Qz-APTES reacted with glutaraldehyde or tresyl chloride. The amounts of BSA immobilized to the different surfaces were compared using data from radioactivity and fluorescence assays. Irreproducible results were obtained with radioiodinated BSA due to adsorption/desorption behaviour of an unidentified radioactive species. When the non-ionic detergent Tween 20 was added to the protein/surface incubation mixture, radiolabelled BSA gave reproducible protein binding results which agreed with fluorescent protein binding patterns. The effect of Tween 20 was due to either the binding to BSA displacing the interferent and/or the solubilization of the interferent.     

Water-soluble complexes formed by natural polyphenols and bovine serum albumin: evidence from gel electrophoresis

The formation of water-soluble complexes from combinations of various polyphenols and bovine serum albumin (BSA) was analyzed by gel electrophoresis. Sodium dodecylsulfate (SDS) and native polyacrylamide gel electrophoretic (PAGE) analyses clearly showed complexes formed from BSA with oenothein B, corilagin, (+)-catechin, procyanidin B3, and gallic acid derivatives; however, it was difficult to distinguish between the complexes containing a single BSA molecule and the BSA molecule itself by using size-exclusion chromatography (SEC). Combining SDS and native PAGE analyses showed instability in the macromolecular complexes formed from pentagalloylglucose (PGG) and BSA. Research also revealed that the oxidation of (-)-epigallocatechin gallate (EGCG) contributed to the formation of more stable macromolecular complexes from EGCG and BSA.     

Effect of albumin on the kinetics of ascorbate oxidation

The fluorescence intensity of the fluorophore in dansyl piperidine-nitroxide is intramolecularly quenched by the nitroxyl fragment. Therefore, the oxidation of ascorbic acid by the fluorophore-nitroxide (FN) probe can be monitored by two independent methods: steady-state fluorescence and electron paramagnetic resonance. Bovine serum albumin (BSA) affects the rate of this reaction. The influence of BSA on the rate is attributed to the adsorption of both ascorbate and the probe to BSA. Adsorption of ascorbate to BSA is confirmed by NMR relaxation experiments. The spatial distribution of the molecules on the BSA surface changes the availability of ascorbate and FN to each other. The results also point out that, in the presence of BSA, the autoxidation of ascorbate is significantly slowed down. The effect is studied at different pH values and explained in terms of the electrostatic interaction between the ascorbate anion and the BSA molecule.     

High-pressure refolding of human vascular endothelial growth factor (VEGF) recombinantly expressed in bacterial inclusion bodies: refolding optimization, and feasibility assessment

High-pressure has been established as an effective technique for refolding proteins at high concentrations. In this study, high hydrostatic pressure (1-3 kbar) was utilized to refold a homodimeric protein from inclusion bodies and the process was evaluated for large-scale manufacturing feasibility. This research focused on increasing protein concentration while maximizing yield and product quality. Refolding yields of 29-42% were achieved in the absence of urea at 2 kbar and at a protein concentration of 6 g/L. Optimization of the refolding buffer composition via multivariate design of experiments and other process parameters such as refolding pressure, gas sparging, and time under pressure are discussed. Although high-pressure refolding can be considered a viable technology for manufacturing if the gains are clearly identified, in this particular case, the benefits that the high-pressure technology offers do not compensate for the drawbacks of implementing new equipment in an existing facility, and unknown impact of scale-up for this molecule.     

Adsorption of Bovine Serum Albumin from salt solution onto activated carbon

One of the wastewaters from tanning industry (soak liquor) contains 0.4 g/l of dissolved protein. During coagulation and flocculation 41 % of protein was removed. A suggestion has been made to remove the residual protein by adsorption technique. The optimum conditions for adsorption of Bovine Serum Albumin (BSA) on rice bran based activated carbon (RBAC) have been determined. Maximum adsorption of BSA took place at pH 7.O. Ionic strength was found to have influence on the adsorption behaviour. Adsorption capacity of BSA onto charcoal surface decreased with increase in temperature. Enthalpy of adsorption in all cases was found to be within –19 to –57 kJ/mole, indicating exothermic nature of the process. Applicability of adsorption technique to the removal of dissolved protein from soak water has been studied. The maximum removal of protein occurred at pH 7.0 and the ratio of protein removed to weight of adsorbent was 3.22×10^–3 g/g.     

Effect of Air Plasma Processing on the Adsorption Behaviour of Bovine Serum Albumin on Spin-Coated PMMA Surfaces

This paper reports the adsorption of Bovine Serum Albumin （BSA） onto Dielectric Barrier Discharge （DBD） processed Poly（methyl methacrylate） （PMMA） surfaces by a Quartz Crystal Microbalance with Dissipation monitoring （QCM-D） technique. The purpose is to study the influence of DBD processing on the nature and scale of BSA adsorption on PMMA surface in vitro. It was observed that DBD processing improves the surface wettability of PMMA film, a fact attributable to the changes in surface chemistry and topography. Exposure of the PMMA to Phosphate Buffed Saline （PBS） solution in the QCM-D system resulted in surface adsorption which reaches an equilibrium after about 30 minutes for pristine PMMA, and 90 minutes for processed PMMA surface. Subsequent injection of BSA in PBS indicated that the protein is immediately adsorbed onto the PMMA surface. It was revealed that adsorption behaviour of BSA on pristine PMMA differs from that on processed PMMA surface. A slower adsorption kinetics was observed for pristine PMMA surface, whilst a quick adsorption kinetics for processed PMMA. Moreover, the dissipation shift of protein adsorption suggested that BSA forms a more rigid structure on pristine PMMA surface that on processed surface. These data suggest that changes in wettability and attendant chemical properties and surface texture of the PMMA surface may play a significant role in BSA adsorption process.     

Mechanism of the interactions of aliphatic alcohols with bovine serum albumin in the ternary systems—1H n.m.r. study: 1. Aqueous solutions BSA-alcohols-urea

The molecular mechanism of the interaction of aliphatic alcohols (A) with bovine serum albumin (BSA) protein was studied in aqueous solutions at increasing concentrations (0–8 m) of urea (U). ¹H n.m.r. spectra of alcohols were monitored in D₂O in the control binary systems (A—U) and (A—BSA), and in the ternary systems (A—U—BSA) at pH 7.0. Marked and selective broadening of the n.m.r. lines of alcohols in the system (A—BSA) was reduced upon addition of urea, indicating that alcohols are poorly bound by urea-denaturated BSA. The reduction in the ability to associate with BSA depends on chain position of the alcohol molecule and is much higher for α-methylenes (next to ?OH) than for other proton groups. Besides this reduction seems to be a two-step phenomenon dependent upon urea concentration. The results obtained can be explained by competition in formation by the peptide linkages of a protein of the hydrogen bonds with ?OH group of alcohols or fragments of urea molecules.     

葡糖基水杨酸: 一种可能参与植物诱导型耐热性形成的信号物质

该文旨在初步探讨水杨酸的主要结合态——葡糖基水杨酸(salicylic acid 2-O-β-D-glucose, SAG), 是否参与了高温诱导的植物耐热性信号传递过程。采用水杨酸(salicylic acid, SA)生物合成抑制剂——多效唑(paclobutrazol, PAC), 预处理豌豆(Pisum sativum)叶片, 再加以高温诱导, 结果发现与未经PAC处理的对照相比, 豌豆叶片受高温诱导的耐热性降低。同时, PAC预处理导致高温锻炼过程中SAG信号峰值消失。利用同位素标记和蛋白免疫印迹分析发现, PAC所导致的SAG信号减弱, 不仅是由于SA生物合成受到抑制, 而且还归因于水杨酸糖苷转移酶(salicylic acid glucosyltransferase, SAGT)蛋白合成和活性降低所引起的自由态SA向SAG转化的减缓。以上结果表明, SAG表现出了与自由态SA相似的信号功能, 并参与了高温锻炼诱导植物耐热性的信号传递过程。     

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

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

Measurements of the time of rotational correlation of bovine serum albumin molecule using iodine and mercury-containing spin-labels

New spin-labels based on iodine and hydrargirum containing imidazolids were approbated on the bovine serum albumin (BSA) molecule. It is shown that all hydrargirum labels are binded to the external SH-group of BSA practically immediately in comparison with earlier known spin-labels based on piperidine with maleimide and iodacetamide groups, requiring some minutes of hours, correspondingly. Rotational correlation times and the character of relative mobility of the spin-label were measured. Values of the rotational correlation times of the protein molecule obtained by hydrargirum containing labels were found in the range of correlation times typical for the BSA molecule and represent at pH 7.0 a rigid stretch ellipsoid of rotation. The result obtained revealed that the relative reorientation nature of spin-labels is essentially different and is taken into account in different values of order parametres S according to model--fast anisotropic rotator on slow isotropic rotator. ESR spectra based on theoretical calculations by means of computer are given.     

Pressure-induced conformational changes in an antigen and an antibody and the implications on their use for hyperbaric immunoadsorption.

Pressure-induced conformational changes in two proteins, bovine serum albumin (BSA) and immunoglobulin G (IgG), were studied to assess the application of hyperbaric manipulation to the dissociation of antigen-antibody complexes. Antigen-antibody dissociation is important in the product-recovery phase of immunoadsorption, an affinity purification process. Three techniques were used in parallel for this study, including fluorescence, Fourier transform infrared (FTIR) spectroscopy, and the enzyme-linked immunosorbent assay (ELISA). Employing a fluorescent probe, fluorescent intensity measurements were used to detect protein conformational changes. FTIR spectroscopy was used to determine changes in protein secondary structure induced by high pressure, while the ELISA test was used to examine antibody recognition after the proteins had been pressure-treated. The results from this work demonstrate that IgG is resistant to conformational changes induced by pressures below 2 kbar. In contrast, BSA undergoes reversible conformational changes in this pressure range. However, these conformational changes are not reflected in tests measuring antibody recognition. These findings indicate that IgGs have the potential to be used as recycled ligands in immunoadsorption separation processes. Different antigens that are being considered for purification by immunoadsorption and separated by means of high pressure could be screened by the methods disclosed to determine their stability under high pressure conditions.     

Unfolding and refolding of bovine serum albumin induced by cetylpyridinium bromide

The interaction of bovine serum albumin (BSA) with cationic surfactant cetylpyridinium bromide (CPB) in aqueous solution (pH 7.00) was studied quantitatively with ultraviolet (UV)-visible, far-UV, and near-UV circular dichroism, fluorescence, small angle x-ray scattering, and nuclear magnetic resonance measurement. It was found that CPB at low and high concentrations could induce the unfolding and refolding of BSA, respectively. We suggest that in the unfolding process, there existed BSA-CPB complex with the "necklace and bead" structure in which the unfolded BSA wrapped around CPB micelles, and that the hydrophobic interaction between the complexes led to the formation of large aggregates. The aromatic headgroup of CPB interacted with the tryptophan residues of BSA, resulting in the aromatic ring stacking between BSA and CPB. During the refolding process, the BSA molecule was penetrated into the rod micelle of CPB and the hydrophobic moiety of the BSA molecule was exposed outside while its hydrophilic part was hidden inside, thereby disrupting the aromatic ring stacking.     

Time-resolved evanescent wave-induced fluorescence anisotropy for the determination of molecular conformational changes of proteins at an interface

We have shown that the molecular conformation of a protein at an interface can be probed spatially using time-resolved evanescent wave-induced fluorescence spectroscopic (TREWIFS) techniques. Specifically, by varying the penetration depth of the evanescent field, variable-angle TREWIFS, coupled with variable-angle evanescent wave-induced time-resolved fluorescence anisotropy measurements, allow us to monitor how fluorescence intensity and fluorescence depolarization vary normal to an interface as a function of time after excitation. We have applied this technique to the study of bovine serum albumin (BSA) complexed noncovalently with the fluorophore 1-anilinonaphthalene-8-sulfonic acid. The fluorescence decay varies as a function of the penetration depth of the evanescent wave in a manner that indicates a gradient of hydrophobicity through the adsorbed protein, normal to the interface. Restriction of the fluorescent probes motion also occurs as a function of distance normal to the interface. The results are consistent with a model of partial protein denaturation: at the surface, an adsorbed BSA molecule unfolds, thus optimizing protein–silica interactions and the number of points of attachment to the surface. Further away, normal to the surface, the protein molecule maintains its coiled structure.Submitted as a record of the 2002 Australian Biophysical Society meeting