Detection of conformational changes in immunoglobulin G using isothermal titration calorimetry with low-molecular-weight probes

Proteins for therapeutic use may contain small amounts of partially misfolded monomeric precursors to postproduction aggregation. To detect these misfolded proteins in the presence of an excess of properly folded protein, fluorescent probes such as 8-anilino-1-naphthalene sulfonate (ANS) are commonly used. We investigated the possibility of using isothermal titration calorimetry (ITC) to improve the detection of this type of conformational change using hydrophobic probes. As a case study, conformational changes in human polyclonal immunoglobulin G (IgG) were monitored by measuring the enthalpies of binding of ANS using ITC. Results were compared with those using fluorescence spectroscopy. IgG heated at 63 °C was used as a model system for “damaged” IgG. Heat-treated IgG can be detected already at levels below 5% with both ITC and fluorescence. However, ITC allows a much wider molar probe-to-protein ratio to be sampled. In particular, using reverse titration experiments (allowing high probe-to-protein ratios not available to fluorescence spectroscopy), an increase in the number of binding sites with a K_d > 10 mM was observed for heat-treated IgG, reflecting subtle changes in structure. Both ITC and fluorescence spectroscopy showed low background signals for native IgG. The nature of the background signals was not clear from the fluorescence measurements. However, further analysis of the ITC background signals shows that a fraction (8%) binds ANS with a dissociation constant of approximately 0.2 mM. Measurements were also carried out at pH 4.5. Precipitation of IgG was induced by ANS at concentrations above 0.5 mM, interfering with the ITC measurements. Instead, with the nonfluorescent probes 4-amino-1-naphthalene sulfonate and 1-naphthalene sulfonate, no precipitation is observed. These probes yield differences in the enthalpies of binding to heated and nonheated IgG similar to ANS. The data illustrate that ITC with low-molecular-weight probes is a versatile tool to monitor conformational changes in proteins with a wider application potential than fluorescence measurements.     

Assessment of temperature effects on beta-aggregation of native and glycated albumin by FTIR spectroscopy and PAGE: relations between structural changes and antioxidant properties

Structural modifications of bovine serum albumin (BSA) induced by heating, and the involvement of glycation of albumin in such processing were studied by using Fourier transform infrared spectroscopy (FTIR) and polyacrylamide gel electrophoresis (PAGE). For native BSA, heating treatments gave rise to beta structures which were amplified to the detriment of alpha-helix form, and which were associated with increased aggregation. A very high correlation was obtained between FTIR Amide I band evolution and aggregation rate parameters, showing the contribution of beta-form in aggregates formation. We further assessed the effect of glycation on protein sensibility to heating treatments. A reduction of conformational changes and aggregation processes was demonstrated for the glycated form of the protein. The antioxidant properties of albumin were evaluated using two different techniques assessing metal binding and free radical neutralizing capacities of the protein. Associations between structural changes in BSA induced by the thermal treatment and its antioxidant activities were established.     

Thermal aggregation of glycated bovine serum albumin

Aggregation and glycation processes in proteins have a particular interest in medicine fields and in food technology. Serum albumins are model proteins which are able to self-assembly in aggregates and also sensitive to a non-enzymatic glycation in cases of diabetes. In this work, we firstly reported a study on the glycation and oxidation effects on the structure of bovine serum albumin (BSA). The experimental approach is based on the study of conformational changes of BSA at secondary and tertiary structures by FTIR absorption and fluorescence spectroscopy, respectively. Secondly, we analysed the thermal aggregation process on BSA glycated with different glucose concentrations. Additional information on the aggregation kinetics are obtained by light scattering measurements. The results show that glycation process affects the native structure of BSA. Then, the partial unfolding of the tertiary structure which accompanies the aggregation process is similar both in native and glycated BSA. In particular, the formation of aggregates is progressively inhibited with growing concentration of glucose incubated with BSA. These results bring new insights on how aggregation process is affected by modification of BSA induced by glycation.     

Use of Horseradish-Peroxidase Labelled Antibodies in ELISA for Plant Virus Detection

Detection of plant viruses by ELISA using horseradish peroxidase for antibody labelling (ELISA-peroxidase) has been standardized by evaluating variants of the procedure, regarding composition and concentration of buffers and additives. Immunoglobulins (IgG) are isolated from antisera by precipitation with ammonium-sulphate and by purification with DEAE-52 (Whatman) cellulose. IgG are conjugated with horseradish peroxidase by a modified oxidation-periodate method. In ELISA-peroxidase 0.05 M carbonate-bicarbonate coating buffer pH 9.6 has been substituted by 0.01 M carbonate buffer pH 9.2. Extraction buffer is used with 0.5% bovine serum albumin (BSA), without polyvinylpyrrolidone (PVP). Samples are diluted in, phosphate buffered saline (PBS) pH 7.2 with 0.05% Tween 20 and 0.5% BSA. IgG are conjugated with horseradish peroxidase, diluted in 0.1 M Tris-HCl, pH 7.4 with 0.05% Tween 20 and 1% BSA. The substrate is incubated in the darkness for 20 min at room temperature. ELISA-peroxidase proved to be equivalent in sensitivity and specificity with ELISA using alkaline phosphatase for antibody labelling. Its advantage is a lower cost of chemicals used in the test.     

Anti-immunoglobulin antisera used in an ELISA to detect antibodies in barramundi Lates calcarifer to Cryptocaryon irritans.

Immunoglobulins (Ig) in serum from barramundi vaccinated with bovine serum albumin (BSA) were purified by ammonium sulphate precipitation and affinity chromatography using BSA as the ligand. The BSA-binding activity of eluted putative Ig fractions was assessed by enzyme-linked immunosorbent assay (ELISA) before being pooled and characterised by sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE). Double affinity purification did not improve the purity of the Ig preparation compared to single affinity purification. Barramundi Ig were injected into sheep to produce anti-Ig antisera which were assessed in an indirect ELISA as the secondary antibody to detect serum Ig in barramundi vaccinated with Cryptocaryon irritans theronts. Affinity-purified Ig induced a more specific reagent for use as secondary antibody in ELISA than did normal whole-barramundi sera. The heavy (H) chain of barramundi Ig had an apparent molecular weight of 70 kDa while that of the light (L) chain was 27 kDa in SDS-PAGE studies. Under non-reducing conditions 2 putative populations of Ig were identified, at 768 and 210 kDa. The N-terminal sequence of the barramundi Ig H chain showed 78% homology with channel catfish Ictalurus punctatus Ig H chain sequence.     

Conformational Evaluation of HIV-1 Trimeric Envelope Glycoproteins Using a Cell-based ELISA Assay

HIV-1 envelope glycoproteins (Env) mediate viral entry into target cells and are essential to the infectious cycle. Understanding how those glycoproteins are able to fuel the fusion process through their conformational changes could lead to the design of better, more effective immunogens for vaccine strategies. Here we describe a cell-based ELISA assay that allows studying the recognition of trimeric HIV-1 Env by monoclonal antibodies. Following expression of HIV-1 trimeric Env at the surface of transfected cells, conformation specific anti-Env antibodies are incubated with the cells. A horseradish peroxidase-conjugated secondary antibody and a simple chemiluminescence reaction are then used to detect bound antibodies. This system is highly flexible and can detect Env conformational changes induced by soluble CD4 or cellular proteins. It requires minimal amount of material and no highly-specialized equipment or know-how. Thus, this technique can be established for medium to high throughput screening of antigens and antibodies, such as newly-isolated antibodies.     

Specific Polysome Immunoadsorption to Purify an Ammonium-Inducible Glutamate Dehydrogenase mRNA from Chlorella sorokiniana and Synthesis of Full Length Double-Stranded cDNA from the Purified mRNA

A specific polysome immunoadsorption procedure, employing soluble rabbit anti-NADP-GDH IgG and sheep anti-rabbit IgG covalently-linked to an insoluble cellulose matrix, was used to immunoselect polysomes translating mRNA for a chloroplastic ammonium-inducible NADP-GDH in fully induced cells of Chlorella sorokiniana. The immunoselected polysomes were dissociated, and the NADP-GDH mRNA was recovered by oligo (dT)cellulose chromatography. The translatable NADP-GDH mRNA was estimated to be 0.07 and 90% of the total polysomal poly(A)⁺RNA before and after immunoselection of the polysomes, respectively. The immunoadsorption procedure resulted in an 83% recovery and 1,291-fold purification of translatable NADP-GDH mRNA. In vitro translation of the immunoselected poly(A)⁺RNA yielded a single radioactive protein (on sodium dodecyl sufate polyacrylamide gels) with a molecular weight of 58,500, i.e. size of the putative precursor-protein of the NADP-GDH subunit in the holoenzyme in fully induced cells. The purified NADP-GDH mRNA was used for synthesis of a high proportion of nearly full-length single-stranded cDNA and double-stranded cDNA molecules.     

Quantitation of a recombinant monoclonal antibody in monkey serum by liquid chromatography-mass spectrometry

A method including protein A purification, limited Lys-C digestion, and mass spectrometry analysis was used in the study to quantify a recombinant monoclonal antibody in cynomolgus monkey serum. The same antibody that was isotopically labeled was used as an internal standard. Interferences from serum proteins were first significantly reduced by protein A purification and then by limited Lys-C digestion of protein A bound IgG, including both monkey and the recombinant IgG. Fab fragment of the recombinant human IgG was analyzed directly by LC–MS, while monkey IgG and the Fc fragment of the recombinant human IgG remained bound to protein A resin. Quantitation was achieved by measuring the peak intensity of the Fab from the recombinant human IgG and comparing it to that of the Fab from the stable isotope-labeled internal standard. The results were in good agreement with the values from ELISA. LC–MS can therefore be used as a complementary approach to ELISA to quantify recombinant monoclonal antibodies in serum for pharmacokinetics studies and it can also be used where specific reagents such as antigens are not readily available for ELISA.     

Immunogenic and adjuvant properties of Haemophilus ducreyi lipooligosaccharides

Haemophilus ducreyi, the chancroid-causing bacterium, produces lipooligosaccharides (HdLOS) that comprise 5–11 partially sialylated monosaccharides. Subcutaneous immunisation of mice with 5 μg of HdLOS purified from H. ducreyi strains 4438 and 7470 induced high levels of anti-HdLOS IgG. The antibody responses displayed T-cell-independent features, and were dependent upon Toll-like receptor 4/MyD88 signalling pathways as demonstrated using knockout mice. The immunogenicity of HdLOS was found to require the intact lipid A moiety. The specificity studies of the anti-HdLOS antibodies, as revealed by absorption studies, antibody detection in ELISA, and immune thin-layer chromatography, indicated that the majority of the anti-LOS antibodies were specific for the inner core of the HdLOS. Antibodies to HdLOS failed to inhibit LOS induction of TNF-α release from human mononuclear cells. The adjuvanticity of HdLOS7470 was assessed in BALB/c mice that were immunised with bovine serum albumin (BSA) with or without the addition of HdLOS. The addition of 5 μg HdLOS resulted in a 10-fold increase in the total anti-BSA IgG antibody level as estimated by ELISA. The highest increase was noted for IgG2b, which contrasted with the predominantly IgG1 subclass response to immunisation with BSA alone, indicating an immunomodulatory activity of the HdLOS.     

Protein interactions with nanosized hydrotalcites of different composition

Nanosized hydrotalcite-like compounds (HTlc) with different chemical composition were prepared and used to study protein adsorption. Two soft proteins, myoglobin (Mb) and bovine serum albumin (BSA), were chosen to investigate the nature of the forces controlling the adsorption and how these depend on the chemical composition of the support. Both proteins strongly interact with HTlc exhibiting in most cases a Langmuir-type adsorption. Mb showed a higher affinity for Nickel Chromium (NiCr-HTlc) than for Nickel Aluminum (NiAl-HTlc), while for BSA no significant differences between supports were found. Adsorption experiments in the presence of additives showed that proteins exhibited different types of interactions onto the same HTlc surface and that the adsorption was strongly suppressed by the addition of disodium hydrogen phosphate (Na₂HPO₄). Atomic force microscopy images showed that the adsorption of both proteins onto nanoparticles was followed by the aggregation of biocomposites, with a more disordered structure for BSA. Fluorescence measurements for adsorbed Mb showed that the inorganic nanoparticles induced conformational changes in the biomolecules; in particular, the interactions with HTlc surface quenched the tryptophan fluorescence and this process was particularly efficient for NiCr-HTlc. The adsorption of BSA onto the HTlc nanoparticles induced a selective quenching of the exposed fluorescent residues, as indicated by the blue-shift of the emission spectra of tryptophan residues and by the shortening of the fluorescence decay times.     

高免疫原性的高压力失活病毒

以鸡传染性法氏囊病病毒（ＩＢＤＶ）强毒株为对象研究了高压力对ＩＢＤＶ活性的影响。以鸡胚成纤维细胞和ＳＰＦ雏鸡为模型的研究表明,ＩＢＤＶ的感染活性随压力和作用时间的增加而降低,直至完全丧失,但高压力失活的ＩＢＤＶ可有效诱导雏鸡血清抗体大量产生,对雏鸡的保护作用达１００％,且无发病现象,说明ＩＢＤＶ经一定高压力条件处理后仍具有高免疫原性,即具备了疫苗的特性,内源荧光光谱、内源荧光偏振,散射光及ｂｉｓ－     

A nature of conformational changes of yeast tRNA(Phe). High hydrostatic pressure effects

We analysed conformational changes of yeast tRNA(Phe) induced by high hydrostatic pressure (HHP) measured by Fourier-transform infrared (FTIR) and fluorescence spectroscopies. High pressure influences RNA conformation without other cofactors, such as metal ions and salts. FTIR spectra of yeast tRNA(Phe) recorded at high hydrostatic pressure up to 13 kbar with and without magnesium ions showed a shift of the bands towards higher frequencies. That blue shift is due to an increase a higher energy of bonds as a result of shortening of hydrogen bonds followed by dehydration of tRNA. The fluorescence spectra of Y-base tRNA(Phe) at high pressure up to 3 kbar showed a decrease of the intensity band at 430 nm as a consequence of conformational rearrangement of the anticodon loop leading to exposure of Y-base side chain to the solution. We suggest that structural transition of nucleic acids is driven by the changes of water structure from tetrahedral to a cubic-like geometry induced by high pressure and, in consequence, due to economy of hydration.     

BSA structural changes during homomolecular exchange between the adsorbed and the dissolved states

The secondary structure and the thermostability of bovine serum albumin (BSA), before adsorption and after homomolecular displacement from silica and polystyrene particles, are studied by circular dichroism spectroscopy and differential scanning calorimetry. The structural perturbations induced by the hydrophilic silica surface are reversible, i.e. BSA completely regains the native structure and stability after being exchanged. On the other hand, the adsorption on, and subsequent desorption from, polystyrene particles causes irreversible changes in the stability and (secondary) structure of BSA. The exchanged proteins have a higher denaturation temperature and a lower enthalpy of denaturation than native BSA. The alpha-helix content is reduced while the beta-turn fraction is increased in the exchanged molecules. Both effects are more pronounced when the protein is displaced from less crowded sorbent surfaces. The irreversible surface-induced conformational change may be related to some aggregation of BSA molecules after being exposed to a hydrophobic surface.     

Rapid stimulation of large specific antibody responses with conjugates of antigen and anti-IgD antibody

Injection of mice with goat anti-mouse IgD antibody stimulates a large IgG1 anti-goat IgG antibody response, as well as polyclonal IgG1 production. To determine if this phenomenon could be used to induce large antibody responses to other Ag, covalent conjugates were produced between BSA or other Ag and H delta a/1, a mAb specific for IgD of the a allotype, and between BSA and AF3.33, a mAb specific for IgD of the b allotype. Injection of H delta a/1-BSA into BALB/c mice, which express Ig of the a allotype, or into (BALB/c x CB20)F1 mice (a x b allotype heterozygotes) induced IgG1 anti-BSA antibody responses that peaked 8 to 9 days after injection, and were more than 1000 times larger than those induced by injection of BSA alone, and 100 times larger than those induced by injecting unconjugated BSA plus H delta a/1. H delta a/1-BSA was no more immunogenic than unconjugated BSA when injected into CB20 mice, which express Ig of the b allotype, while AF3.33-BSA greatly enhanced anti-BSA antibody production in CB20, but not in BALB/c mice. Mice serially immunized with three different Ag conjugated to H delta a/1 made large antibody responses to all three Ag, provided that the mouse strain used did not recognize allotypic determinants on H delta a/1 as foreign and produce a neutralizing antibody response. Intravenous and s.c. routes of inoculation produced responses of similar magnitude and relatively low variability; responses to footpad or intramuscular inoculation were more variable, and i.p. inoculation induced smaller responses. Injection of BALB/c mice i.v. with 100 micrograms of H delta a/1-BSA induced an IgG1 anti-BSA response of 5.6 mg/ml, which was approximately 70% of the total IgG1 response. Anti-BSA responses to 30 micrograms of conjugate or less were much smaller, but could be considerably enhanced by adding unconjugated H delta a/1 to the inoculum. This system will be useful for the rapid stimulation of large antibody responses to biologically important Ag, and for investigating mechanisms of Ag processing and B and T cell activation.     

硫氧还蛋白抗体柱的制备

目的:探索硫氧还蛋白(Trx)抗体柱对Trx融合蛋白纯化的可行性。方法与结果:对含有Trx基因的质粒表达载体pTrxFus进行改造,在Trx读框之后加入6×His序列,并在大肠杆菌中表达C端带有6×His标签的Trx,经Ni2+柱亲和纯化后制备多克隆抗体;把经蛋白A纯化后的抗体偶联在溴化氰活化的琼脂糖凝胶上,制成Trx抗体柱;用此抗体柱纯化与Trx融合表达的豇豆胰蛋白酶抑制剂(CpTI),SDS-PAGE结果显示获得了纯度较高的Trx-CpTI。结论:用Trx抗体制成的免疫亲和层析柱可以有效纯化Trx融合蛋白。     

Assessment of the use of cyanogen bromide-activated Sepharose in analytical and preparative immunoadsorption

Procedures are described for the analytical and preparative purification of antigens based on their specific interaction with their complementary antibody immunoadsorbents prepared from cyanogen bromide-derivatized macroporous agarose matrices. In principle, the antigen to be purified in the affinity chromatography/immunoadsorption process should bind specifically and reversibly to the attached antibody, while other proteins pass through unretarded. In the case of tight binding, elution of the antigen is achieved by the use of eluting solutions of very high or very low pH, or with the use of chaotropic solutions such as 3 m KSCN. The performance of immunoadsorbents prepared from Sepharose 4B have been studied with the aim of improving the efficient utilization of immunoadsorption techniques. As a model, human serum was applied serially to several columns of Sepharose 4B sheep anti-human IgG which were then subjected to a number of successive adsorption/desorption cycles. Loading the columns with increasing amounts of serum showed that the performance was best when the antigen load was approximately threefold the ideal binding capacity. By limiting the amount of immobilized protein and carefully controlling the antigen load, significant improvements in yield and purity have been achieved. Antigen loads of threefold the potential binding capacity of the immunoadsorbent column results in the optimal yield of antigen with high purity and significant concomitant reduction in non-specific interference from other serum proteins. The non-specific adsorption which is an inherent problem and which leads to considerable inactivation of the covalently coupled antibody is highlighted. Although the popularity of such matrices is probably unsurpassed, it is clear that use has been made of them very frequently without an examination of quantitative aspects or side reactions.     

In situ FTIR ATR spectroscopic study of the interaction of immobilized human tumor necrosis factor-alpha with a monoclonal antibody in aqueous environment

By in situ FTIR ATR measurements, the antibody (AB) recognition of human tumor necrosis factor-alpha (TNFalpha) immobilized on the Ge surface of a multiple internal reflection element (MIRE) was investigated. The experiments were performed in aqueous environment in a flow-through cell. After immobilization of TNFalpha on the Ge-MIRE by direct adsorption from aqueous solution, the immobilisate reached stability after about 1 h under flow-through conditions. The remaining sites of the Ge surface were saturated by bovine serum albumin (BSA) in order to prevent unspecific binding of anti-TNFalpha AB which was then added. The obtained FTIR ATR spectra were shown to result exclusively from AB specifically interacting with TNFalpha, since the absence of immunoglobulin binding to BSA adsorbed to the Ge MIRE was verified by a reference experiment. Finally, the stability of all adsorbed protein immobilisates was monitored under flow-through conditions for 10.5 h. The TNFalpha-AB complex showed a decrease of 7.4%, whereas the BSA adsorbate remained stable. IR measurements were performed with polarized light in order to study orientational effects of the immobilized proteins. The dichroic ratios and surface concentrations of all used proteins are available after quantitative analysis of the amide II bands.     

Fluorescence and FTIR study of pressure-induced structural modifications of horse liver alcohol dehydrogenase (HLADH).

The process of pressure-induced modification of horse liver alcohol dehydrogenase (HLADH) was followed by measuring in situ catalytic activity (up to 250 MPa), intrinsic fluorescence (0.1-600 MPa) and modifications of FTIR spectra (up to 1000 MPa). The tryptophan fluorescence measurements and the kinetic data indicated that the pressure-induced denaturation of HLADH was a process involving several transitions and that the observed transient states have characteristic properties of molten globules. Low pressure (< 100 MPa) induced no important modification in the catalytic efficiency of the enzyme and slight conformational changes, characterized by a small decrease in the centre of spectral mass of the enzyme's intrinsic fluorescence: a native-like state was assumed. Higher pressures (100-400 MPa) induced a strong decrease of HLADH catalytic efficiency and further conformational changes. At 400 MPa, a dimeric molten globule-like state was proposed. Further increase of pressure (400-600 MPa) seemed to induce the dissociation of the dimer leading to a transition from the first dimeric molten globule state to a second monomeric molten globule. The existence of two independent structural domains in HLADH was assumed to explain this transition: these domains were supposed to have different stabilities against high pressure-induced denaturation. FTIR spectroscopy was used to follow the changes in HLADH secondary structures. This technique confirmed that the intermediate states have a low degree of unfolding and that no completely denatured form seemed to be reached, even up to 1000 MPa.