Adsorption of IgG onto hydrophobic teflon. Differences between the F(ab) and F(c) domains

The effect of differences in the degree of hydrophobicity of protein patches/fragments on the adsorption behaviour of the protein is investigated. The adsorption isotherm of a monoclonal mouse anti-human immunoglobulin G (isotype 2b) onto hydrophobic Teflon particles is measured using a depletion method. The adsorption-induced denaturation of the immunoglobulin as a function of the adsorbed amount is studied by differential scanning calorimetry, and the corresponding rearrangements in the secondary structure of the whole IgG molecule and its F(ab) and F(c) fragments are determined by circular dichroism spectroscopy. The effects of adsorption on the F(ab) and F(c) fragments in the intact IgG molecule occur independently. Adsorption of the whole IgG molecule leads to denaturation of the F(ab) fragments, whereas the F(c) fragment remains unperturbed; adsorption of the isolated fragments results in structural changes in both F(ab) and F(c). The surface hydrophobicity of the isolated fragments was studied by HPLC. These experiments support the hypothesis that differences in the degree of denaturation between F(ab) and F(c) are due to the higher degree of hydrophobicity of the F(ab) fragment. The adsorption-induced changes in the secondary structure are more prominent for the isolated fragments as compared to intact IgG. This is ascribed to the higher flexibility of the isolated fragment, as compared to the fragment in the whole molecule.     

Use of Thiophilic Adsorption Chromatography for the One-Step Purification of a Bacterially Produced Antibody Fab Fragment without the Need for an Affinity Tag

Thiophilic adsorption chromatography (TAC) was employed for the purification of a recombinant F_ab fragment of the antibody IN-1 from the periplasmic protein fraction of Escherichia coli. Adsorption of the F_ab fragment to the T-gel was achieved at a high concentration of ammonium sulfate and turned out to be independent of the presence of a His₆ tag or Strep tag or of the human or murine nature of the C_H1 and C_L domains (subclass IgG1/κ). Elution was effected by means of a decreasing salt gradient, yielding fractions with the correctly assembled, heterodimeric F_ab fragment at high purity. Interestingly, the single substitution of an alanine residue with phenylalanine in the CDR-L1 of the F_ab fragment significantly enhanced the retention on the column so that quantitative elution necessitated prolonged application of a low-salt buffer. Our findings suggest that TAC is generally suitable for the isolation of bacterially produced F_ab fragments and support the notion that aromatic side chains play an important role in the interaction with the affinity matrix. This method should prove valuable in the production of proteins for in vivo applications as might be the case for the F_ab fragment of the antibody IN-1, which promotes axonal regeneration in the central nervous system.     

Assembly of an antibody and its derived antibody fragment inNicotiana andArabidopsis

The yield and assembly of an IgG1 antibody and its derived F_ab fragment were compared inNicotiana andArabidopsis. The results obtained showed a lot of interclonal variability. For 45% of the primary transgenic calluses, antigen-binding entities represented less than 0.1% of the total soluble protein (TSP). Only two of the 103 analysed transformants contained more than 1% of antigen-binding protein, with 1.26% being the highest yield. Analogous amounts of complete antibody and F_ab accumulated in primary callus tissue. Moreover, yields were in the same range for both species as far as primary callus tissue is concerned. However, the accumulation of the F_ab fragment in leaf tissue of regenerated plants differed significantly betweenNicotiana andArabidopsis. The F_ab fragment accumulated to only 0.044% of TSP inNicotiana leaves but up to 1.3% inArabidopsis leaves. Furthermore, both species showed differences in the assembly pattern of the complete antibody. WhereasArabidopsis contained primarily fully assembled antibodies of 150 kDa,Nicotiana showed an abundance of fragments in the 50 kDa range.     

Structural changes of IgG induced by heat treatment and by adsorption onto a hydrophobic Teflon surface studied by circular dichroism spectroscopy

Thermal denaturation of mouse monoclonal immunoglobulin G (isotype 1), as well as structural rearrangements resulting from adsorption on a hydrophobic Teflon surface, are studied by circular dichroism spectroscopy. Both heat-induced and adsorption-induced denaturation do not lead to complete unfolding into an extended polypeptide chain, but leave a significant part of the IgG molecule in a globular or corpuscular form. Heating dissolved IgG causes a decrease of the fractions of β-sheet and β-turn conformations, whereas those of random coil and, to a lesser extent, α-helix increase. Adsorption enhances the formation of α-helices and random coils, but the β-sheet content is strongly reduced. Heating adsorbed IgG results in a gradual break-down of the α-helix and β-turn contents, and a concomitant formation of β-sheet structures. Thus, the structural changes in IgG caused by heating and by adsorption, respectively, are very different. However, after heating, the structure of adsorbed IgG approaches the structure of thermally denatured IgG in solution.     

Interaction of human immunoglobulin G with l-histidine immobilized onto poly(ethylene vinyl alcohol) hollow-fiber membranes

l-Histidine as pseudobiospecific ligand was immobilized onto poly(ethylene vinyl alcohol) hollow-fiber membranes to obtain an affinity support for immunoglobulin G (IgG) purification. The interaction of human IgG with the affinity membranes was studied by chromatography and equilibrium binding analysis. Adsorption was possible over a broad pH range and was found to depend strongly on the nature of the buffer ions rather than on ionic strength. With zwitterionic buffers like morpholinopropanesulfonic acid (Mops) and hydroxyethylpiperazineethanesulfonic acid (Hepes), much higher adsorption capacities were obtained than with other buffers like Tris-HCl and phosphate buffers. An inhibition analysis revealed that non-zwitterionic buffers competitively inhibit IgG binding, whereas Mops and Hepes in their zwitterionic form do not. By choosing the appropriate buffer system, it was possible to adsorb specifically different IgG subsets. The IgG molecules were found to adsorb on membrane immobilized histidine via their F_ab part. Determination of dissociation constants at different temperatures allowed calculation of thermodynamic adsorption parameters. Decrease in K_D with increasing temperature and a positive entropy value between 20 and 35°C (in Mops buffer) indicated that adsorption is partially governed by hydrophobic forces in that temperature range, whereas at lower temperatures, electrostatic forces are more important for adsorption.     

Ultrastructural localization of the maltose-binding protein within the cell envelope of Escherichia coli

Logarithmically growing cells of Escherichia coli were fixed with glutaraldehyde and incubated with antimaltose-binding protein F_ab coupled to horseradish peroxidase (molecular weight of the complex 80,000). The position of this complex within the cell envelope was determined by reacting with diaminobenzidine-H₂O₂, staining with osmium tetroxide and processing for thin section electron microscopy. The following observations were made: (i) induction of the maltose-binding protein resulted in swelling and staining of the outer membrane; (ii) the swelling and staining was more prominent in short cells, less prominent or absent in long cells; (iii) rare examples exhibited granular staining in the space between the plasma membrane and the peptidoglycan layer. These stainings were observable mainly in pole caps; (iv) a mutant lacking the receptor for phage showed altered staining pattern. Treatment of glutaraldehyde-fixed cells with EDTA-lysozyme prevented the specific labelling of the maltose-binding protein.Lists of Non Common Abbreviations MBP maltose-binding protein - MBP-F_ab)-HRPO F_ab fragments against maltose-binding, protein coupled to horseradish peroxidase - IgG immunoglobulin - PBS pnosphate buffered saline     

The thermal stability of immunoglobulin: unfolding and aggregation of a multi-domain protein

The denaturation of immunoglobulin G was studied by different calorimetric methods and circular dichroism spectroscopy. The thermogram of the immunoglobulin showed two main transitions that are a superimposition of distinct denaturation steps. It was shown that the two transitions have different sensitivities to changes in temperature and pH. The two peaks represent the F(ab) and F(c) fragments of the IgG molecule. The F(ab) fragment is most sensitive to heat treatment, whereas the F(c) fragment is most sensitive to decreasing pH. The transitions were independent, and the unfolding was immediately followed by an irreversible aggregation step. Below the unfolding temperature, the unfolding is the rate-determining step in the overall denaturation process. At higher temperatures where a relatively high concentration of (partially) unfolded IgG molecules is present, the rate of aggregation is so fast that IgG molecules become locked in aggregates before they are completely denatured. Furthermore, the structure of the aggregates formed depends on the denaturation method. The circular dichroism spectrum of the IgG is also strongly affected by both heat treatment and low pH treatment. It was shown that a strong correlation exists between the denaturation transitions as observed by calorimetry and the changes in secondary structure derived from circular dichroism. After both heat- and low-pH-induced denaturation, a significant fraction of the secondary structure remains.     

Structural and genetic analysis of four chicken 7S immunoglobulin allotypes

Four 7S immunoglobulin allotypic specificities in three inbred chicken lines were demonstrated in two immunoglobulin regions, probably associated with the heavy chains. Two specificities were associated with papain-produced Fab fragments, most likely the Fd fragment since they were not demonstrated on the 17S immunoglobulin. The other allotypes were detected only on intact 7S immunoglobulin and were undetectable on the Fab and Fc fragments; therefore, they probably were associated with a region of the heavy chain sensitive to papain digestion. Among F₂ hybrids, these specificities segregated in a manner statistically indistinguishable from that expected of three codominant alleles at an autosomal locus. This locus was not closely associated with any of five chicken blood group loci.     

Accumulation Pattern of IgG Antibodies and Fab Fragments in Transgenic Arabidopsis thaliana Plants

For the further optimization of antibody expression in plants,it is essential to determine the final accumulation sites ofplant-made antibodies. Previously, we have shown that, uponsecretion, IgG antibodies and F_ab fragments can be detectedin the intercellular spaces of leaf mesophyil cells of transgenicArabidopsis thaliana plants. However, immunofluorescence microscopyshowed that this is probably not their final accumulation site.In leaves, IgG and F_abfragments accumulate also at the interiorside of the epidermal cell layers and in xylem vessels. Theseaccumulation sites correspond with the leaf regions where waterof the transpiration stream is entering a space impermeableto the proteins or where water is evaporating. In roots, plant-madeF_ab fragments accumulate in intercellular spaces of cortex cells,in the cytoplasm of pericycle and, to a lesser extent, endodermiscells, and in cells of the vascular cylinder. In other words,antibody accumulation occurs at the sites where water passeson its radial pathway towards and within the vascular bundle.Taken together, our results suggest that, upon secretion ofplant-made antibodies or F_ab fragments, a large proportion ofthese proteins are transported in the apoplast of A. thaliana,possibly by the water flow in the transpiration stream. ⁴Corresponding author. Fax 32-9-2645349; e-mail: anpic{at}gengenp.rug.ac.be     

The unfolding/denaturation of immunogammaglobulin of isotype 2b and its F(ab) and F(c) fragments

The unfolding and further denaturation of IgG and its F(ab) and F(c) fragments were studied both on a macroscopic and molecular level, using differential scanning calorimetry and circular dichroism spectroscopy, respectively. It was shown that the structural integrity of the F(ab) and F(c) units was retained after fragmentation of the IgG. The F(ab) fragment denatured at approximately 61 degrees C and the F(c) fragment at 71 degrees C. The structural transitions observed in the whole IgG is the sum effect of those determined for the isolated F(ab) and F(c) fragments.     

The action of cyanogen bromide on horse-heart cytochrome c and horse-heart myoglobin

1. The effects of cyanogen bromide on horse-heart cytochrome c and horse-heart myoglobin have been investigated. Cytochrome c yielded four fragments, of which two were haemopeptides. The two colourless peptides had amino acid compositions corresponding to those that are expected, on the basis of the sequence proposed for horse-heart cytochrome c by Margoliash, Smith, Kreil & Tuppy (1961), from cleavage at both methionine residues. Of the two haemopeptides, one was isolated and shown to be that derived from cleavage at only one methionine residue, that nearer to the C-terminus of the peptide chain. 2. Myoglobin also gave four peptides, three of which accounted for the total amino acid content of the intact protein. The fourth fragment arose by cleavage at a single methionine residue, that nearer the C-terminus. Characterization of this fourth fragment made it possible to deduce the order of arrangement of the fragments in the intact molecule.     

The oligosaccharide units of rabbit immunoglobulin G. Asymmetric attachment of C2-oligosaccharide

Two populations of immunoglobulin G (IgG) molecules were isolated from pooled rabbit serum. The first was almost devoid of galactosamine and was obtained in a yield of 7% of the total IgG; the second contained on average a single residue of galactosamine per molecule and was obtained in a yield of 30% of the total IgG. The galactosamine, which is present solely in the C2-oligosaccharide, appeared to be present on one H-chain and not the other in the four-chain structure. Evidence was obtained by the isolation of a glycopeptide linked through a disulphide bridge to a second peptide of the same sequence; the oligosaccharide attached to the first peptide was absent from the complementary peptide. Further evidence was obtained by degradation and analysis of the 5S IgG fragment, which comprises an intact half-molecule coupled through a disulphide bridge to the Fc fragment derived from the opposing half molecule (Goodman, 1965); only the intact H-chain carried the C2-oligosaccharide.     

Selective aromatic-hydrophobic binding and fractionation of immunoglobulin by means of phenyl-(CH2)n-NH-substituted agaroses.

Under specified conditions the major portions of immunoglobulin preparations (“Fraction II”, IgG) are selectively bound by agaroses substituted with phenyl-(CH₂)_n-NH-groups as compared to agaroses carrying aliphatic n-alkyl-NH-groups of similar hydrophobicity and ligand density. These immunoglobulin preparations, even the most highly purified ones, were found to be inhomogeneous with respect to the aromatic-hydrophobic mode of binding and fractionation through differential adsorption on the basis of the hydrocarbon chain-length of the ligands has been attained.     

Reactivation of 3-phosphoglycerate kinase from its unfolded proteolytic fragments

Limited trypsinolysis of pig muscle 3-phosphoglycerate kinase yielded a nicked enzyme without loss of catalytic activity [Jiang, S. X. & Vas, M. (1988) FEBS Lett. 231, 151-154]. The reactivation rate of the nicked enzyme after denaturation does not differ substantially from the reactivation rate of the denatured intact enzyme: t 1/2 varies between 70-110 s at 25 degrees C, pH 7.0 in both cases. Thus, the absence of a covalent linkage between the two proteolytic fragments of the enzyme molecule apparently does not affect the refolding. The two proteolytic fragments can be separated by FPLC under denaturing conditions. Fluorescence spectra of the isolated fragments may indicate that the tryptic cleavage site is within the N-terminal domain. Thus, the larger fragment (molecular mass about 30 kDa) probably contains the whole nucleotide-binding C-terminal domain plus a small part of the N-terminal domain. The inactive isolated fragments were used in renaturation experiments to study the reassembly of active 3-phosphoglycerate kinase. Kinetic measurements revealed the presence of a bimolecular rate-limiting step of reactivation. Separate preincubation of the fragments under renaturing conditions did not cause substantial acceleration of reactivation. This implies that assembly of the separate structural units (possibly domains) may limit the reactivation of the intact enzyme.     

Effect of Specific Cleavage of Immunoglobulin G by Plasmin on the Binding and Activation of Plasminogen

A method of ELISA for measuring the binding of different samples of immunoglobulin (IgG) and its fragments to human plasminogen (Pg) has been developed. Instead of plasminogen, the heavy chain of plasminogen (Pg-H) containing five ligand-binding kringle domains, immobilized on the surface of the plate, was used in this method as a detector. It was found that IgG treated with plasmin (IgG_Pm-t) binds to the immobilized Pg-H 2.84 times more strongly than intact IgG. Both IgG samples showed a weak nonspecific binding to the immobilized light chain of plasminogen (Pg-L). It was shown that 0.2 M L-lysine inhibits the binding of IgG_Pm-t and does not affect the nonspecific binding of intact IgG to the immobilized Pg-H, indicating the involvement of lysine-binding regions of Pg-H in binding to IgG_Pm-t. A preliminary treatment of IgG samples with carboxypeptidase В (CPB) inhibited the binding of IgG_Pm-t and did not affect the nonspecific binding of intact IgG to the immobilized Pg-H, which indicates a key role of the С-terminal lysine of IgG_Pm-t in the specific binding to the lysine-binding sites of Pg. The study of the effects of intact IgG and IgG_Pm-t on the rate of activation of Glu- and Lys-forms of Pg (Glu-Pg and Lys-Pg) by a tissue activator of Pg (tPA) and urokinase (uPA) in buffer showed that intact IgG completely inhibited the activation of Glu-Pg and Lys-Pg with both tPA and uPA. Presumably, the inhibitory effect of intact IgG is due to steric hindrances that it creates for protein–protein interactions of the activators with the zymogen. IgG_Pm-t accelerated the generation of plasmin from Pg. In this case, the stimulatory effect of IgG_Pm-t on the activation of Glu-Pg under the action of tPA was ～25% higher than on the activation of Lys-Pg, which is explained by more significant conformational changes in the Glu-Pg molecule compared with the Lys-Pg molecule after their binding to IgG_Pm-t. The results suggest that the specific cleavage of IgG by plasmin may be one of the ways by which the plasminogen/plasmin system is involved in various physiological and pathological processes.     

Time course localization of immunoglobulin M monoclonal antibody and its fragments in leukemic tumor-bearing mice

Summary In vivo localization of a mouse monoclonal antibody (F₂-10.23 IgM) binding leukemic L 1210 cells was studied in DBA/2 mice bearing an L 1210 tumor. F(ab)₂ fragments were prepared and their specific binding to L 1210 cells was analyzed by flow cytofluorometry. Radiolocalization studies were performed by using ¹²⁵I- or ¹³¹I-labeled IgM monoclonal antibody or its F(ab')₂ fragments to ascertain their capacity to visualize the L 1210 tumor. F(ab)₂ fragments were cleared more rapidly than the whole IgM; the clearance was as fast in healthy as in tumor-bearing mice. The tumor-to-muscle ratio observed 24 h after injection of ¹²⁵I-radiolabeled F(ab)₂ fragments and ¹²⁵I-radiolabeled IgM was 10; the radioactivity level in the blood with F(ab)₂ fragments was lower than with IgM, and so -camera imaging was workable with F(ab)₂ fragments without background substraction. The tumor localization was studied over a period of 5 days by recording the distribution of the iodinated fragments in the tumor-bearing leg compared with that in the normal leg, and by computer analysis of the region of interest. F(ab)₂ fragments gave better results than intact IgM in tumor visualization. Nevertheless, the rapid clearance of this antibody or its F(ab)₂ fragments make them hardly suitable as carriers of toxic drugs. Abbreviations used are: MEM Minimum essential medium; SDS sodium dodecylsulfate; PAGE polyacrylamide gel electrophoresis     

Rotational dynamics of monoclonal anti-dansyl immunoglobulins

The rotational motions of monoclonal mouse anti-dansyl immunoglobulins were studied by nanosecond fluorescence emission anisotropic spectroscopy using a mode-locked argon-ion laser as the pulsed excitation source. Three homogeneous antibodies of the immunoglobulin Gl (IgGl) subclass containing different V regions were prepared. The fluorescence emission maxima of these antibodies (designated as DNS1, DNS2 and DNS3) are at 515, 480 and 500 nm, respectively. Their mean rotational correlation times, 〈φ〉, are 84, 109 and 96 ns, respectively. The binding of protein A or a monoclonal anti-allotype antibody to the F_c unit of DNS1 increased 〈φ〉 to 142 and 150 ns, respectively, whereas reduction of the disulfide bond between the heavy chains decreased 〈φ〉 to 48 ns. These nanosecond measurements show that the rotational motion of the F_ab arms in mouse IgGl is restricted.     

Investigating the function of Fc‐specific binding of IgM to Plasmodium falciparum erythrocyte membrane protein 1 mediating erythrocyte rosetting

Acquired protection from Plasmodium falciparum malaria takes years to develop, probably reflecting the ability of the parasites to evade immunity. A recent example of this is the binding of the F_c region of IgM to VAR2CSA‐type PfEMP1. This interferes with specific IgG recognition and phagocytosis of opsonized infected erythrocytes (IEs) without compromising the placental IE adhesion mediated by this PfEMP1 type. IgM also binds via F_c to several other PfEMP1 proteins, where it has been proposed to facilitate rosetting (binding of uninfected erythrocytes to a central IE). To further dissect the functional role of F_c‐mediated IgM binding to PfEMP1, we studied the PfEMP1 protein HB3VAR06, which mediates rosetting and binds IgM. Binding of IgM to this PfEMP1 involved the F_c domains Cμ3‐Cμ4 in IgM and the penultimate DBL domain (DBLζ2) at the C‐terminus of HB3VAR06. However, IgM binding did not inhibit specific IgG labelling of HB3VAR06 or shield IgG‐opsonized IEs from phagocytosis. Instead, IgM was required for rosetting, and each pentameric IgM molecule could bind two HB3VAR06 molecules. Together, our data indicate that the primary function of F_c‐mediated IgM binding in rosetting is not to shield IE from specific IgG recognition and phagocytosis as in VAR2CSA‐type PfEMP1. Rather, the function appears to be strengthening of IE–erythrocyte interactions. In conclusion, our study provides new evidence on the molecular details and functional significance of rosetting, a long‐recognized marker of parasites that cause severe P. falciparum malaria.     

Reversible unfolding of the β2 subunit of Escherichia coli tryptophan synthetase and its proteolytic fragments

The guanidine hydrochloride-induced reversible unfolding transitions at 4 °C of the β₂ subunit of tryptophan synthetase (l-serine hydrolyase (adding indole) EC. 4.2.1.20) and of its two proteolytic fragments, F₁ and F₂, are compared. The unfolding of the β₂ subunit shows a multistate behaviour, as judged by circular dichroism and fluorescence measurements. When isolated, the two fragments have different stabilities. Within β₂, the region corresponding to the large fragment, F₁ behaves as the corresponding isolated fragment, and no stabilization arising from the interaction with the complementary fragment can be detected. The same behaviour is suggested for the small fragment, F₂. These results lead to the apparent conclusion that, at least under these experimental conditions, the interactions between domains do not contribute greatly to the energetics of the folding process of the large β₂ protein.     

Ultrastructural localization of gamma-chain and immunoglobulin G in human lymphocytes using enzyme-labeled Fab fragment.

By the use of rabbit antibodies against the heavy chain of human immunoglobulin G (IgG), the gamma-chain and IgG molecules were successfully localized at the ultrastructural level in human peripheral lymphocytes. The rabbit Fab fragment was coupled to horseradish peroxidase by means of glutaraldehyde and the resulting conjugate could penetrate the intact plasma membrane. Discernible reaction product was observed in cisternae of the nuclear envelope, rough endoplasmic reticulum and Golgi apparatus as well as on the surface of the lymphocytes. In normal human individuals under no specific antigenic stimulation, only a few peripheral lymphocytes showed a rare positive intractoplasmic reaction. Reaction product may represent either the whole IgG molecule, the half molecule consisting of one heavy and one light chain or nascent gamma-chain.