Human monoclonal cryoimmunoglobulins. I. Molecular properties of IgG3 kappa (Jir protein) and the cryo-coprecipitability of its molecular fragments by papain

The temperature-dependent precipitability of a monoclonal IgG3 kappa cryoimmunoglobulin (Jir) without known antibody activity is shown to be affected by various physico-chemical factors, such as protein concentration, pH value and NaCl concentration. The molecular properties characterizing this protein (carbohydrate and amino acid compositions, peptide constitutions and susceptibility to enzymatic proteolysis) are described. The cryoprecipitability of the protein was completely lost upon papain hydrolysis, and none of the isolated fragments, Fab-Fc, Fc, and Fab, showed any precipitating activity. In the cryo-coprecipitation assay using the 125I-labeled fragments, it was demonstrated that the association activity with intact Jir protein was still retained on the Fab-Fc and Fc fragments, but not on the Fab fragment. The evidence suggests that a specific interaction may be involved in the primary intermolecular association required to form the cryoprecipitate at temperatures below the critical point, and that one of the pairing sites resides on the Fc portion of the protein molecule.     

The modification of human immunoglobulin binding to staphylococcal protein A using diethylpyrocarbonate

Human IgG subclasses 1, 2, and 4, as well as proteins of the IgG3 subclass that are allotype G3m (s+t+), bind avidly to staphylococcal protein A by means of their Fc portion. Proteins of the IgG3 subclass that are allotype G3m (s-t-) do not bind. The importance of a histidine residue at position 435 has been implicated from comparison of amino acid sequences of immunoglobulins that bind with those that do not bind to staphylococcal protein A, as well as from crystallographic data. Modification of histidines at a low concentration of diethylpyrocarbonate successfully and reversibly alters the binding of immunoglobulins to staphylococcal protein A with only minimal change in the antigenic properties. This method provides strong evidence for the critical importance of histidine in the binding of immunoglobulins to staphylococcal protein A.     

Dynamics of Inter-heavy Chain Interactions in Human Immunoglobulin G (IgG) Subclasses Studied by Kinetic Fab Arm Exchange

Interdomain interactions between the CH3 domains of antibody heavy chains are the first step in antibody assembly and are of prime importance for maintaining the native structure of IgG. For human IgG4 it was shown that CH3-CH3 interactions are weak, resulting in the potential for half-molecule exchange (“Fab arm exchange”). Here we systematically investigated non-covalent interchain interactions for CH3 domains in the other human subclasses, including polymorphisms (allotypes), using real-time monitoring of Fab arm exchange with a FRET-based kinetic assay. We identified structural variation between human IgG subclasses and allotypes at three amino acid positions (Lys/Asn-392, Val/Met-397, Lys/Arg-409) to alter the strength of inter-domain interactions by >6 orders of magnitude. Each substitution affected the interactions independent from the other substitutions in terms of affinity, but the enthalpic and entropic contributions were non-additive, suggesting a complex interplay. Allotypic variation in IgG3 resulted in widely different CH3 interaction strengths that were even weaker for IgG3 than for IgG4 in the case of allotype G3m(c3c5*/6,24*), whereas G3m(s*/15*) was equally stable to IgG1. These interactions are sufficiently strong to maintain the structural integrity of IgG1 during its normal life span; for IgG2 and IgG3 the inter-heavy chain disulfide bonds are essential to prevent half-molecule dissociation, whereas the labile hinge disulfide bonds favor half-molecule exchange in vivo for IgG4.     

Structural studies of a human gamma 3 myeloma protein (Goe) that binds staph protein A

The partial amino acid sequence of the Fc region of an unusual monoclonal immunoglobulin molecule (Goe), which had the allotypic markers Gm (b0, b3, b5, s, t, v), rarely encountered in Caucasians, was determined. Protein Goe was previously shown to belong to the gamma 3 subclass by antigenic typing, to possess a gamma 3-like hinge region and a gamma 1-like carboxy-terminal octadecapeptide, and to bind to staphylococcal protein A. The sequence of protein Goe resembled that of gamma 3 molecules except for the presence of tyrosine at position 296, alanine at position 339, and histidine and tyrosine at positions 435 and 436. It is of interest that histidine 435 appears to play an important role in binding to Staph protein A. Since tyrosine and phenylalanine at 296 and 300 are typical of G3m(g) molecules, whereas protein Goe is G3m(g-), this may correspond to the non-b1 allotypic marker. Of the numerous explanations to account for these findings, the most likely possibilities are that protein Goe is either a hybrid molecule or the product of a germ line gene representing the G3m s allotype, which is rare in Caucasians and common in Mongoloid populations. Support for the latter alternative is provided by the isolation from normal serum of a small amount of a protein having many of the properties of protein Goe.     

The amino acid sequence of a human immunoglobulin G3m(g) pFc' fragment.

Amino acid sequence analysis of the pFc' fragment obtained by pepsin digestion of an IgG3; G3m(g) human myeloma protein HER shows it to consist of 112 residues. It starts at position 334 (gamma1 numbering), contains eight residues of the Cgamma2 region, and the whole Cgamma3 domain. Comparison with the sequence of gamma1 shows five differences including an extra Met at 397. Each is accountable by a single base substitution. The sequence is identical to that of a G3m(b0) molecule except for the previously noted allotype related Tyr/Phe exchange at position 436. The high degree of homology (95%) among gamma-chain subclasses suggests a recent diversification.     

An amino acid substitution determining G3m(g)

An allotypic G3m(g) marker-specific substitution was studied by sequence analysis of glycopeptides derived from myeloma proteins Ba (G3m(g+)) and Bu (G3m(g-)). The experimental results indicate that glutamic acid at position 295 is responsible for the specificity. Based on the results of chemical modification (Arg, Tyr, and Glu), this antigenic epitope is presumed to involve five sequential residues from Arg-292 to Tyr-296.     

The amino acid sequences of the three heavy chain constant region domains of a human IgG2 myeloma protein.

The amino acid sequences of most of the CH1, CH2 and CH3 domains of IgG Zie, a myeloma protein belonging to the IgG2 subclass, are presented. These data make possible a comparison of the sequences of residues 253-446 of all four subclasses of immunoglobulins: these residues make up almost the entire Fc regions. A comparison can also be made of the CH1 domain of IgG1 Eu and the CH1 domain of IgG2 Zie. Earlier sequence analyses of the Fc regions of subclass 1 and 3 proteins, and parts of the Fc regions of subclass 2 and 4 proteins showed that about 95% of these sequences were identical. The extended comparisons made possible by the data presented here show that this very high degree of identity is maintained throughout the four subclasses. Similarly, the CH1 domains of gamma 1 and gamma 2 chains were found to have about 93% sequence identity. It is unlikely that the few single amino acid changes within the constant region domains can account for the marked differences between subclasses observed in the region domains can account for the marked differences between subclasses observed in the biological effector functions of immunoglobulin Fc regions, especially since most of the changes are highly conservative. Rather, it seems probable that these functional differences are caused by conformational differences between the subgroups, which result from sequence differences in the hinge regions.     

Fasciola hepatica: parasite-secreted proteinases degrade all human IgG subclasses: determination of the specific cleavage sites and identification of the immunoglobulin fragments produced

The study was focused on the relationship of Fasciola hepatica-secreted proteinases and human IgG subclasses. Each IgG was incubated at different pH values and lengths of time with either the adult parasite excretion-secretion products or the purified cysteinyl proteinases cathepsin L1 and cathepsin L2. The Ig fragments produced were isolated and characterized by Western blot analysis, and the specific cleavage sites were determined by amino acid sequence analysis. Parasite excretion-secretion products and both cathepsins L produced similar degradation patterns and cleaved all human IgG subclasses at the hinge region, yielding at pH 7.3 and 37 degrees C Fab and Fc fragments in the case of IgG1 and IgG3 or Fab(2) and Fc in IgG2 and IgG4. While IgG1 and IgG3 were readily degraded by E/S products either in the presence or in the absence of reducing agents, IgG2 and IgG4 were resistant to proteolysis and were only digested in the presence of 0.1 M dithiothreitol. The cathepsins L needed the presence of dithiothreitol to digest IgG1, IgG2, and IgG4 whereas IgG3 was identically cleaved under both reducing and nonreducing conditions. The main cleavage sites produced by E/S products, CL1, or CL2 were located at the positions peptide bonds: His237-Thr238, Glu237-Cys239, Gly233-Asp234, and Ser241-Cys242 for gamma1, gamma2, gamma3, or gamma4, respectively. The enzymes gave additional splitting sites on the middle hinge of IgG3 to produce shorter Fc fragments and also produce Fd degradation of the IgG4. No cleavage specificity differences were found between CL1 and CL2, but they differed in the kinetics of IgG3 degradation. By lowering the pH, only the E/S products produced concomitant destruction of the Fc while preserving the Fab portion. Under all the conditions assayed the enzymes produced an Fc'-like fragment of 14-15 kDa corresponding to the whole CH3 domain of the immunoglobulin. Contrary to the extensive degradation produced by cathepsins on digested proteins, its actions on IgG subclasses were specific and restricted; thus, all the fragments produced could be potentially involved in the mechanisms used by the parasite to evade the host immune response.     

Rheumatoid factors from patients with rheumatoid arthritis react with beta 2-microglobulin.

IgM rheumatoid factors (RF) from 18 sera of rheumatoid arthritis (RA) patients isolated from monomeric IgG affinity columns showed strongly positive ELISA reactions with human beta 2-microglobulin (beta 2m), as well as with recombinant beta 2m. When the same RA sera were adsorbed to beta 2m-Sepharose affinity columns, eluted material showed predominant IgM anti-Fc of IgG and anti-beta 2m reactivity. Inhibition reactions with "RF" obtained from IgG affinity columns showed slightly higher reactivity of RF for Fc over beta 2m; however, when RF from the same RA serum had been adsorbed to and eluted from beta 2m affinity columns, beta 2m showed greater inhibition than Fc for RF reacting with either beta 2m or Fc on ELISA plates. Thus two overlapping populations of RF were identified in RA sera showing reactivity with both beta 2m and Fc of IgG. When RF were isolated from IgG columns, affinity was slightly higher for Fc than beta 2m. Conversely, RF eluted from beta 2m Sepharose reacted slightly more with beta 2 m than Fc. Trypsin digests of a polyclonal RA IgM RF showed no beta 2m reactivity in Fc mu 5 fragments. Fab mu RF retained slight anti-Fc IgG but no residual anti-beta 2m activity. Monoclonal human IgM, IgG, or IgA RF either from mixed cryoglobulins or EBV-stimulated RA lymphoid cell lines showed negative or occasional weakly positive anti-beta 2m activity. Overlapping 7-mer peptide ELISA analysis of the entire 99-amino acid sequence of beta 2m showed a major RF-reactive linear hydrophilic sequence at positions 56-60 which included a 3-amino acid exact homology to positions 401, 403, and 404 of the C gamma 3 domain. A peptide encompassing this sequence produced 90% inhibition of RF binding to whole beta 2m. Substitution of neutral glycines for each amino acid throughout the reactive epitope at positions 56-66 indicated that lysine at position 58 aspartic acid at 59, and tryptophane at 60 represented major portions of the RF-reactive epitope. These findings indicate that human RF derived from patients with RA react with other epitopes besides those present on IgG Fc, including epitopes on human beta 2m. For many years serum RF3 found in patients with RA have been regarded as premier examples of autoantibodies to autologous IgG.(ABSTRACT TRUNCATED AT 400 WORDS)     

Remarkable alkaline stability of an engineered protein A as immunoglobulin affinity ligand: C domain having only one amino acid substitution

Protein A affinity chromatography is the standard purification process for the capture of therapeutic antibodies. The individual IgG‐binding domains of protein A (E, D, A, B, C) have highly homologous amino acid sequences. From a previous report, it has been assumed that the C domain has superior resistance to alkaline conditions compared to the other domains. We investigated several properties of the C domain as an IgG‐Fc capture ligand. Based on cleavage site analysis of a recombinant protein A using a protein sequencer, the C domain was found to be the only domain to have neither of the potential alkaline cleavage sites. Circular dichroism (CD) analysis also indicated that the C domain has good physicochemical stability. Additionally, we evaluated the amino acid substitutions at the Gly‐29 position of the C domain, as the Z domain (an artificial B domain) acquired alkaline resistance through a G29A mutation. The G29A mutation proved to increase the alkaline resistance of the C domain, based on BIACORE analysis, although the improvement was significantly smaller than that observed for the B domain. Interestingly, a number of other amino acid mutations at the same position increased alkaline resistance more than did the G29A mutation. This result supports the notion that even a single mutation on the originally alkali‐stable C domain would improve its alkaline stability. An engineered protein A based on this C domain is expected to show remarkable performance as an affinity ligand for immunoglobulin.     

Ligand-sensitive binding of actin-binding protein to immunoglobulin G Fc receptor I (Fc gamma RI).

The high affinity receptor that binds the Fc domain of immunoglobulin G (IgG) subclasses 1 and 3 (Fc gamma RI) mediates important immune defense functions by inducing cell surface changes on human leukocytes. In this article, we document direct high affinity binding of Fc gamma RI to the actin filament cross-linking protein, actin-binding protein (ABP). In the absence of IgG, all Fc gamma RI molecules in undifferentiated cells of myeloid line U937 bound to ABP over a 9-fold range of Fc gamma RI expression induced by human IFN-gamma. Binding of IgG to U937 cells constitutively expressing Fc gamma RI or to COS cells genetically transfected to express Fc gamma RI rapidly decreased the avidity of Fc gamma RI for ABP. This finding suggests the existence of a pathway communicating a signal between a functional IgG receptor and intracellular components involved in the effector responses to Fc gamma RI-ligand interaction.     

Fc specific IgG glycosylation profiling by robust nano-reverse phase HPLC-MS using a sheath-flow ESI sprayer interface

Biological activities of immunoglobulin G such as effector functions via Fc receptor interactions are influenced by Fc-linked N-glycans. Here we describe a fast, robust and sensitive nano-LC-ESI-MS method for detailed subclass specific analysis of IgG Fc N-glycosylation. A sheath-flow ESI sprayer was used as a sensitive zero dead volume plug-and-play interface for online MS coupling, generating a very constant spray and ionization over the entire LC gradient. The propionic acid containing sheath-liquid effectively suppressed TFA gas-phase ion-pairing, enabling the use of TFA containing mobile phases. The fixed position of the sheath-flow ESI sprayer, far away from the glass capillary inlet, reduced MS contamination as compared to conventional nano-ESI. The method was found to be suitable for fast and detailed subclass specific IgG Fc N-glycosylation profiling in human plasma. The obtained subclass specific IgG Fc N-glycosylation profiles were processed automatically using in house developed software tools. For each of the IgG subclasses the 8 major glycoforms showed an interday analytical variation below 5%. The method was used to profile the IgG Fc N-glycosylation of 26 women at several time points during pregnancy and after delivery, revealing pregnancy-associated changes in IgG galactosylation, sialylation and incidence of bisecting N-acetylglucosamine.     

Mutations conferring resistance to neutralization by a soluble form of the neurotrophin receptor (p75NTR) map outside of the known antigenic sites of the rabies virus glycoprotein

The neurotrophin receptor (p75NTR) serves as a receptor for rabies virus (RV). We expressed and purified a soluble chimera consisting of the p75NTR ectodomain fused to the human immunoglobulin G1 (IgG1) Fc fragment (p75-Fc). Although p75-Fc interacts with RV, the infectivity of RV did not decrease significantly when it was incubated in the presence of the soluble receptor alone. However, when it was subsequently incubated with an antihuman IgG directed against the Fc fragment of p75-Fc, the infectivity of RV was significantly lowered (>90%), whereas incubation with antihuman IgG alone had no effect. We then selected eight independent RV mutants that were not neutralized by p75-Fc and antihuman IgG (srr [soluble receptor resistant] mutants). Each mutant carried a single mutation in the glycoprotein gene leading to one amino acid substitution in the protein. A total of four different substitutions were found. Two of the mutations were located at position 318 (phenylalanine replaced by a serine or a valine residue), and two were located at position 352 (histidine replaced by a tyrosine or an arginine residue). All of the mutations prevented the interaction with p75NTR as either a soluble or a membrane-anchored form. Two mutants (F318S) and (H352R) resulted in the formation of small plaques on BSR cells, probably due to the slower maturation of the glycoprotein. Immunoprecipitation, immunofluorescence, and neutralization assays showed that the four mutated glycoproteins still interacted with representative anti-RV glycoprotein monoclonal antibodies (MAbs), indicating that p75NTR binds outside of the known RV glycoprotein antigenic sites.     

Amino acid substitutions at positions 122 and 145 of hepatitis B virus surface antigen (HBsAg) determine the antigenicity and immunogenicity of HBsAg and influence in vivo HBsAg clearance

A variety of amino acid substitutions, such as K122I and G145R, have been identified around or within the a determinant of hepatitis B surface antigen (HBsAg), impair HBsAg secretion and antibody binding, and may be responsible for immune escape in patients. In this study, we examined how different substitutions at amino acid positions 122 and 145 of HBsAg influence HBsAg expression, secretion, and recognition by anti-HBs antibodies. The results showed that the hydrophobicity, the presence of the phenyl group, and the charges in the side chain of the amino acid residues at position 145 reduced HBsAg secretion and impaired reactivity with anti-HBs antibodies. Only the substitution K122I at position 122 affected HBsAg secretion and recognition by anti-HBs antibodies. Genetic immunization in mice demonstrated that the priming of anti-HBs antibody response was strongly impaired by the substitutions K122I, G145R, and others, like G145I, G145W, and G145E. Mice preimmunized with wild-type HBsAg (wtHBsAg) or variant HBsAg (vtHBsAg) were challenged by hydrodynamic injection (HI) with a replication-competent hepatitis B virus (HBV) clone. HBsAg persisted in peripheral blood for at least 3 days after HI in mice preimmunized with vtHBsAg but was undetectable in mice preimmunized with wtHBsAg, indicating that vtHBsAgs fail to induce proper immune responses for efficient HBsAg clearance. In conclusion, the biochemical properties of amino acid residues at positions 122 and 145 of HBsAg have a major effect on antigenicity and immunogenicity. In addition, the presence of proper anti-HBs antibodies is indispensable for the neutralization and clearance of HBsAg during HBV infection.     

Recombinant, truncated CD4 molecule (rT4) binds IgG

CD4 is a cell surface glycoprotein that identifies the subset of human T lymphocytes that induces sIg+ B lymphocytes to differentiate and secrete Ig after intimate T-B cell contact. In the course of studying a recombinant, truncated form of CD4 (rT4) we noticed that goat antibodies of apparently irrelevant specificities bound to immobilized rT4. To directly study whether rT4 interacts with Ig molecules, purified human IgG was added to rT4-coated wells and a dose-dependent interaction between IgG and rT4 was observed by ELISA. Purified myeloma IgG proteins bound to immobilized rT4 with the same avidity as polyclonal IgG that suggests that rT4-IgG binding was not due to the presence of anti-rT4 antibodies in the IgG fraction. IgG from 6 sera bound to rT4 in concentration dependent manner similar to purified IgG. Immobilized rT4 specifically bound IgG, and not IgM, IgA, IgD, or beta 2-microglobulin. The specific interaction of rT4 and IgG was also observed when IgG or IgM were immobilized, demonstrating that IgG binding was not a unique property of immobilized rT4. As with low affinity receptors for IgG, rT4 bound heat aggregated IgG with increased avidity. Neither anti-CD4 mAb nor dextran sulfate inhibited rT4-IgG binding. rT4 bound Fc but not F(ab)2 fragments. Each of the purified IgG subclasses; IgG1, 2, 3, and 4 bound to rT4 with similar avidity. Taken together, these data suggest that rT4 specifically interacts with a public structure on IgG Fc.     

双峰驼血清IgG亚型的分离纯化及多克隆抗体的制备

双峰驼IgG亚型包含IgG1、IgG2和IgG3,其中IgG2和IgG3为重链抗体,在结构上与IgG1存在显著差异。为获取双峰驼血清中的IgG1、IgG2和IgG3,并分析其抗原特异性和抗体特异性,本文交替使用Protein A和Protein G亲和层析柱,对其分离纯化,并通过聚丙烯酰胺凝胶电泳进行鉴定;之后分别制备兔抗双峰驼IgG1、IgG2和IgG3的多克隆抗体,通过ELISA对制备的多克隆抗体的效价进行测定;最后应用Western blot评估这三个亚型多克隆抗体的特异性,进而对双峰驼血清中IgG1、IgG2和IgG3的抗原特异性进行分析。结果表明,应用Protein A和Protein G亲和层析柱成功分离纯化出双峰驼血清中的IgG1、IgG2和IgG3;并制备兔抗双峰驼IgG1、IgG2和IgG3的多克隆抗体效价均在1∶10000以上,并且所获得的多克隆抗体分别与IgG1、IgG2和IgG3之间均存在交叉反应,但兔抗双峰驼IgG1多克隆抗体较其它两个亚型多克隆抗体特异性低。结果证明,双峰驼IgG1、IgG2和IgG3均具有良好的免疫原性,三者结构虽存在显著差异,但其抗原特性类似。     

Phagocytosis by mouse peritoneal macrophages plated on monoclonal antibody-coated immune complex-substrates: effects of complexes of different IgG subclasses on Fc receptor functions

Macrophages plated on immune complex-coated substrates of different mouse IgG subclasses were examined for their capacities to phagocytose sheep red blood cells (SRBC) coated with monoclonal antibodies (MAb) of various IgG subclasses. IgG2a-and IgG2b-coated substrates abrogated macrophage phagocytosis of particles coated with any of the four mouse IgG subclasses. These results were confirmed by the use of two MAb of each of the IgG2a and IgG2b subclasses, with one of the MAb specific for dinitrophenyl groups and the others for SRBC. IgG3-coated substrates reduced the macrophage uptake of IgG2a-but not IgG2b-coated particles. Rabbit IgG-coated substrates ablated the uptake of SRBC coated with all mouse IgG subclasses. Resident and thioglycollate-elicited macrophages showed similar phagocytosis reduction when plated on these immune complexes. The phagocytosis of complement-coated particles was not affected by these IgG-coated substrates. Macrophages plated on both IgG2a-and IgG2b-coated substrates showed reduced immunofluorescence staining by an anti-IgG2b Fc receptor (FcR) Ab, 2.4G2 and reduced E(IgG2a) and E(IgG2b) binding. The results show that substrates coated with various IgG subclasses can abrogate phagocytosis mediated by FcR that do not have binding specificity for the substrate-immobilized Fc ligand, and suggest that the three classes of mouse FcR co-modulate.     

Herpes simplex virus type 1 glycoprotein E domains involved in virus spread and disease

Herpes simplex virus type 1 (HSV-1) glycoprotein E (gE) functions as an immunoglobulin G (IgG) Fc binding protein and is involved in virus spread. Previously we studied a gE mutant virus that was impaired for IgG Fc binding but intact for spread and another that was normal for both activities. To further evaluate the role of gE in spread, two additional mutant viruses were constructed by introducing linker insertion mutations either outside the IgG Fc binding domain at gE position 210 or within the IgG Fc binding domain at position 380. Both mutant viruses were impaired for spread in epidermal cells in vitro; however, the 380 mutant virus was significantly more impaired and was as defective as gE null virus. gE mutant viruses were inoculated into the murine flank to measure epidermal disease at the inoculation site, travel of virus to dorsal root ganglia, and spread of virus from ganglia back to skin to produce zosteriform lesions. Disease at the inoculation and zosteriform sites was reduced for both mutant viruses, but more so for the 380 mutant virus. Moreover, the 380 mutant virus was highly impaired in its ability to reach the ganglia, as demonstrated by virus culture and real-time quantitative PCR. The results indicate that the domain surrounding amino acid 380 is important for both spread and IgG Fc binding and suggest that this domain is a potential target for antiviral therapy or vaccines.     

Synonymous nucleotide substitutions in the neonatal Fc receptor

The neonatal Fc receptor (FcRn) is a key receptor involved in the transcytosis of IgG across the maternal-fetal barrier. The level of IgG varies considerably among newborn infants. Since other Fc gamma receptors show single nucleotide functional variants, we determined whether common variant alleles exist for the FcRn. Direct sequence analysis was performed on PCR-amplified complementary DNA (cDNA) isolated from ten placental mRNAs (20 alleles examined). Two synonymous nucleotide polymorphisms were detected from the same source. A G251T and C707T substitution, reflecting amino acid positions Pro19 and Arg171 of the mature polypeptide, did not alter the amino acid encoded. No other nucleotide substitutions or sequence variations were observed. Thus, the variation in IgG transport is not due to common variant alleles among the human population. Due to the limited number of samples tested (n=20), low-frequency alleles would go undetected by chance alone when q has a frequency < or = 0.14. It is unlikely that low-frequency variant alleles, if present, are responsible for the major variation seen in the transcytosis of IgG.