Terje E. Michaelsen

Versatile vectors for transient and stable expression of recombinant antibody molecules in mammalian cells.

We have developed new cassette expression vectors for the cloning of any intact V-region gene followed by any C-region gene. Both the heavy-and light chain vectors harbor a strong hCMV promoter, restriction site cassettes for cloning of both V- and C-region genes, transcription termination signals, fl-ori for single stranded DNA (ssDNA) synthesis, selection marker for Neomycin and SV40 ori for transient expression. The vectors accept VH and VL chain genes obtained by RT-PCR. Reamplification of the V genes is then performed with a new set of primers which are designed specifically for each individual V gene. Cloning into the vectors is aided by restriction sites located just outside the V-gene coding region, thus keeping the V-genes intact. The vectors also contain cloning sites for the exchange of genomic C-genes so that the resulting Ig genes may code for complete antibodies, antibody fragments or fusion proteins. A simple subcloning step permits the expression of both heavy and light chain genes from one single vector, thus avoiding co-transfection of the two vectors. The usefulness of the vectors was confirmed by construction of mouse-human chimeric antibodies. The V-genes were derived from a hybridoma cell line, TP-3, and was combined with human C kappa, C gamma 3 and C gamma 1 genes as well as with CH1 gamma 3. High yields of recombinant antibody products in NSO cells were obtained. Transient expression was also demonstrated.

The structural requirements for complement activation by IgG: does it hinge on the hinge?

The flexibility of antibody molecules principally derives from the structure of the hinge region. It has generally been accepted that the flexibility of the IgG hinge is necessary for complement activation to occur; however, recent studies dispute this premise. As described here by Ole Henrik Brekke, Terje Michaelsen and Inger Sandlie, it now appears that the only requirement of the hinge region for complement activation is the presence of inter-heavy-chain disulfide bond(s). Furthermore, the structural basis for the differences between IgG subclasses with respect to effector functions appear to be located within the CH2 domain of the immunoglobulin molecule.

Interaction Between Human Complement and a Pectin Type Polysaccharide Fraction, PMII, from the Leaves of Plantago major L.

The interaction between a pectin type polysaccharide fraction, PMII, isolated from the leaves of Plantago major, and human complement was tested in two different hemolytic complement‐fixation tests and in addition by two elisa methods detecting complement‐activation products. Sera were used as a complement source of 10 arbitrary human volunteers, individually and as a pool. The complement‐fixation tests were designed to measure the concentration of the pectin necessary to inhibit 50% of the hemolysis (ICH50). The elisa tests for complement‐activation products were measured in AU/mg using a fully activated serum as a standard. We observed a more than 200‐fold difference in ICH50 activity of the PMII pectin in one of the hemolytic tests by varying the individual sera used as complement‐source. On the other hand, the elisa complement‐activation tests showed no significant variation in activity of the PMII depending on the complement‐serum used. The level of antibodies against PMII detected in the complement‐sera did not correlate with the ICH50 activity of PMII. The results show that PMII is a potent complement activator with an activity of the same order of magnitude on a weight basis as that of aggregated human immunoglobulin (Ig)G. This activation leads to a complement consumption probably explaining the PMIIs effect in the complement‐fixation tests. PMII seems to be an activator both on the classical and the alternative pathway of activation. The results might be related to the reported wound‐healing effect of the leaves of Plantago major.

Same Idiotypc of B‐Lymphocyte Membrane IgD and IgM. Formal Evidence for Monoclonality of Chronic Lymphocytic Leukemia Cells

Idiotypic antisera were raised in rabbits against serum M‐cnmponents in two patients with chronic lymphocytic leukemia (CLL) In one of the patients the leukemic cells had membrane‐bound IgG. in the other IgM and IgD. The M‐components were IgG and IgM. respectively. By immunofluorescence technique the CLL cells were shown to be positive when stained with idiotypic antiserum prepared against the corresponding M component, whereas normal lymphocytes, as well as cells from other CLL patients, were negative. These findings represent strong evidence for the monoclonality of the malignant B cells in CLL The fact that the CLL cells had membrane‐bound Ig with the same idiotypic determinants as the corresponding serum M‐component indicated that the latter had been synthesized and secreted by the malignant clone of B cells. In further experiments redistribution of membrane‐bound Ig on CLL cells bearing both IgM and IgD was induced with idiotypic antiserum This indicated that IgM and IgD on the same cells share idiotypic specificity and therefore have the same variable region and. presumably, the same antibody specificity

Cross-species Binding Analyses of Mouse and Human Neonatal Fc Receptor Show Dramatic Differences in Immunoglobulin G and Albumin Binding

The neonatal Fc receptor (FcRn) regulates the serum half-life of both IgG and albumin through a pH-dependent mechanism that involves salvage from intracellular degradation. Therapeutics and diagnostics built on IgG, Fc, and albumin fusions are frequently evaluated in rodents regarding biodistribution and pharmacokinetics. Thus, it is important to address cross-species ligand reactivity with FcRn, because in vivo testing of such molecules is done in the presence of competing murine ligands, both in wild type (WT) and human FcRn (hFcRn) transgenic mice. Here, binding studies were performed in vitro using enzyme-linked immunosorbent assay and surface plasmon resonance with recombinant soluble forms of human (shFcRnWT) and mouse (smFcRnWT) receptors. No binding of albumin from either species was observed at physiological pH to either receptor. At acidic pH, a 100-fold difference in binding affinity was observed. Specifically, smFcRnWT bound human serum albumin with a KD of ∼90 μm, whereas shFcRnWT bound mouse serum albumin with a KD of 0.8 μm. shFcRnWT ignored mouse IgG1, and smFcRnWT bound strongly to human IgG1. The latter pair also interacted at physiological pH with calculated affinity in the micromolar range. In all cases, binding of albumin and IgG from either species to both receptors were additive. Cross-species albumin binding differences could partly be explained by non-conserved amino acids found within the α2-domain of the receptor. Such distinct cross-species FcRn binding differences must be taken into consideration when IgG- and albumin-based therapeutics and diagnostics are evaluated in rodents for their pharmacokinetics.

The influence of the hinge region length in binding of human IgG to human Fcgamma receptors.

Interactions between human IgG with human FcgammaRI and FcgammaRIIa (R131) were studied to investigate the role of the hinge region of IgG3 and IgG1 in the binding of the antibodies to FcgammaR. It was found that a hinge deletion mutant of IgG3 (IgG3 m15) was reduced in its ability to bind to FcgammaRI and FcgammaRIIa but was more potent at activating ADCC by activated lymphocytes (FcgammaRIIIa-mediated), compared to the wild-type version of IgG3. The human IgG1 allotype G1m(a,z) was more efficient at binding to FcgammaRI than the two IgG3 antibodies tested. The IgG1 and IgG3 wild type antibodies were better able to bind to FcgammaRII than the hinge deletion mutant version of IgG3. The data suggest a role for the hinge region in influencing FcgammaR mediated effector functions in IgG3.

Isolation and Characterization of Amyloid‐Related Serum Protein SAA as a Low Molecular Weight Protein

With direct immunoprecipitation or gel filtration under dissociating conditions, amyloid‐related serum protein SAA has been isolated as a low molecular weight protein from the serum of two patients with rheumatoid arthritis but without known amyloidosis. The isolated protein SAA showed antigenic identity and an amino acid composition that was similar, but not identical, with isolated fibril protein AA., Molecular weight estimations suggest that protein SAA is approximately 50%, larger than protein AA and has a molecular weight of 14,000–15,000 daltons Preliminary results indicate that protein SAA from a patient with amyloidosis has a similar small molecular weight subunit.

Lysine 322 in the human IgG3 CH2 domain is crucial for antibody dependent complement activation

The classical complement activation cascade of the immune system is initiated by multivalent binding of its first component, C1q, to the Fc region of immunoglobulins in immune complexes. The C1q binding site on mouse IgG2b has been shown to contain the amino acids Glu 318, Lys 320 and Lys 322 in the C(H)2 domain (Duncan, A.R., Winter, G.,1988. The binding site for C1q on IgG. Nature 322 738-740). Identical or closely related motifs are found on all IgGs in all species, and the binding site has therefore been thought to be universal. However, the results from another study indicate that the site is different in human IgG1 molecules (Morgan, A., Jones, N.D., Nesbitt, A.M., et al., 1995. The N-terminal end of the C(H)2 domain of chimeric human IgG1 anti-HLA-DR is necessary for C1q, Fc gamma RI and Fc gamma RIII binding. Immunology 86 319-324). To determine the site(s) responsible for complement activation in anti-NIP-mouse/human IgG3 antibodies, we have mutated amino acids Lys 276, Tyr 278, Asp 280, Glu 318, Lys 320 and Lys 322 in two beta-strands in the C(H)2 domains of human IgG3. In addition, we mutated the Glu 333, which resides in close proximity to the postulated C1q-binding site of mouse IgG2b, as well as Leu 235 in the lower hinge region. All mutants were tested in Antibody Dependent Complement Mediated Lysis (ADCML)(4) assays, where the antigen concentration on target cells was varied and human serum was complement source. Only the mutants that lacked the positively charged side chain of lysine in position 322 showed strong reduction in ADCML, particularly at low antigen density on target cells. Alanine scanning of positions 318 and 320 did not affect ADCML, contrary to what was observed for mouse IgG2b. Neither did a leucine to glutamic acid mutation in position 235 have the effect that has been reported for human IgG1. These results suggest that the complement binding site on human IgG3 molecules is different from that found on mouse IgG2b, and possibly on human IgG1 as well. Thus the contact site may not be conserved.

A prominent lack of IgG1 Fc-fucosylation of platelet-alloantibodies in pregnancy

Immunoglobulin G (IgG) formed during pregnancy against human platelet antigens (HPAs) of the fetus mediates fetal or neonatal alloimmune thrombocytopenia (FNAIT). Because antibody titer or isotype does not strictly correlate with disease severity, we investigated by mass spectrometry variations in the glycosylation at Asn297 in the IgG Fc because the composition of this glycan can be highly variable, affecting binding to phagocyte IgG-Fc receptors (FcγR). We found markedly decreased levels of core fucosylation of anti-HPA-1a-specific IgG1 from FNAIT patients (n = 48), but not in total serum IgG1. Antibodies with a low amount of fucose displayed higher binding affinity to FcγRIIIa and FcγRIIIb, but not to FcγRIIa, compared with antibodies with a high amount of Fc fucose. Consequently, these antibodies with a low amount of Fc fucose showed enhanced phagocytosis of platelets using FcγRIIIb(+) polymorphonuclear cells or FcγRIIIa(+) monocytes as effector cells, but not with FcγRIIIa(-) monocytes. In addition, the degree of anti-HPA-1a fucosylation correlated positively with the neonatal platelet counts in FNAIT, and negatively to the clinical disease severity. In contrast to the FNAIT patients, no changes in core fucosylation were observed for anti-HLA antibodies in refractory thrombocytopenia (post platelet transfusion), indicating that the level of fucosylation may be antigen dependent and/or related to the immune milieu defined by pregnancy.

Evidence of Similar Idiotypic Determinants on Different Rheumatoid Factor Populations

Strong idiotypic antigens were detected both in monoclonal and polyclonal rheumatoid factors (RF) by applying idiotype‐specific antisera. Shared idiotypic antigens were found between some polyclonal and monoclonal RF as well as between certain IgG and IgM RF.