Allosteric effects of monoclonal antibodies on human growth hormone

Collaborative enhancement of antibody binding to distinct PECAM-1 epitopes modulates endothelial targeting

Antibodies to platelet endothelial cell adhesion molecule-1 (PECAM-1) facilitate targeted drug delivery to endothelial cells by “vascular immunotargeting.” To define the targeting quantitatively, we investigated the endothelial binding of monoclonal antibodies (mAbs) to extracellular epitopes of PECAM-1. Surprisingly, we have found in human and mouse cell culture models that the endothelial binding of PECAM-directed mAbs and scFv therapeutic fusion protein is increased by co-administration of a paired mAb directed to an adjacent, yet distinct PECAM-1 epitope. This results in significant enhancement of functional activity of a PECAM-1-targeted scFv-thrombomodulin fusion protein generating therapeutic activated Protein C. The “collaborative enhancement” of mAb binding is affirmed in vivo, as manifested by enhanced pulmonary accumulation of intravenously administered radiolabeled PECAM-1 mAb when co-injected with an unlabeled paired mAb in mice. This is the first demonstration of a positive modulatory effect of endothelial binding and vascular immunotargeting provided by the simultaneous binding a paired mAb to adjacent distinct epitopes. The “collaborative enhancement” phenomenon provides a novel paradigm for optimizing the endothelial-targeted delivery of therapeutic agents.

Properties of antibodies to a synthetic peptide representing an epitope shared by receptors of the type I cytokine family

Previous works from our laboratory demonstrated that the monoclonal antibody (MAb) called R7B4 is directed to an epitope shared by various receptors corresponding to the type I cytokine receptor family, containing the common motif WSXWS or the homologous F(Y)GEFS. Later a consensus peptide significantly recognized by the MAb was identified and synthesized (sequence HGYWSEWSPE). In the present work, an homologous of the consensus sequence (HHGYWSEWSPE) was conjugated to PADRE adjuvant to produce Ab that could simulate theMAb activity, that is, acting as hormone and/or cytokine antagonists. The covalently conjugated peptide-PADRE was a better immunogen than the consensus peptide alone according to the reactivity of sera from C57BL/6 immunized mice and, besides, no Ab to PADRE were detected. Furthermore, Ab to consensus peptide elicited after peptide-PADRE inoculation into mice behaved as immunomodulatory agents, since they improved the humoral response to a foreign antigen (in this case ovalbumin). In addition, the Ab inhibited the in vitro proliferation of various cell lines, mainly cells derived from human and mouse breast cancer. Thus, immunization with the conjugate peptide-PADRE prepared under the experimental conditions described herein originated immunomodulatory Ab that, in the future, could be tested in some pathological conditions.

Identification, synthesis and properties of a consensus peptide recognized by a monoclonal antibody directed to various type I cytokine receptors

Previous works demonstrated that the monoclonal antibody (MAb) called R7B4 is directed to an epitope shared by receptors for lactogenic and somatogenic hormones as well as interleukins 2 and 6 (IL-2 and IL-6). The MAb inhibited the biological effects of those hormones and cytokines by impairing their binding to receptors. It is known that the receptors for growth hormones (GH), prolactins (PRL), IL-2, and IL-6 pertain to the type I cytokine receptor family, sharing the common motif WSXWS or the homologous F(Y)GEFS. Thus, a set of 34 decapeptides corresponding to diverse receptors containing those sequences were synthesized by the PEPSCAN method and their reactions with MAb R7B4 were measured by ELISA. The MAb significantly recognized 21 peptides, allowing us to establish the consensus sequence HGYWSEWSPE as a portion of the R7B4 epitope. The consensus peptide was synthesized and purified by conventional methods, and its capacity to bind to MAb R7B4 paratope confirmed. Moreover, polyclonal Ab to the peptide elicited in mice were able to inhibit the hGH binding to lactogenic, somatogenic and human specific liver receptors. This fact suggests that the consensus peptide could be used as an immunogen to produce anti-hGH receptor Ab behaving as hormone or cytokine antagonists in certain pathological conditions.

Active dimer of Epratuzumab provides insight into the complex nature of an antibody aggregate

Understanding the intermolecular products of antibodies as a consequence of host-cell expression, aging, and heat-stress can be insightful especially when it involves the development of a stable biopharmaceutical product. The dimerized form of Epratuzumab (an IgG(1) antibody) with a molecular mass of approximately 300 kDa (twice the monomer antibody molecular weight of approximately 150 kDa) was examined to gain a better perspective of its properties pertaining to structure and activity. The nascent dimer was shown to partially dissociate upon incubation at 30 degrees C and 37 degrees C, exhibit no discernable alteration of structure (i.e., secondary or tertiary structure based on CD and 2nd derivative UV spectroscopy), have approximately 70% covalent forms (based upon CE-SDS results) and manifest twofold higher activity relative to the active monomer form (on a weight basis the dimer and monomer have equal activity). Interestingly, these properties were not attributed to a single dimer species, but rather to a more complex dimer assembly. The Epratuzumab dimer was digested with papain to reveal three uniquely dimerized aggregates. The relative molar distribution of Fab:Fab, Fc:Fc, and Fab:Fc was found to be 4:3:8, respectively. The data suggest that all three predominantly covalent dimer adducts are capable of full activity, shedding light on their complex nature and showing that their target specificity was unaltered. ESI-MS data indicated the presence of remnant levels of noncovalent dimers for all three dimerized forms. Material aged at 37 degrees C exhibited a similar papain digest molar distribution of the three dimerized forms, except with enhanced chemical heterogeneity and an increase in covalent forms to approximately 84%.

22- and 20 kDa-human growth hormones bind to different sites within certain cellular receptors

Human growth hormone 20 kDa (20 kDa-hGH) is a natural variant of the main hGH isoform (22 kDa-hGH). Since some 20- and 22 kDa-hGH biological activities are not identical, we decided to map the prolactin (PRLR) and growth hormone receptor (GHR) binding sites for both isoforms. Monoclonal antibody (MAb) R7B4, directed to both receptors, was employed to estimate the relative proximity between 20- and 22 kDa-hGH receptors binding sites. Results indicated that although both hGH isoforms share the same PRLR present in Nb2-cells and rat liver, MAb R7B4 differently affected hormone binding, suggesting that their receptor binding sites would be close in Nb2-cells and separate in rat liver membranes. Since labelled 20 kDa-hGH did not bind significantly to hGHR, we added to the incubating medium an allosteric MAb anti-hGH that improved 20 kDa-hGH affinity for receptors. Under these experimental conditions MAb R7B4 inhibited 20 kDa-hGH binding to human liver but not to placenta, whereas the Ab impaired 22 kDa-hGH binding to both receptors. Data thus suggested that both hGH isoforms share the same hGHR binding site in liver tissue but bind to different overlapped regions in placenta. Consequently, results presented in this paper indicate that PRLR and GHR binding sites for 22- and 20 kDa-hGH should not be always identical, a fact that could explain some of the isoforms different activities.

Monoclonal Antibodies Inducing Conformational Changes on the Antigen Molecule

Monoclonal antibodies (MoAbs) are extensively used as biological tools because of their invariable specificity. However, the interpretation of results can be misled by the behaviour of MoAb displaying allosteric effects, i.e. long-range conformational changes on the antigen (Ag). It has been shown that some MoAbs are able to modify the spatial structure of the corresponding protein Ag, affecting in this way its biological activity as well as its binding to a second MoAb. Thus, a researcher using a MoAb as a tool to investigate some features of an antigenic molecule must be aware of the possible positive or negative allosteric properties of the antibody.

Allosteric binding properties of a monoclonal antibody and its Fab fragment

Detailed equilibrium binding studies were conducted on a monoclonal antibody directed against Pb(II) complexed with a protein conjugate of diethylenetriaminepentaacetic acid (DTPA). Binding curves obtained with DTPA and a cyclohexyl derivative of DTPA in the presence and absence of metal ions were consistent with the anticipated one-site homogeneous binding model. Binding curves obtained with aminobenzyl-DTPA or its complexes with Ca(II), Sr(II), and Ba(II) were highly sigmoidal, characterized by Hill coefficients of 2.3-6.5. Binding curves obtained with the Pb(II) and In(III) complexes of aminobenzyl-DTPA were hyperbolic, but in each case the apparent affinity of the antibody for the chelator-metal complex was higher in the presence of excess chelator than it was in the presence of excess metal ion. In the presence of excess chelator, the equilibrium dissociation constant for the binding of aminobenzyl-DTPA-Pb(II) to the antibody was 9.5 x 10(-)(10) M. Binding curves obtained with the Hg(II) and Cd(II) complexes of aminobenzyl-DTPA were biphasic, indicative of negative cooperativity. Further binding studies demonstrated that aminobenzyl-DTPA-Hg(II) opposed the binding of additional chelator-metal complexes to the antibody more strongly than did aminobenzyl-DTPA-Cd(II). The Fab fragment differed from the intact antibody only in that the apparent affinity of the Fab was generally lower for a given chelator-metal complex. These data are interpreted in terms of a model in which (i) aminobenzyl-DTPA and its complexes bind both to the antigen binding site and to multiple charged sites on the surface of the compact immunoglobulin; and (ii) the bound, highly charged ligands interact in a complicated fashion through the apolar core of the folded antibody.

Conformational and sequential epitopes on the human granulocyte-colony stimulating factor molecule (hG-CSF) and their role in binding to human placenta receptors

Monoclonal antibodies (mAbs) named 8C2 and 6E3, directed against the recombinant human granulocyte colony-stimulating factor (hG-CSF), were used as probes to study the cytokine orientation on its binding to receptors from human placenta. Competition enzyme linked immunoabsorbent assays (ELISA) revealed that mAb 8C2 would be directed to a linear epitope, whereas mAb 6E3 would delimit a more assembled epitope. Gel-filtration high performance liquid chromatography (HPLC) of the immune complexes formed by incubating [(125)I]hG-CSF with each mAb showed that epitope 8C2, but not 6E3, was altered after cytokine iodination. In addition, mAb 6E3 completely inhibited [(125)I]hG-CSF binding to human placental microsomes. Although [(125)I]mAb 6E3 was unable to bind to preformed hG-CSF-receptor complexes, [(125)I]mAb 8C2 did recognize hG-CSF previously bound to receptors, suggesting that epitope 8C2 would remain accessible in the hG-CSF-receptor complex. To identify the cytokine region defined by mAbs, hG-CSF was digested with different proteolytic enzymes: Arg-C, Glu-C, trypsin and alpha chymotrypsin. Immunoreactivity of the resulting peptides was examined by Western blot and their sequences were established by Edman degradation. Results showed that mAb 6E3 would be directed to a conformation-dependent epitope located close to the hG-CSF binding domain and included into the sequence 1-122/123, whereas mAb 8C2 recognized the region 41-58, which represents a linear epitope left exposed after cytokine binding to receptors from human placenta.

Relative localization of the prolactin receptor binding sites for lactogenic hormones

A monoclonal antibody termed MAb R7B4, directed to an epitope present in prolactin receptors (PRLRs), was used as a tool to map the receptor binding sites for human growth hormone (hGH), ovine prolactin (oPRL) and human placental lactogen (hPL). Although the three hormones completely inhibited the binding of each other to Nb2 cells or rat liver receptors, MAb R7B4 behaviour was different depending on the hormone tested and the receptor source. According to the MAb effects, PRLR from Nb2 cells would locate both hGH and oPRL close to R7B4 epitope, whereas hPL would bind far from the MAb binding site. On the other hand, PRLR from rat liver should bind hGH close to the R7B4 epitope but oPRL and hPL would be recognized by a separate region of the same receptor. Thus, results presented in this paper suggest that PRLR binding sites for hGH, oPRL and hPL do not exactly overlap in spite of full competition between ligands.

Positive cooperative effects between receptors induced by an anti-human growth hormone allosteric monoclonal antibody

Monoclonal antibodies (MAb) anti-human growth hormone (hGH) termed MAb AE5, AC8 and F11 recognize a cluster of epitopes left exposed after hormone binding to receptors. Since these MAb were able to produce either positive (MAb AE5) or negative (MAb AC8 and F11) allosteric effects on hGH binding, the purpose of this work was to further characterize MAb behavior. Results indicated a straight correlation between MAb allosteric effects and affinity constant values for binding of different hGH:MAb complexes to lactogenic receptors from rat liver. Affinity of hGH:MAb AE5 as well as hGH:Fab AE5 complexes enhanced proportionally to the fraction of occupied receptors and Hill coefficients higher than 1 were obtained, suggesting the induction of positive cooperative effects between membrane-bound receptors. On the other hand, hGH:MAb AC8 and hGH:MAb F11 complexes binding affinity to lactogenic sites could not be related to receptor occupancy degree. It is proposed that binding of hGH:MAb AE5 complexes to receptors would elicit a conformational change on adjacent receptor molecules leading to an increase of their affinity to bind subsequent hGH:MAb AE5 complexes.

Identification of a linear epitope of interferon-alpha2b recognized by neutralizing monoclonal antibodies

Four monoclonal antibodies (mAbs) directed against the recombinant human interferon-alpha2b (IFN-alpha2b) were used as probes to study the interaction of the IFN molecule to its receptors. The [125I]IFN-alpha2b binding to immobilized mAbs was completely inhibited by IFN-alpha2b and IFN-alpha2a but neither IFNbeta nor IFNgamma showed any effect. Gel-filtration HPLC of the immune complexes formed by incubating [125I]IFN-alpha2b with paired mAbs revealed the lack of simultaneous binding of two different antibodies to the tracer, suggesting that all mAbs recognize the same IFN antigenic domain. Furthermore, the mAbs were also able to neutralize the IFN-alpha2b anti-viral and anti-proliferative activities as well as [125I]IFN-alpha2b binding to WISH cell-membranes. As [125I]mAbs did not recognize IFN exposed epitopes in the IFN:receptor complexes, mAb induction of a conformational change in the IFN binding domain impairing its binding to receptors was considered unlikely. In order to identify the IFN region recognized by mAbs, IFN-alpha2b was digested with different proteolytic enzymes. Immunoreactivity of the resulting peptides was examined by Western blot and their sequences were established by Edman degradation after blotting to poly(vinylidene difluoride) membranes. Data obtained indicated that the smallest immunoreactive region recognized by mAbs consisted of residues 107-132 or 107-146. As this zone includes the sequence 123-140, which has been involved in the binding to receptors, and our mAbs did not show an allosteric behaviour, it is concluded that they are directed to overlapping epitopes located close to or even included in the IFN binding domain.

Ovine placental lactogen and human growth hormone bind to different regions of the same receptors

Anti-human growth hormone (hGH) polyclonal and monoclonal antibodies (MAb) failed to recognize ovine placental lactogen (oPL), indicating that the antigenic topographies of both hormones are different. Binding assays showed that oPL completely inhibited hGH binding to lactogenic receptors from Nb2-cells and to somatogenic receptors from rabbit or sheep liver; in contrast, oPL only bound to a subpopulation of rat liver receptors. Zinc ion increased hGH and oPL binding to Nb2-cell receptors and slightly inhibited both hormones' recognition by somatogenic receptors. However, ZnCl(2) increased hGH binding to rat liver microsomes but prevented that of oPL. Furthermore, MAb R7B4, recognizing lactogenic as well as somatogenic receptors, entirely blocked hGH binding to the various receptor systems but not affected oPL binding. Therefore, results presented in this paper suggest that oPL and hGH bind to different regions of the same receptors.

A monoclonal antibody recognizing an epitope shared by receptors for growth hormone, prolactin, interleukin 2 and interleukin 6

Monoclonal antibody (MAb) termed R7B4 was generated throughout the idiotypic-anti-idiotypic network from mice immunized with human and bovine growth hormones (GH). The Ab was selected on the basis that it did not recognize human GH (hGH) neither insolubilized nor in solution but inhibited 125I-hGH binding to receptors from rat and rabbit liver and from Nb2-cell membranes. Since it inhibited Nb2-cell mitogenesis stimulated by hGH, prolactins or placental lactogens, MAb R7B4 behaved as an antagonist of lactogenic hormones. Furthermore, the Ab impaired proliferative activity of interleukin 2 (IL-2) on Nb2 cells as well as growth of 7TD1 cells, an interleukin 6 (IL-6) dependent hybridoma not expressing GH receptors. Biotin-labeled MAb R7B4 specifically bound to rat liver microsomes, and the Ab was able to recognize Nb2 and 7TD1-cell membranes as shown by flow cytometry experiments. However, MAb binding was not hampered by hGH, indicating that the Ab did not mimic GH binding site to receptors. Immunoblot assays indicated that rat and rabbit liver as well as Nb2-cells membrane antigens recognized by MAb R7B4 were similar to those revealed by a MAb directed to prolactin receptors. In addition, MAb R7B4 was able to detect two bands probably corresponding to the somatogenic receptor in rabbit liver microsomes as well as three different proteins in 7TD1-cells showing molecular weights similar to those of the IL-6 receptor complex. Results suggest that MAb R7B4 is directed to an epitope shared by receptors for lactogenic and somatogenic hormones, IL-2 and IL-6. To our knowledge, these data are the first experimental evidence of the existence of structural similarity between some of the receptors grouped in the cytokine receptor superfamily.

Detection of negative allosteric effects between monoclonal antibodies by using an antigenic model-builder computer program

The ability of monoclonal antibodies (MAb) to bind or not simultaneously to the antigen (Ag) is used to establish antigenic maps considering that two different MAb do not bind to the Ag when the corresponding epitopes are overlapped (steric effect). Nevertheless, MAb inducing negative allosteric effect on the Ag could prevent the binding of the second MAb even if it is directed to a separate epitope. We report here that a knowledge-based expert module included in our previously described antigenic model-builder program (MAPAG) was able to differentiate between steric and negative allosteric effects between some MAb.

Accurate topological comparison of two recombinant human growth hormones by optical surface plasmon resonance

A strategy for the comparison of two recombinant derived human growth hormones (r-hGH) has been developed using surface plasmon resonance (SPR). Statistical analysis was systematically used on the results obtained with several batches derived from two different Escherichia coli strains. Monoclonal antibodies (MAb) directed against four different domains in the tertiary structure of natural human growth hormone were used to compare the epitopic maps of the three (two recombinant and one natural) hGH by SPR analysis. Topological studies show the homogeneity of the epitopic maps of the three hGH. The kinetic parameters, association rate, and dissociation rate constants were also analyzed for the binding of each hGH batch to all MAbs. They were found to be homogeneous between the three hormones. Furthermore, the two r-hGH were compared by more classical approaches examining recognition of lactogenic or somatogenic receptors using, respectively, a bioassay of Nb2 cell proliferation and binding to rat liver microsomes. Specific bioactivities and IC50 values calculated in radioreceptor assays did not significantly differ between different r-hGH. The method was sensitive enough to show slight differences on koff value for one MAb (3C11) between (natural) hormone and two r-hGH. These differences are discussed in relation to previous observation made in the literature and the presence of isoforms in the natural product. The strategy developed here was very useful as a new tool to establish the equivalence of the two r-hGH.