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.     

Radioiodinated iodobenzoyl conjugates of a monoclonal antibody Fab fragment. In vivo comparisons with chloramine-T-labeled Fab

A comparative investigation of the biodistributions of radioiodinated p- and m-iodobenzoyl conjugates of a monoclonal antibody Fab fragment, NR-LU-10 Fab, and the same antibody Fab fragment radioiodinated by the chloramine-T (ChT) method has been carried out in mice. Coinjected, dual-isotope studies in athymic mice with tumor xenografts have demonstrated that there are only minor differences in the in vivo distributions of the iodobenzoyl-labeled Fabs, except in the excretory organs, kidneys, and intestines, where major differences were observed. Similarly, coinjection of either the p-iodobenzoyl or m-iodobenzoyl conjugate of NR-LU-10 Fab with the Fab radioiodinated with ChT/radioiodide into BALB/c mice provided additional data that indicated that the two iodobenzoyl conjugates distributed similar in a number of selected tissues. The tissue-distribution differences of the regioisomeric iodobenzoyl conjugates in relation to the ChT-radioiodinated Fab were large for the stomach and neck, consistent with previous studies. The most notable difference between the two iodobenzoyl conjugates was the kidney activity, where the m-iodobenzoyl conjugate was similar to the directly labeled Fab, but the p-iodobenzoyl-conjugated Fab was higher by nearly a factor of 2.     

Characterization of crystals of an Fab fragment of a murine monoclonal antibody.

The Fab fragment of an antibody, made against an E2-specific feline infectious peritonitis virus neutralizing antibody, has been crystallized in a form suitable for X-ray diffraction analysis from PEG 4000 using vapor diffusion methods. The Fab fragment crystals diffract to about 2.9 A resolution and are of triclinic space group P1. Unit cell dimensions, by which the reciprocal lattice can be indexed, are a = 57.16 A, b = 70.85 A, c = 75.81 A, alpha = 85.11 degrees, beta = 121.28 degrees and gamma = 116.33 degrees. There are two Fab fragments comprising the asymmetric unit of the crystals. The presence of a pseudo-mirror plane in the diffraction pattern suggests the presence of at least an approximate dyad axis relating the two Fab fragments within the asymmetric unit.     

Isotope-edited nuclear magnetic resonance study of Fv fragment of anti-dansyl mouse monoclonal antibody: recognition of the dansyl hapten.

An isotope-edited proton nuclear magnetic resonance study is reported of Fv, which is the smallest antigen recognition unit composed of VH and VL domains. Fv has been obtained by clostripain digestion of a short-chain anti-dansyl mouse IgG2a monoclonal antibody [Igarashi, T., Sato, M., Katsube, Y., Takio, K., Tanaka, T., Nakanishi, M., & Arata, Y. (1990) Biochemistry 29, 5727-5733]. A variety of stable-isotope-labeled anti-dansyl Fv analogues have been prepared. The aromatic proton resonances for all Tyr residues of the Fv fragment have been assigned in the absence and presence of epsilon-dansyl-L-lysine by means of isotope-edited homonuclear and heteronuclear two-dimensional NMR experiments. On the basis of the established assignments, it has been concluded that the dansyl ring is bound through Tyr-96H and Tyr-104H to both ends of H3, the third hypervariable region of the heavy chain. We also suggest that the antigen binding results in the formation of a hydrophobic core comprising the dansyl ring and the aromatic rings of Tyr-96H and Tyr-104H.     

Preliminary crystallographic study of a complex between the Fab fragment of a monoclonal anti-lysozyme antibody (D1.3) and the Fab fragment from an anti-idiotopic antibody against D1.3

An anti-lysozyme antibody, D1.3, was used as immunogen to obtain syngeneic (Balb/c) monoclonal anti-idiotopic antibodies. The complex between Fab D1.3 and the Fab fragment from the anti-idiotopic antibody E225 has been crystallized. The crystals are monoclinic, space group P2(1), with a = 75.7 A, b = 77.4 A, c = 97.2 A, beta = 111.90 degrees and one molecule of the complex in the asymmetric unit. X-ray photographs show reflections extending to a resolution of about 3 A. Although twinning occurs frequently in the large crystals obtained, this material is suitable for high-resolution X-ray analysis.     

Preliminary crystallographic studies of the Fab fragment of an anti-azophenylarsonate antibody

Single crystals of the Fab fragment of a murine A/J anti-azophenylarsonate monoclonal antibody have been prepared by the vapor diffusion method. Antibody 3A7 uses the same combination of variable region gene segments (VK, JK, VH, JH) as do anti-azophenylarsonate antibodies bearing a predominant cross-reactive idiotype, but utilizes a different D gene segment. The crystals grow in the presence of beta-octylglucoside as tetragonal bipyramids in the space group of either P4(1)2(1)2 or P4(3)3(1)2 and with unit cell dimensions of a = b = 77.9 A, and c = 146.7 A. They diffract X-rays to better than 2.7 A resolution. Data up to 2.7 A resolution have been collected.     

Preliminary crystallographic study of the Fab fragment of a monoclonal antibody directed against a cobra cardiotoxin

We report on the preparation, crystallization and preliminary X-ray crystallographic study of the Fab fragments from a murine monoclonal anti-cardiotoxin antibody M gamma 2-3 directed against a cobra cardiotoxin. The Fab fragment has been crystallized from polyethylene glycol 8000 solutions in a form suitable for high-resolution, X-ray crystallographic studies. The crystals are monoclinic, space group C2, with a = 161.2 A, b = 40.4 A, c = 96.5 A, beta = 118.3 degrees.     

Crystallization and preliminary x-ray diffraction studies of the Fab fragment of a neutralizing monoclonal antibody directed against human rhinovirus serotype 2

We report on the preparation, crystallization, and preliminary x-ray diffraction analysis of the Fab fragment of the monoclonal antibody 8F5 that neutralizes infectivity of human rhinovirus serotype 2 (HRV2). Fab fragments prepared from this antibody by papain digestion were purified to isoelectric homogeneity by ion exchange chromatography and chromatofocusing. Crystals were obtained by the hanging drop vapor diffusion method using ammonium sulfate as precipitant. The crystals belong to the orthorhombic space group P2(1)2(1)2(1) with unit cell dimensions a = 59.9 A, b = 86.3 A, c = 128.2 A and diffract to at least 2.8-A resolution. The cell volume suggests the presence of one molecule per asymmetric unit, and the solvent content is estimated to be 61%.     

Expression and characterization of a recombinant Fab fragment derived from an anti-human alpha-fetoprotein monoclonal antibody

Alpha-fetoprotein (AFP) is a well-known molecular marker indicating the development of cancer as well as fetal abnormalities such as open neural tube defects. Accordingly the measurement of serum AFP is important for the diagnosis of hepatocellular carcinoma (HCC) and other abnormalities. Monoclonal antibodies (McAb) to AFP were produced to develop an immunoassay kit, and to study the possibility of an antibody (Ab) therapy. The immunoglobulin genes were cloned from hybridoma cells, and expressed in E. coli as an Fab soluble into a culture medium. The Fab of anti-AFP McAb exhibited binding to AFP and similar affinity compared to the original IgG. This recombinant antibody can be studied further for in vivo imaging and immunotherapeutics.     

DNA binding mode of the Fab fragment of a monoclonal antibody specific for cyclobutane pyrimidine dimer

Monoclonal antibodies specific for the cyclobutane pyrimidine dimer (CPD) are widely used for detection and quantification of DNA photolesions. However, the mechanisms of antigen binding by anti-CPD antibodies are little understood. Here we report NMR analyses of antigen recognition by TDM-2, which is a mouse monoclonal antibody specific for the cis-syn-cyclobutane thymine dimer (T[c,s]T). ³¹P NMR and surface plasmon resonance data indicated that the epitope recognized by TDM-2 comprises hexadeoxynucleotides centered on the CPD. Chemical shift perturbations observed for TDM-2 Fab upon binding to d(T[c,s]T) and d(TAT[c,s]TAT) were examined in order to identify the binding sites for these antigen analogs. It was revealed that d(T[c,s]T) binds to the central part of the antibody-combining site, while the CPD-flanking nucleotides bind to the positively charged area of the V_H domain via electrostatic interactions. By applying a novel NMR method utilizing a pair of spin-labeled DNA analogs, the orientation of DNA with respect to the antigen-binding site was determined: CPD-containing oligonucleotides bind to TDM-2 in a crooked form, draping the 3′-side of the nucleotides onto the H1 and H3 segments, with the 5′-side on the H2 and L3 segments. These data provide valuable information for antibody engineering of TDM-2.     

Crystallization and preliminary crystallographic data of the Fab fragment of an anti-phenylalanine hydroxylase monoclonal antibody

Two crystal habits, one rod shaped and the other square prismatic, of the Fab fragment of a monoclonal anti-phenylalanine hydroxylase antibody have been grown using the method of vapour phase diffusion against polyethylene glycol 6000. The square prisms diffract to better than 2.8 A, belong to the space group P1 and have unit cell parameters a = 41.8 A, b = 50.3 A, c = 114.7 A, alpha = 97.6 degrees, beta = 91.7 degrees, gamma = 91.0 degrees, while the rod-shaped crystals belong to the space group P212121, have unit cell parameters a = 105.6 A, b = 119.8 A, c = 82.2 A and diffract to 3.5 A resolution.     

Preliminary crystallographic study of the complex between the Fab fragment of a monoclonal anti-lysozyme antibody and its antigen

Preliminary crystallographic data are given for the complex between the Fab fragment of a monoclonal anti-lysozyme antibody and its antigen. This crystalline complex was found by screening a number of Fab-lysozyme complexes prepared from monoclonal anti-lysozyme antibodies produced by hybrids of BALB/c immune spleen cells with a non-secreting mouse hybrid myeloma line. The complex crystallizes in the monoclinic space group P21 with a = 55.5 (+/- 0.1) A, b = 143.5 (+/- 0.3) A, c = 49.1 (+/- 0.1) A, beta = 120 degrees 20' (+/- 10'). X-ray photographs show reflections extending to a resolution of 2.7 A. The crystals are suitable for high-resolution X-ray diffraction studies.     

Crystallization of the complexes between M315 idiotope and its monoclonal anti-idiotopic antibody Fab fragment

The Fab fragment of a monoclonal anti-idiotopic antibody against M315 has been isolated and its complexes with Fv and Fab' fragment of M315 have been crystallized by using poly(ethylene glycol) 6000 or ammonium sulfate. X-ray diffraction photographs showed that the crystal of the complex with Fv diffracts better than that with Fab'. The Fv-complexed crystal was shown to be tetragonal I4, with cell dimensions a = 152 A and c = 69 A, and to contain one complex molecule of about 75,000 molecular weight in the crystallographic asymmetric unit.     

600 MHz H nuclear magnetic resonance studies of the kringle 4 fragment of human plasminogen

Kringle 4, a approximately 10,000-Da domain in the heavy chain of human plasminogen, has been isolated intact and studied by H NMR spectroscopy at 600 MHz. The spectroscopic data indicates that kringle 4 possesses a globular and flexible structure which exhibits relatively fast amide-hydrogen exchange. About 17 NH groups show retarded exchange, with half-lives of approximately 7 h in 2H2O at pH* 6.45, 25 degrees C, which indicates that regions of the kringle are buried and shielded from direct interaction with the solvent. Analysis of the methyl region spectrum accounts for all singlets and doublets in terms of the amino acid composition; resonances from the C- and N-termini residues could be identified from the magnitude of their J couplings and their response to pH titration. It is shown that elastase digestion of plasminogen generates two species of kringle 4, one that terminates with Ala85 and another that extends to Val87. The heterogeneity can be resolved by chromatography on CM-Sephadex. The interaction of kringle 4 with BASA (p-benzylaminesulfonic acid), an antifibrinolytic drug presumed to bind to the plasminogen lysine-binding sites, has been investigated through the effects of added ligand on the kringle spectrum. The kringle lysine-binding site would appear to be integrated by a cluster of interacting His and aromatic residues since many of these resonances follow a definite saturation curve pattern upon BASA titration. In contrast, only minor changes are detected in the aliphatic methyl spectra. The association constant for the BASA-kringle 4 interaction is estimated to be Ka approximately 74 mM-1, which should be compared with Ka approximately 145 mM-1 previously measured for kringle 1 under identical conditions. It is proposed that residues in the proximity of the Cys80-Cys1 disulfide bridge are proximal to, or form part of, the lysine-binding site.     

Structure-binding relationships for the interaction between a vancomycin monoclonal antibody Fab fragment and a library of vancomycin analogues and tracers

A series of vancomycin analogues and tracers were synthesized, and their binding interactions with an anti-vancomycin Fab fragment were evaluated under mass transport limiting conditions using surface plasmon resonance detection. Differences observed in binding interactions were utilized to define the vancomycin structural elements critical for antibody recognition. Major structural regions of vancomycin shown to play an important role in anti-vancomycin Fab fragment recognition include two sugar moieties and one chlorinated phenyl ring. The N-methylleucyl residue, the carboxy terminal residue, and residues in the peptide-binding region of vancomycin have minimal impact on the anti-vancomycin Fab fragment/vancomycin binding interaction. The selection of an antibody with such binding properties plays a critical role in the development of a vancomycin immunoassay that employs stable calibrators and controls.     

2.9 A resolution structure of an anti-dinitrophenyl-spin-label monoclonal antibody Fab fragment with bound hapten

The crystal structure of the Fab fragment of the murine monoclonal anti-dinitrophenyl-spin-label antibody AN02 complexed with its hapten has been solved at 2.9 A resolution using a novel molecular replacement method. Prior to translation searches, a large number of the most likely rotation function solutions were subjected to a rigid body refinement against the linear correlation coefficient between intensities of observed and calculated structure factors. First, the overall orientation of the search model and then the orientations and positions of the four Fab domains (VH, VL, CH1 and CL) were refined. This procedure clearly identified the correct orientation of the search model. The refined search model was then subjected to translation searches which unambiguously determined the enantiomer and position in the unit cell of the crystal. The successful search model was refined 2.5 A crystal structure of the Fab fragment of HyHel-5 from which non-matching residues in the variable domains had been removed. HyHel-5 is a murine monoclonal antibody whose heavy and light chains are of the same subclass (gamma 1, kappa, respectively) as AN02. After molecular replacement the structure of the AN02 Fab has been refined using simulated annealing in combination with model building and conjugate gradient refinement to a current crystallographic R-factor of 19.5% for 12,129 unique reflections between 8.0 and 2.9 A. The root-mean-square (r.m.s.) deviation from ideal bond lengths is 0.014 A, and the r.m.s. deviation from ideal bond angles is 3.1 degrees. The electron density reveals the hapten sitting in a pocket formed by the loops of the complementarity determining region. The dinitrophenyl ring of the hapten is sandwiched between the indole rings of Trp96 of the heavy-chain and Trp91 of the light-chain. The positioning of the hapten and general features of the combining site are in good agreement with the results of earlier nuclear magnetic resonance experiments.     

Structural studies of MS2 bacteriophage virus particle disassembly by nuclear magnetic resonance relaxation measurements

In this article we studied, by nuclear magnetic resonance relaxation measurements, the disassembly of a virus particle-the MS2 bacteriophage. MS2 is one of the single-stranded RNA bacteriophages that infect Escherichia coli. At pH 4.5, the phage turns to a metastable state, as is indicated by an increase in the observed nuclear magnetic resonance signal intensity upon decreasing the pH from 7.0 to 4.5. Steady-state fluorescence and circular dichroism spectra at pH 4.5 show that the difference in conformation and secondary structure is not pronounced if compared with the phage at pH 7.0. At pH 4.5, two-dimensional (15)N-(1)H heteronuclear multiple quantum coherence (HMQC) spectrum shows approximately 40 crosspeaks, corresponding to the most mobile residues of MS2 coat protein at pH 4.5. The (15)N linewidth is approximately 30 Hz, which is consistent with an intermediate with a rotational relaxation time of 100 ns. The average spin lattice relaxation time (T(1)) of the mobile residues was measured at different temperatures, clearly distinguishing between the dimer and the equilibrium intermediate. The results show, for the first time, the presence of intermediates in the process of dissociation of the MS2 bacteriophage.     

Minute virus of mice, a parvovirus, in complex with the Fab fragment of a neutralizing monoclonal antibody

The structure of virus-like particles of the lymphotropic, immunosuppressive strain of minute virus of mice (MVMi) in complex with the neutralizing Fab fragment of the mouse monoclonal antibody (MAb) B7 was determined by cryo-electron microscopy to 7-A resolution. The Fab molecule recognizes a conformational epitope at the vertex of a three-fold protrusion on the viral surface, thereby simultaneously engaging three symmetry-related viral proteins in binding. The location of the epitope close to the three-fold axis is consistent with the previous analysis of MVMi mutants able to escape from the B7 antibody. The binding site close to the symmetry axes sterically forbids the binding of more than one Fab molecule per spike. MAb as well as the Fab molecules inhibits the binding of the minute virus of mice (MVM) to permissive cells but can also neutralize MVM postattachment. This finding suggests that the interaction of B7 with three symmetry-related viral subunits at each spike hinders structural transitions in the viral capsid essential during viral entry.