1,721,044 research outputs found
Neutralization of NGF-TrkA receptor interaction by the novel antagonistic anti-TrkA monoclonal antibody MNAC13: A structural insight
No full textMNAC13, a mouse monoclonal antibody, recognizes with high affinity and specificity the neurotrophin receptor TrkA and displays a neutralizing activity toward the NGF/TrkA interaction. Detailed knowledge of the molecular basis determining the specificity of this antibody is of importance because of its potential use as a modulator of the TrkA-mediated NGF activity. Here, we report a full biochemical and structural characterization of the MNAC13 antibody. Epitope mapping studies, by serial deletion mutants and by phage display, reveal a conformational epitope that is localized on the carboxy-terminal region of the first immunoglobulin-like domain (d4) of TrkA. The X-ray crystal structure of the MNAC13 Fab fragment has been determined and refined to 1.8 A resolution. The antigen-binding site is characterized by a crevice, surrounded by hydrophilic-charged residues on either side, dipping deep toward three mainly hydrophobic subsites. Remarkably an isopropanol molecule has been found to bind in one of the hydrophobic crevices. Overall, the surface topology (shape and electrostatic potential) of the combining site is consistent with the binding data on TrkA ECD serial deletions mutants. The structure of the MNAC13 Fab fragment may assist in the rational structure-based design of high affinity humanized forms of MNAC13, appropriate for therapeutic approaches in neuropathy and inflammatory pain states
Metodo per l'umanizzazione di anticorpi e anticorpi umanizzati con esso ottenuti
No full textMetodo per l'umanizzazione delle regioni variabili VH e VL di un anticorpo animale di sequenza nota, anticorpo animale umanizzato ottenibile secondo il metodo, in particolare anticorpi animali umanizzati anti-NGF e anti-TrkA
Purification, crystallization, X-ray diffraction analysis and phasing of a Fab fragment of monoclonal neuroantibody alphaD11 against nerve growth factor
No full textThe rat monoclonal neuroantibody alphaD11 is a potent antagonist that prevents the binding of nerve growth factor (NGF) to its tyrosine kinase A receptor (TrkA) in a variety of systems, most notably in two in vivo systems linked to crucial pathological states, such as Alzheimer's disease and HIV infection. To provide further insights into the mechanism of action of this potentially therapeutic monoclonal antibody, structural studies of the antigen-binding fragment (Fab) of alphaD11 were performed. alphaD11 IgG2a immunoglobulin was obtained from hybridomas by in vitro tissue culture. The alphaD11 Fab crystallizes in two crystal forms. Form I belongs to space group P1, with unit-cell parameters a = 42.7, b = 50.6, c = 102.7 A, alpha = 82.0, beta = 89.1, gamma = 86.0 degrees. With two molecules in the asymmetric unit, V(M) is 2.3 A(3) Da(-1) and the solvent content is 46%. A complete data set has been collected at 2.7 A resolution on beamline XRD-1 (ELETTRA, Trieste, Italy). Form II belongs to space group C2, with unit-cell parameters a = 114.8, b = 69.4, c = 64.10 A, beta = 117.0 degrees. With one molecule in the asymmetric unit, V(M) is 2.4 A(3) Da(-1) and the solvent content is 48%. A complete data set has been collected at 1.7 A resolution on beamline ID14-1 (ESRF, Grenoble, France). Phasing was successfully performed by Patterson search techniques and refinement of the structures is currently under way. Crystal forms I and II display a close-packing pattern
Efficient folding of the FcεRI α-chain membrane-proximal domain D2 depends on the presence of the N-terminal domain D1
No full textHuman high affinity receptor for IgE is a membrane glycoprotein multi-chain complex presenting two extracellular Ig modules in its α-chain (D1D2). The receptor IgE binding region is located within the membrane-proximal module D2, while the N-terminal module D1 appears to promote an optimal receptor conformation for IgE binding. To understand the structural relationship between the two modules, we dissected FcεRI α-chain into its discrete Ig units and expressed them in mammalian cells. Unexpectedly, D2 was secreted as a disulphide-linked dimer, while D1 was monomeric. Active secretion and full glycosylation of dimeric D2 suggest a native-like conformation of the protein, justifying the escape from the endoplasmic reticulum/Golgi quality control systems. We then propose a domain-swapping model for D2, in which two interdigitated polypeptide chains assume the overall conformation of two Ig modules, as observed for rat CD2 N-terminal domain. Fusion of an unrelated Ig fold moiety at the N terminus of D2 did not interfere with its dimerisation. While D1D2 assumes a correct fold, co-expression of both isolated domains in the same cell did not restore monomeric folding of D2. Thus, D1 appears to assist the appropriate folding of FcεRI α-chain, acting as an uncleavable intramolecular chaperone-like block towards D2. © 2002 Elsevier Science Ltd. All rights reserved
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