【 摘 要 】

In this research we have evaluated the binding kinetics between an immobilized receptor and several genetically engineered ligands, differing by molecular mass or by the number of binding sites available for the binding to the receptor. Genetically engineered protein (GCSF-Receptor), which contains some antibody parts (Fc domain) and at some extent is similar to antibody because also has two binding sites that selectively bind another protein - glycoprotein granulocyte colony stimulating factor (GCSF), which was immobilized on a thin gold layer in order to design an immunosensor sensitive to GCSF. Three structurally different GCSF-based proteins were genetically-engineered and evaluated as ligands, which selectively bind to immobilized GCSF-Receptor: (i) GCSF monomer (mGCSF), (ii) GCSF-homodimer consisting of two via polypeptide L alpha-based linker 'fused' GCSF molecules ((GCSF)(2)L alpha) and (iii) GCSF-heterodimer (SCF-L alpha-GCSF), which is based on a native GCSF molecule 'fused' via L alpha-based linker with another protein - a soluble part of stem cell factor (SCF). SCF, unlike GCSF, does not contain any site suitable for GCSF-Receptor binding. The ligands differ by: (i) molecular mass - (GCSF)(2)L alpha and SCF-L alpha-GCSF F are two times heavier than mGCS, (ii) number of binding sites - mGCSF and SCF-L alpha-GCSF have one binding site, while (GCSF)(2)L alpha has two. The binding kinetics of mGCSF, (GCSF)(2)L alpha, and SCF-L alpha-GCSF with immobilized GCSF-Receptor was investigated using total internal reflection ellipsometry. The interaction kinetics of the mGCSF and SCF-L alpha-GCSF are both well described using a standard Langmuir kinetics model. However, receptor-ligand association and dissociation rates in the case of SCF-L alpha-GCSF ligand are about 10 times lower than that of mGCSF. The association rate of (GCSF)(2)L alpha is about half of that of the mGCSF, which can be explained by the smaller diffusion coefficient of the larger molecule. Moreover, unlike SCF-L alpha-GCSF, the (GCSF)(2)L alpha adsorption kinetics cannot be adequately described by the standard Langmuir kinetics model and surface regeneration (induced by 'washing') experiments illustrate that (GCSF)(2)L alpha, unlike the mGCSF and SCF-L alpha-GCSF, is irreversibly bound to the surface modified by immobilized GCSF-Receptors. Therefore, to describe binding kinetics in the case of (GCSF)(2)L alpha we have applied advanced kinetic model based on three protein association stages (three-stage kinetics model) in which (GCSF)(2)L alpha forms several different intermediate complexes with GCSF-Receptor. This model precisely describes the time-varying surface concentration of (GCSF)(2)L alpha bound to surface modified by immobilized GCSF-Receptors. In addition to the bioanalytical-aspects possible improvement of GCSF-based drugs is discussed.

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