Bivalent kinetic binding model to surface plasmon resonance studies of antigen-antibody displacement reactions

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• 作者：Dagmar Gelinsky-Wersing^a ; Wolfram Wersing^b ; ¹ ; ^{wolfram.wersing@t-online.de} ; Wolfgang Pompe^a
• 关键词：Small molecule sensor ; SPR detection ; Protein interaction ; Ligand binding ; Kinetic rate constants ; Kinetic simulation
• 刊名：Analytical Biochemistry
• 出版年：2017
• 出版时间：1 February 2017
• 年：2017
• 卷：518
• 期：Complete
• 页码：110-125
• 全文大小：3460 K
• 卷排序：518

文摘

Molecular and functional analysis of small molecule binding to protein can provoke insights into cellular signaling and regulatory systems as well as facilitate pharmaceutical drug discovery. In label free small molecule detection the displacement assay format can be applied. This is beneficial because displacement of high molecular weight receptors is detected instead of low molecular weight ligand as in classical binding analysis. Thus, detection limit is potentially lowered.Using the influenza haemagglutinin (HA) peptide binding to mono or bivalent anti-haemagglutinin peptide antibody displacement assay formats could be established. The exact time resolved analysis of binding and dissolution of ligand HA and anti-Haemagglutinin peptide antibody was achieved with surface plasmon resonance (SPR) spectroscopy.Mathematical models could be developed from kinetic equations of ligand binding to mono or bivalent antibodies. With this, an accurate simulation of the SPR results was reached. The simulation plot had to be exactly adjusted to the SPR results to determine all kinetic rate constants defining ligand and receptor binding kinetics. Large variations in receptor concentration gave almost identical rate constants in binding. It became obvious that rebinding is in any case not necessary to understand the binding kinetics of our model system HA/anti-HA. Maximum decline of SPR response could be used to determine ligand concentrations in analyte.