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Affinity and Kinetic Analysis of the Molecular Interaction of ICAM-1 and Leukocyte Function-Associated Antigen-1

Yuichi Tominaga^*, Yasuo Kita, Atsushi Satoh, Satoshi Asai^§, Kimitoshi Kato^¶, Koichi Ishikawa^§, Tadashi Horiuchi and Tohru Takashi^1,

^* New Product Research Laboratories III, New Product Research Laboratories IV, and Basic Technology Research Laboratories, Daiichi Pharmaceutical Co., Tokyo, Japan; and ^§ Department of Pharmacology and ^¶ 3rd Department of Internal Medicine, School of Medicine, Nihon University, Tokyo, Japan

LFA-1 is a member of the ß₂ integrin family, and interacts with ICAM-1, a member of the Ig superfamily containing five Ig-like domains. Interaction of LFA-1 with ICAM-1 is important in a number of cellular events, including Ag-specific T cell activation and leukocyte transendothelial migration, which are known to be typically transient and highly regulated. In this study, we have used surface plasmon resonance technology to study the ICAM-1/LFA-1 interaction at the molecular level. A soluble form of LFA-1 (sLFA-1), normally expressed as two noncovalently associated membrane-bound subunits, has been produced, and its interaction with ICAM-1 has been examined. The kinetic analysis of a monomeric sLFA-1 binding to the first two domains of ICAM-1 expressed as a chimeric IgG fusion protein (D1D2-IgG) revealed that sLFA-1 was bound to the D1D2-IgG chimera with a K_d of 500 nM and dissociated with a k_diss of 0.1 s^-1. Monomeric membrane-bound LFA-1 purified from plasma membranes showed a similar kinetic to sLFA-1. These results suggest that the monovalent interaction between ICAM-1 and LFA-1 has a primarily high affinity and a slow dissociation rate constant as compared with other adhesion molecules, suggesting a potential mechanism for firm adhesion.

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