The determination and correlation of molecular and cellular equilibrium Kd and kinetic k(off) values for small molecule allosteric antagonists of LFA-1.

Molecular K(d) and k(off) parameters are often used to define the molecular potency of drugs. These constants, however, are determined on purified target proteins, and their relationship to in vivo binding phenomena is poorly understood. Herein, we report two novel assays to determine the off-rates of allosteric antagonists from lymphocyte function-associated antigen 1 (LFA-1). The SPR assay involves using the non-blocking mAb TS2/4 to immobilize full-length LFA-1 on a hydrophilic chip surface, and the soluble, native ligand sICAM-1 to probe the fraction of free LFA-1. To determine the fraction of free LFA-1 on cell surfaces, a flow cytometry assay was developed utilizing the fluorophore-labeled Fab R3.1. The R3.1 antibody has been previously demonstrated to block the ability of both ICAM-1 and antagonists to bind to purified and cell-surface LFA-1. The molecular and ex vivo cellular parameters were determined for a set of nine structurally-related LFA-1 allosteric antagonists. The relationships between the parameters determined in the ELISA (K(d)), SPR (k(off)), and flow cytometry (k(off)) assays were shown to be linear with slopes approximately equal to 1, and a correlation analysis showed that the three assay datasets were equivalent at the alpha=0.05 level. These results were unexpected, as the ELISA and SPR assays involve high affinity LFA-1, and the flow cytometry assays involve cell surface LFA-1 in whole-blood, in which a distribution of affinity states would be expected. Nevertheless, the results presented herein show that the K(d) and k(off)'s determined in molecular assays can be used as predictors of LFA-1 receptor occupancy in ex vivo assays.

Small molecule LFA-1 antagonists compete with an anti-LFA-1 monoclonal antibody for binding to the CD11a I domain: development of a flow-cytometry-based receptor occupancy assay.

The beta(2) integrin LFA-1 (CD11a/CD18) is a leukocyte-specific adhesion molecule that mediates leukocyte extravasation, antigen presentation, and T-cell-mediated cytolysis through its interaction with its counter-receptors, ICAM-1, ICAM-2, and ICAM-3. We have recently described a small molecule antagonist of LFA-1 (BIRT 377) that inhibits LFA-1/ICAM-1 molecular interactions, LFA-1-dependent adhesion assays, antigen-induced proliferation of T-cells, and superantigen-induced production of IL-2 in vivo in mice. We have also recently described a unique monoclonal antibody, R3.1, which competes with BIRT 377 and its analogs for binding to both purified full-length LFA-1 and the purified recombinant I domain module. In this manuscript, we extend these studies to cell-based systems and utilize this unique reagent for the development of a receptor occupancy assay. Exploiting these observations, we have designed and validated an assay that allows us to measure receptor occupancy in vitro on monkey and human peripheral blood leukocytes and ex vivo in whole blood from monkeys dosed with small molecule LFA-1 antagonists. Further refinement of these reagents has led to the development of a Fab-based assay that allows rapid and reproducible analysis of whole blood samples. These optimized reagents allow for quantification of the number of receptors expressed on the cell surface and a more accurate quantitation of receptor occupancy.