Application of cultured human mast cells (CHMC) for the design and structure-activity relationship of IgE-mediated mast cell activation inhibitors.

Here we report the optimization of small molecule inhibitors of human mast cell degranulation via anti-IgE-mediated tryptase release following cross-linking and activation of IgE-loaded FcεR1 receptors. The compounds are selective upstream inhibitors of FcεR1-dependent human mast cell degranulation and proved to be devoid of activity in downstream ionomycin mediated degranulation. Structure-activity relationship (SAR) leading to compound 26 is outlined.

Identification of the Syk kinase inhibitor R112 by a human mast cell screen.

BACKGROUND: Activation of the IgE receptor, FcvarepsilonRI, in mast cells is the key mechanism initiating and propagating pathophysiological responses in allergic rhinitis. OBJECTIVE: Identify and characterize a small molecule inhibitor of IgE-dependent mast cell activation for the treatment of allergic diseases. METHODS: A cell-based high-throughput screen for small molecules that block IgE signaling was performed in cultured human mast cells. A potent inhibitor, referred to as R112, was selected and characterized by using biochemical and cell-based assays. R112 effects on IgE-dependent degranulation and cytokine production was measured in mast cells and basophils and compared with other mast cell inhibitors. RESULTS: R112 inhibited degranulation induced by anti-IgE cross-linking in mast cells (tryptase release, effective concentration for 50% inhibition [EC(50)] = 353 nmol/L) or basophils (histamine release, EC(50) = 280 nmol/L), and by allergen (dust mite) in basophils (histamine release, EC(50) = 490 nmol/L). R112 also blocked leukotriene C4 production and all proinflammatory cytokines tested. Subsequent molecular characterization indicated that R112 is an ATP-competitive spleen tyrosine kinase (Syk) inhibitor (inhibitory constant [K(i)] = 96 nmol/L). Its onset of action was immediate, and the inhibition was reversible. Incubation of mast cells with R112 showed that cytokine production in mast cells was dependent on sustained activation of the FcvarepsilonRI-Lyn-spleen tyrosine kinase pathway. Unlike other mast cell inhibitors, R112 was able to completely inhibit all three IgE-induced mast cell functions: degranulation, lipid mediator production, and cytokine production. CONCLUSION: R112 potently, completely, and rapidly abrogated all mast cell activation cascades triggered by IgE receptor cross-linking. CLINICAL IMPLICATIONS: R112 and its analogues offer a new modality in the treatment of allergic rhinitis.

SWAP-70-deficient mast cells are impaired in development and IgE-mediated degranulation.

Cross-linking of the high-affinity IgE receptor (FcepsilonRI) on mast cell activates signaling pathways that trigger degranulation and the release of multiple pro-inflammatory mediators. Mature,immature and precursor mast cells are degranulation competent. We show here that the signaling protein SWAP-70 has a function in mast cell biology. While not found in many cell types, we find that apart from B cells, mast cells also express SWAP-70. In activated B cells, SWAP-70 shuttles between cytoplasm and nucleus, but in mast cells it is confined to the cytoplasm. SWAP-70(ko/ko) (double knockout) mice have reduced numbers of mature mast cells, and these are degranulation competent. However, although immature mast cells from SWAP-70(ko/ko) mice respond normally to SCF and IL-3 and have functional granules, their FcepsilonRI-mediated degranulation is inhibited. Thus, in mast cells SWAP-70 plays a role both in establishing the initial competence to degranulate and to develop into mature mast cells.