The regulated interaction of soluble or endomembrane-bound proteins with plasma membrane proteins is a common phenomenon in outside-in and inside-out signalling in immune cells and contributes to pathophysiological states in inflammation and allergy. By docking to the active forms of Gßy and Ras, phosphoinositide 3-kinase y is controlled by chemokines acting on G-protein-coupled receptors and by antigen recognition by IgE-loaded Fes receptors, triggering directional migration, oxidative burst or degranulation responses. Protein-protein interaction interfaces on the p101 and p87 adapter proteins of phosphoinositide 3-kinase y that are required for this signalling have revealed unanticipated properties and are characterized in more detail and subjected to displacement screening with small molecules. Coincident with PISKy activation, phospholipase C-mediated [Ca2+]i signalling is triggered, whose delayed and longlasting component or ongoing oscillatory activity critically depends on a Ca2+ store refilling mechanism acting in an inside-out manner. The reversible association of STIM1, an endoplasmic reticulum Ca2+ sensor protein, with Orai1, a plasma membrane-located Ca2+-channel provide a molecular machine for Ca2+ releaseactivated Ca2+ influx (ICRAC) to refill Ca2+ stores and to maintain the Ca2+ signalling network in a responsive state. Using stably transfected cell lines and small molecule screening, we are targeting this pathway. In addition, we have identified a group of Orai1-interacting proteins, ORIP1 and ORIP2, whose functions are so far unknown. These complexes may represent additional targets for modulation of immunological responses by pharmacological interference.

DFG Programme Research Units

Subproject of FOR 806:  Interfering with Intracellular Protein-protein Interactions - Probing Protein Functions with Small Molecules