Protein Interaction Studies with Low Molecular Weight Ligands Applications for Drug Discovery, Basic Research and Diagnostic Tool Design

University dissertation from Uppsala : Acta Universitatis Upsaliensis

Abstract: In this thesis, the interactions between different proteins and small ligands were characterized by surface plasmon resonance spectroscopy (SPR) and fluorescence resonance energy transfer (FRET) based assays.   For the C-reactive protein (CRP), a new type of artificial binder was identified which allows designing diagnostic assays superior to commonly used standard assays. Furthermore, an interaction study with the endogenous ligand phosphocholine revealed the importance of the avidity of pentameric CRP for the distinction of different types of lipid membranes. The interaction study with calcium showed how SPR based assays can be used to study ion-protein interactions despite the low atomic weight of ions.   The transmembrane protease BACE1, an important drug target for Alzheimer’s disease, was immobilized to an SPR biosensor surface and embedded into a lipid membrane. An interaction study with a set of known BACE1 inhibitors showed that the transmembrane region has only minor effects on the interactions. Furthermore the pH-dependencies of the interactions were investigated and revealed new important conclusions for inhibitor design. Computer aided modelling showed that the protonation state of the aspartic dyad is dependent on the interacting inhibitor which offers new perspectives for in silico screenings.The SPR assay developed for BACE1 was adapted to a more complex membrane protein, the pentameric ?3 GABAA receptor. The assay allowed the pharmacological characterisation for histaminergic and GABAergic ligands and gave further evidence for cross-talk between the two signal transduction pathways. This study shows that the immobilisation method used for BACE1 and the ß3 GABAA receptor has the potential to become a standard method for handling membrane proteins.  The identification of new drug leads from natural sources is a common strategy for drug discovery. A combination of SPR and FRET based activity assays were explored to increase the efficiency of this process. For HIV-1 protease, secreted aspartic protease (SAP) 1, 2 and 3 extracts from a marine vertebrate were identified containing potent inhibitors which interacted with the active site of the enzymes.The studies in this thesis show that the investigation of protein interactions is crucial for understanding protein functions and can help to develop novel drugs for the treatment of different diseases.