Carbohydrates, alongside proteins and nucleic acids, constitute a crucial and versatile family of biomolecules present in all life forms. They manifest as monosaccharides, oligosaccharides, and... Show moreCarbohydrates, alongside proteins and nucleic acids, constitute a crucial and versatile family of biomolecules present in all life forms. They manifest as monosaccharides, oligosaccharides, and polysaccharides, covalently bonded to proteins and fats. Carbohydrates are integral to plant and arthropod cell walls and traditionally viewed as the primary source and storage of energy, but also play a vital role in many fundamental biological processes. To study the structure and biological activity of specific carbohydrates, it is essential to synthesize them in a pure and well-defined form, as current natural extraction techniques are often limiting.The work of this thesis is focused on a specific type of glycomimetics: thiosugars, i.e. sugar analogues which have their endocylic oxygen replaced by a sulfur atom. These analogues are of interest because of their unique stability and stereoelectronic effects, which closely mimick their natural O-counterparts. The glycosidic linkage of thioglycosides (i.e. 4-S-furanosides and 5-S-pyranosides) shows improved resistance towards chemical and enzymatic hydrolysis. Show less
This thesis describes the development and optimization of the first molecular tools to study the enzyme PLA2G4E. After remaining elusive for many years, in 2016, this enzyme was discovered to be... Show moreThis thesis describes the development and optimization of the first molecular tools to study the enzyme PLA2G4E. After remaining elusive for many years, in 2016, this enzyme was discovered to be responsible for the calcium-dependent formation of N-acylphosphatidylethanolamines (NAPEs) in cells. NAPEs are low-abundant lipid species that play roles in membrane stabilization, cell signaling and homeostasis. They are well-known as precursors to the signaling lipids of the N-acylethanolamine (NAE) class, but their own biological functions remain relatively poorly understood. To find inhibitors of PLA2G4E, a focused compound library was screened in a newly developed activity-based protein profiling (ABPP) assay. Hits were identified and optimized by building structure-activity relationships (SARs) through organic synthesis and activity assays. WEN091 was identified as potent inhibitor of PLA2G4E that was able to reduce cellular NAPE levels. Cellular target engagement was confirmed by use of a tailored activity-based probe. Using these molecular tools, the relevance of NAPEs and PLA2G4E in cellular processes and disease may be elucidated. Show less
Drug development is a time- and resource-consuming process that starts with the discovery and validation of a (protein) target that contributes to pathogenesis or disease progression. One of the... Show moreDrug development is a time- and resource-consuming process that starts with the discovery and validation of a (protein) target that contributes to pathogenesis or disease progression. One of the essential steps in this process is to validate that pharmacological modulation (e.g. inhibition) of the target leads to the desired phenotype, a process which is collectively referred to as target validation. Target validation heavily relies on the availability of suitable chemical tools to study engagement of the compound to the intended biological target. The development of selective chemical tools can be challenging to achieve due to the off-target activity towards structurally and/or functionally related homologs, e.g. other members within the same protein class. The field of chemical genetics combines the specificity of genetics with benefits of acute, pharmacological modulation by small molecules. This thesis describes chemical genetic approaches that can be used for target engagement and target validation studies of two different enzyme classes: kinases and serine hydrolases. Show less
In this thesis the behavior and functionality of peptide amphiphiles at the surface of bilayer vesicles is examined. By controlling the behavior of the surface bound peptides, I was able to... Show moreIn this thesis the behavior and functionality of peptide amphiphiles at the surface of bilayer vesicles is examined. By controlling the behavior of the surface bound peptides, I was able to construct assemblies which could: 1) release their content (triggered by pH), 2) fuse in a targeted and controlled manner or 3) dock to cells and zebrafish embryos Show less
This Thesis aims at the development of novel subunit selective inhibitors of the proteasome. -Three vinyl sulfone analogues of three epoxyketone containing inhibitors described in literature are... Show moreThis Thesis aims at the development of novel subunit selective inhibitors of the proteasome. -Three vinyl sulfone analogues of three epoxyketone containing inhibitors described in literature are synthesised and characterised. The nature of the electrophile determines subunit selectivity of the inhibitor. -Ten Michael acceptors are coupled to three peptoid tails yielding thirty peptide-like compounds. None of the peptoid Michael acceptors are efficient proteasome inhibitors. Using the Staudinger-Bertozzi ligation followed by affinity purification, tryptic digestion of the isolated proteins and LC/MS/MS identification, the targets of two compounds in HEK293T and RAW264.7 cells are determined. -Syringolins are potent proteasome inhibitors found in nature. A syringolin structural motif was built in peptoid epoxyketones and vinyl sulfones yielding a 16-membered library of proteasome inhibitors. The distance between the urea and electrophile dictates subunit selectivity. -Three cyclooctynes are compared to the Staudinger-Bertozzi two-step labelling strategy. Cyclooctynes quantitatively convert azide labelled proteasomes at a lower concentration than the Staudinger-Bertozzi phosphane but cyclooctyne two-step labelling is associated with tremendous background labelling. -A library of peptoid vinyl sulfones with basic amino acid side chains is synthesised. A compound with two benzylamine residues is a potent and _2 selective proteasome inhibitor. Attachment of a BODIPY fluorophore yielded a _2 selective probe. Show less