The research described in this thesis focused on the use of bioorthogonal antigens to investigate immunological processes in antigen presenting cells. Bioorthogonal antigens are antigenic proteins... Show moreThe research described in this thesis focused on the use of bioorthogonal antigens to investigate immunological processes in antigen presenting cells. Bioorthogonal antigens are antigenic proteins produced through recombinant expression in a methionine auxotrophic E. coli strain. This allows for the replacement of methionine residues with the bioorthogonal non-canonical amino acid, azidohomoalanine (Aha), that resembles methionine. Aha contains an azide group that enables the selective and rapid visualization or enrichment of the antigen after a biological experiment using alkyne-modified fluorophores or alkyne-containing resins, respectively, via copper(I)-catalyzed azide-alkyne cycloaddition (CuAAC). The research involved studying the effects of post-translational modifications (PTMs), antigen complexation and glycosylation of antibodies in immune complexes on the uptake, proteolysis, and T cell activation by dendritic cells (DCs) of Aha-containing antigens. Additionally, a new method was developed to enrich low abundant bioorthogonal antigenic fragments from complex mixtures. This method can be used in future studies to identify processed Aha-containing fragments from immune cells that are preserved for T cell presentation. Show less
Type I interferons (IFN-I) are pleiotropic cytokines that were originally identified for their antiviral properties and are now recognized for playing key roles in the defense against a range of... Show moreType I interferons (IFN-I) are pleiotropic cytokines that were originally identified for their antiviral properties and are now recognized for playing key roles in the defense against a range of other microorganisms as well as cancer. Their production should be well-controlled to be of benefit to the host, as excessive or chronic IFN-I expression leads to adverse effects such as immunosuppression or the induction of severe immunopathology.The studies presented in this thesis are aimed at uncovering mechanisms that regulate the production of IFN-I. The obtained knowledge on the involved molecular processes, may aid the development of targeted therapies that enhance or intercept IFN-I responses for maximum host protection while minimizing damage. Show less
This thesis presents the first synthetic peptides ADP-ribosylated on serine, threonine, tyrosine, arginine and cysteine. Besides synthetic peptides, this thesis discusses the first synthetic route... Show moreThis thesis presents the first synthetic peptides ADP-ribosylated on serine, threonine, tyrosine, arginine and cysteine. Besides synthetic peptides, this thesis discusses the first synthetic route towards ADP-ribosylated nucleic acids. Furthermore, two photoaffinity probes for PARP1 have been developed and assessed in living cells and two activity based probes have been synthesized, designed for CD38. Show less
In this thesis, bioorthogonal chemistry is combined with correlative light-electron microscopy to selectively label and study pathogenic intracellular bacteria within the host immune cell. This... Show moreIn this thesis, bioorthogonal chemistry is combined with correlative light-electron microscopy to selectively label and study pathogenic intracellular bacteria within the host immune cell. This technique combines the ultrastructural information of transmission electron microscopy with the functional information of fluorescence light microscopy in order to investigate the host-pathogen interactions that contribute to the diseases caused by pathogenic intracellular bacteria such as Salmonella Typhimurium and Mycobacterium tuberculosis. The technique is further expanded with super-resolution microscopy by combining stochastic optical reconstruction microscopy with transmission electron microscopy. Additionally, the bioorthogonal labeling method for the study of intracellular bacteria is validated through a bead-based stability assay, demonstrating the compatibility of alkyne and azide groups to label bacterial proteins within the degradative lysosomal environment. The technique developed in this thesis may contribute to a better understanding of the mechanisms behind bacterial diseases, as well as the development of novel antibiotics and other therapies to fight these important infectious diseases. Show less
In order to be able to develop effective medicine and treatments to prevent or cure autoimmune diseases or cancer we need to understand the mechanisms how they arise and what drives their course... Show moreIn order to be able to develop effective medicine and treatments to prevent or cure autoimmune diseases or cancer we need to understand the mechanisms how they arise and what drives their course.Unravelling the fundamental molecular mechanisms influencing the onset and course of diseases such as allergies, rheumatoid arthritis or cancer can be tackled using bioorthogonal antigens – chemically functionalized proteins.To tackle this challenge this thesis uses an inter-disciplinary approach. Combining standard immunological experimental methods with special, highly selective bioorthogonal chemical reactions. These reactions are bioorthogonal because, unlike normal organic chemistry, they are compatible with the physiological environment of a cell. This approach allows for following for example the location of the protein over time within a cell or alterations in the immune response due to disease related changes to the protein without disturbing the processes themself.This is a significant advantage because without changing the method used, new information can be retrieved from the same set of experiments, at any point in time during the process and a plethora of new readout options yielding additional data sets.This promises new insights into the causal relation of time, localisation and factors influencing effective anti-cancer vaccine-design and cancer immunotherapy or new biological drugs to prevent or delay onset and progression of autoimmune diseases. Show less
Feng, Y.S.; Wu, Y.N.; Zuo, J.; Tu, L.P.; Que, I.; Chang, Y.L.; ... ; Zhang, H. 2019
In this thesis the combinatorial use of bioorthogonal labelling and Electron Microscopy (EM)-based imaging techniques is explored to enable observations of specific molecular targets in their... Show moreIn this thesis the combinatorial use of bioorthogonal labelling and Electron Microscopy (EM)-based imaging techniques is explored to enable observations of specific molecular targets in their ultrastructural context within the cell. Show less
