Antibiotic resistance, caused by widespread use of antibiotics, leads to bacterial infections that are difficult, if not impossible, to treat and is a major worldwide health concern. Currently... Show moreAntibiotic resistance, caused by widespread use of antibiotics, leads to bacterial infections that are difficult, if not impossible, to treat and is a major worldwide health concern. Currently Methicillin-resistant Staphylococcus aureus (MRSA) is the most commonly identified antibiotic-resistant pathogen in clinical medicine worldwide. The spread of MRSA highlights the urgent need for alternative therapies, such as vaccination.Wall teichoic acids (WTAs), prime constituents of the Gram-positive cell wall, can function as effective antigenic epitopes and are therefore promising candidates for the development of a conjugate vaccine against S. aureus infections. WTAs are anionic poly-ribitol phosphate (RboP) chains attached to the peptidoglycan and they have a fundamentol role in the physiology in the bacteria.Since isolation from the bacteria of WTAs leads to heterogenous mixtures of fragments and bacterial contaminations, organic synthesis is the method of choice to generate WTA-fragments with pre-defined substitution patterns in higher purity and in larger amounts, allowing detailed immunological studies that can aid in future vaccine development.This Thesis presents methods to synthesize various WTA-fragments from Staphylococcus aureus and Enterococcus faecalis and their applications. Show less
G.S. du; Hathout, R.M.; Nasr, M.; Nejadnik, M.R.; Tu, J.; Koning, R.I.; ... ; Monkare, J. 2017
Conclusions: A biosignature of 6 cytokines obtained after stimulation with four Mtb antigens has moderate potential as a diagnostic tool for pulmonary TB disease individuals and stimulated marker... Show moreConclusions: A biosignature of 6 cytokines obtained after stimulation with four Mtb antigens has moderate potential as a diagnostic tool for pulmonary TB disease individuals and stimulated marker expression had no added value to unstimulated marker performance. (C) 2016 The British Infection Association. Published by Elsevier Ltd. All rights reserved. Show less
Synthetic long peptides (SLPs) derived from cancer antigens hold great promise as well-defined antigens for immunotherapy of cancer. However, the formulation of SLPs for in vivo administration... Show moreSynthetic long peptides (SLPs) derived from cancer antigens hold great promise as well-defined antigens for immunotherapy of cancer. However, the formulation of SLPs for in vivo administration still needs to be improved. So far, SLPs have been formulated in Montanide-based water-in-oil emulsions in (pre-)clinical trials. However, the use of Montanide as an adjuvant has some important limitations, such as: non-biodegradability; significant local side effects; poor control of release rate; lack of specific dentritic cell (DC)-activating capacity; and the presence of organic solvents (needed to dissolve the peptides prior to mixing with the adjuvant) in the final formulation. Therefore, alternative formulations containing an effective delivery system for peptide-based cancer vaccines are highly needed. Among the numerous vaccine delivery systems, poly(lactic-co-glycolic acid) (PLGA) biodegradable particulate delivery systems are particularly interesting because they are biocompatible; can protect soluble antigens from degradation and rapid clearance once administered; allow for co-encapsulation of (multiple) antigens and adjuvants; and mimic the size and structure of a pathogen, being more efficiently taken up by DCs than soluble antigen. This thesis describes fundamental studies on the design and applicability in a preclinical setting of PLGA-based particulate formulations for the delivery of SLP-based cancer vaccines. Show less
Navarrete, M.A.; Bertinetti-Lapatki, C.; Michelfelder, I.; Veelken, H. 2013
Nasal vaccination has the potential to provide protection combined with more patient comfort and a higher safety profile than classical injectable vaccines. However, the nasal physiology and... Show moreNasal vaccination has the potential to provide protection combined with more patient comfort and a higher safety profile than classical injectable vaccines. However, the nasal physiology and immunological aspects of the nasal epithelium hamper the efficacy of nasally administered vaccines. The aim of this thesis is therefore three-fold: __ to identify the principal hurdles to successful nasal vaccine delivery; __ to develop preclinical model systems to investigate these hurdles; __ to apply these principles to rationally design nasal subunit vaccine formulations in a preclinical setting. Show less
This thesis introduces a novel T cell vaccination method that uses a tattoo machine to inject DNA in the skin of the vaccinee. In comparison to other experimental vaccination methods DNA tattooing... Show moreThis thesis introduces a novel T cell vaccination method that uses a tattoo machine to inject DNA in the skin of the vaccinee. In comparison to other experimental vaccination methods DNA tattooing is very strong: besides small laboratory animals also large animals mount strong T cell responses upon tattoo DNA vaccination. Show less