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Bacterial Sortase A as a drug targetLarsson, Caroline January 2012 (has links)
Sortase A is a housekeeping enzyme of Gram-positive bacteria that catalyses the anchoring of surface proteins to the bacterial peptidoglycan. The enzyme works to establish an interaction between bacteria and host cells and is essential for pathogenesis. This makes Sortase A a potential suitable target for inhibition, in order to treat bacterial infections. In this degree project Sortase A from Staphylococcus aureus was explored and potential inhibitors were investigated by performing enzyme activity and bacterial binding assays. A robust FRET assay was developed and optimized for a recombinant version of the enzyme and serves as a good starting point for studying inhibition.
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The proline-rich repeat and thioester domains of streptococcal fibronectin-binding proteinsKan, Su-Yin January 2014 (has links)
Streptococcus pyogenes is an important human pathogen. One of the most prominent virulence factors produced by S. pyogenes is SfbI, a surface adhesin composed of three domains: thioester domain (TED), proline-rich repeat domain (PRR) and fibronectin-binding repeat domain (FnBD). The structures and functions of TED and PRR and their contributions to the pathogenesis of streptococcal diseases are unknown. The interaction between PRR and its putative target, the intracellular actin cytoskeleton regulator Arp2/3, was investigated by both in vitro and in vivo studies. PRR was shown to inhibit Arp2/3-dependent actin polymerisation. The expression of PRR in HeLa cells caused disruption to the cytoskeleton of the cells. All data point towards a role of PRR in inhibiting the Arp2/3 complex but more evidence is needed to support this. The N-terminal domain of SfbI (TED) and four homologous domains from S. pyogenes, group G streptococci and Streptococcus pneumoniae were characterised by mass spectrometry, NMR spectroscopy and biochemical assays. All were shown to possess intramolecular thioester bonds, spontaneously formed between sides chains of Cys and Gln residues. Fibrinogen (Fg) was identified as the first binding target of bacterial TEDs with direct evidence that the thioester bond was involved in the interaction with Fg. A pull-down experiment using human plasma showed Fg is a specific binding partner of SfbI-TED. The binding sites were narrowed down to the thioester-forming Gln of SfbI-TED and Lys residues in the Fg-Aα chain, and binding potentially occurred via covalent isopeptide linkage. The data presented here suggest two new roles for SfbI, previously unknown in bacterial pathogenesis. The PRR may be the first bacterial inhibitor of the actin cytoskeleton acting by inhibiting the Arp2/3 complex. Thioester domains appear to be a shared common feature of surface proteins of many Gram-positive pathogens. They may form covalent crosslinks between bacteria and host tissue.
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Promoting Extracellular Matrix Crosslinking in Synthetic HydrogelsManganare, Marcos M 23 November 2015 (has links)
The extracellular matrix (ECM) provides mechanical and biochemical support to tissues and cells. It is crucial for cell attachment, differentiation, and migration, as well as for ailment-associated processes such as angiogenesis, metastases and cancer development. An approach to study these phenomena is through emulation of the ECM by synthetic gels constructed of natural polymers, such as collagen and fibronectin, or simple but tunable materials such as poly(ethylene glycol) (PEG) crosslinked with short peptide sequences susceptible to digestion by metalloproteases and cell-binding domains. Our lab uses PEG gels to study cell behavior in three dimensions (3D). Although this system fosters cell attachment and crosslinking peptides mentioned, the regenerative process of the ECM has not been mimicked yet in 3D synthetic gels. In an attempt to build in this functionality to PEG-based gels, I performed phage display to identify short oligopeptides that bind either collagen or fibronectin to assess them as potential nucleation points for crosslinking elements in order to emulate the in vivo reconstitution process. A phage display is a library of random oligopeptides expressed on a M13 bacteriophage that allows identification of a phenotype and a genotype with a single screening step. This inexpensive strategy could yield a short oligopeptide with high specificity. I identified the conditions under which phage display is compatible with our targets, and I isolated and identified five peptide candidates for fibronectin binding and two for collagen. Future work includes assessing whether these candidates could facilitate the formation of cell-created crosslinking in 3D synthetic hydrogels.
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