Use this URL to cite or link to this record in EThOS: http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.523376
Title: Recombinant antibodies against Clostridium difficile toxin A
Author: Almdni, Sabir M. Shakir
ISNI:       0000 0001 3406 609X
Awarding Body: University of Glasgow
Current Institution: University of Glasgow
Date of Award: 2013
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Abstract:
Clostridium difficile is a major cause of nosocomial intestinal infection. The pathogen possesses two potent toxins, Toxin A and Toxin B, both of which contribute to diarrhoea, intestinal inflammation and tissue damage. Antibiotics are effective against the disease, however around 20 % of patients on treatment relapse after the termination of antibiotic therapy. The binding of Toxin A to a receptor on human intestinal epithelial cells initiates disease: this is considered the starting point from which the toxin elicits its effect. One feature of the carboxy-terminal domain of Toxin A is the presence of repeating units of amino acids that form a series of binding sites able to recognise disaccharides and trisaccharides on glycolipid and glycoprotein receptor molecules. Antibody response against the toxin can protect against C. difficile disease and efforts to generate vaccines have focused upon the carboxy-terminal, receptor binding domain. The aims of this project were to use phage display to isolate recombinant antibodies against those features of the carboxy-terminal domain of Toxin A thought to be responsible for receptor-binding and to assess if the antibodies were capable protecting against the action of Toxin A. Using published crystallographic data that has shown the interaction of Toxin A and trisaccharide, a region of about 113 amino acids from the carboxy-terminal region of Toxin A was expressed as a fusion to maltose-binding protein. The MBP fusion protein was expressed, purified on amylose resin, and characterised. The fusion protein was then used to isolate single chain antibodies from the Tomlinson libraries of scFvs, a synthetically diversified phage display library of single scaffold human antibodies. Conventional bio-panning methods were used in which the MBP fusion protein was bound to a plastic surface and the phage display libraries were pre-mixed with native MBP to inhibit the isolation of anti-MBP antibodies. Progressive enrichment of scFvs through 3 rounds of selection was observed. Those scFvs that showed strongest reaction against the target protein in ELISA but failed to react with native MBP were sequenced, expressed as soluble antibodies and purified on nickel chelating columns. While the resulting panel of scFvs showed similarities of sequence, none were identical. All were reactive with native, full-length Toxin A and appeared to bind to conformational (nonlinear) epitopes. Cross-reaction with Toxin B from C. difficile was also evident. A panel of truncation mutants were generated from the MBP fusion protein and using these in ELISA with the scFvs, reactivity appeared to be directed to features of a long repeat sequence of Toxin A. To assay whether the isolated scFvs possessed biological activity of significance, in vitro and in vivo protection assays were established. For experiments in vitro, the action of Toxin A upon cultured Vero cells was studied. Native Toxin A triggered a conversion of the cells from stellate to rounded morphology. When cells were exposed to 100 ng of toxin, this effect was evident within 60 minutes; at a 10-fold lower dose, the minimum quantity to which a response was detectable, virtually all cells had undergone rounding within 2 h. When individual scFvs were mixed with 10 ng of Toxin A prior to addition to Vero cells, there was a consistent delay in cytopathic activity that extended to 5 h. In this assay, the percentage of cells that had retained their stellate morphology 5 h post-challenge was dependent on the scFv used. To quantify the potency of this neutralising activity, the amount of each scFv required to achieve 50% protection during a 2 h challenge period was established. This revealed 3.5-fold difference between the most and the least effefctive scFv. The most potent scFv was used in an in vivo assay in which Toxin A was administered to the ligated intestinal loops of rats. Again, protective activity was evident. Overall, phage display technology enabled the assembly of a panel of scFv antibodies against the putative receptor binding site in the carboxy-terminal domain of Toxin A from C. difficile. The scFvs were able to protect against the cytopathic activity of Toxin A in vitro and in vivo and proposals are made about how these observations could be taken forward in a model of C. difficile infection that best mimics the human disease.
Supervisor: Not available Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID: uk.bl.ethos.523376  DOI: Not available
Keywords: QR180 Immunology
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