The HC fragment of tetanus toxin forms stable, concentration-dependent dimers via an intermolecular disulphide bond |
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Authors: | Qazi Omar Bolgiano Barbara Crane Dennis Svergun Dmitri I Konarev Petr V Yao Zhong-Ping Robinson Carol V Brown Katherine A Fairweather Neil |
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Affiliation: | Division of Cell and Molecular Biology, Centre for Molecular Microbiology and Infection, Imperial College London, London SW7 2AZ, UK. |
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Abstract: | Protein oligomerisation is a prerequisite for the toxicity of a number of bacterial toxins. Examples include the pore-forming cytotoxin streptolysin O, which oligomerises to form large pores in the membrane and the protective antigen of anthrax toxin, where a heptameric complex is essential for the delivery of lethal factor and edema factor to the cell cytosol. Binding of the clostridial neurotoxins to receptors on neuronal cells is well characterised, but little is known regarding the quaternary structure of these toxins and the role of oligomerisation in the intoxication process. We have investigated the oligomerisation of the receptor binding domain (H(C)) of tetanus toxin, which retains the binding and trafficking properties of the full-length toxin. Electrophoresis, size exclusion chromatography and mass spectrometry were used to demonstrate that H(C) undergoes concentration-dependent oligomerisation in solution. Reducing agents were found to affect H(C) oligomerisation and, using mutagenesis, Cys869 was shown to be essential for this process. Furthermore, the oligomeric state and quaternary structure of H(C) in solution was assessed using synchrotron small-angle X-ray scattering. Ab initio shape analysis and rigid body modelling coupled with mutagenesis data allowed the construction of an unequivocal model of dimeric H(C) in solution. We propose a possible mechanism for H(C) oligomerisation and discuss how this may relate to toxicity. |
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Keywords: | TeNT, tetanus neurotoxin CNT, clostridial neurotoxin SEC, size exclusion chromatography MALLS, multi-angle laser light scattering ESI-ToF, electrospray ionisation time-of-flight SAXS, small angle X-ray scattering |
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