Recent data suggest that botulinum type-B neurotoxin is a protease which acts on vesicleassociated membrane protein, isoform 2 (VAMP-2). In this report, botulinum type-B neurotoxin is shown to cleave a synthetic fragment (HV62) of VAMP-2, corresponding to the bulk of the hydrophillic domain (amino acids 33-94). The neurotoxin acts at a single site between Gln76 and Phe77. Little or no proteolytic activity by botulinum type-B neurotoxin was observed with peptides containing 7, 10 or 20 amino acids spanning the site of cleavage. The proteolytic action of neurotoxin was strongly inhibited by EDTA and o-phenanthroline whereas captopril and phosphoramidon were ineffective. A series of model peptide substrates were synthesised in order to define the smallest VAMP-2 fragment to be cleaved by botulinum type-B neurotoxin. Data obtained from these substrates suggest that the neurotoxin belongs to a novel class of zinc-endoprotease; more than 12 amino acid residues are required on both the NH,-and COOH-terminal side of the cleavage site for optimal proteolytic activity. The results demonstrate that no other components of cellular vesicles are required for the specific action of the neurotoxin on VAMP-2. The data further show that the highly specific action of the neurotoxin is not dictated solely by the properties of the amino acid residues at the cleavage site but is also dependent on amino acid sequences distal to its site of action.
The neurotoxins produced by Clostridium botulinum are the most potent acute toxins known and are the causative agents of the neuroparalytic disease botulism. The toxins act primarily at peripheral cholinergic synapses by blocking the evoked release of the neurotransmitter acetylcholine. There are seven distinct serotypes of toxin. All are polypeptides of Mr about 150 kDa that have similar structure and pharmacological action. In their most active forms the toxins exist as dichain molecules in which a heavy (H) chain is linked by disulphide bonding to a light (L) chain. The H chain is believed to be associated with the highly specific and avid binding of toxin to the motor nerve end plates and also with the process of internalisation of the toxin. The toxic activity appears to be associated with the L chain which blockades the calcium-mediated release of acetylcholine, probably by interfering at the molecular level with the mechanisms whereby neurotransmitter-containing vesicles merge with the plasmalemma. The type A toxin is now used therapeutically to treat a variety of conditions involving involuntary muscle spasm. The therapeutic toxin is a neurotoxin-haemagglutinin complex isolated from cultures of C. botulinum. A controlled manufacturing process has been developed for the therapeutic toxin which is specially formulated to give a freeze-dried product having good stability.
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