Efficient Recombinant Production and Functional Characterisation of Cytotoxic and Haemotoxic Snake Venom Metalloproteinases

Snake venoms contain variable mixtures of toxins that evolved to incapacitate prey but cause extensive pathology in snakebite patients. In viper venom, the most potent toxins are the haemorrhagic and coagulopathic snake venom metalloproteinases (SVMPs). SVMP research has been hampered by the lack of an efficient generic recombinant production protocol. Using baculovirus/insect cell expression, we produced and functionally validated enzymes from all three structurally variable SVMP classes (PI, PII and PIII). Incorporating the native N-terminal prodomain, which blocks the active site via a cysteine-switch motif, overcame the cytotoxicity of SVMPs. Incubation with Zn ²⁺ activated the SVMP zymogens, resulting in proteolysis of the PIII prodomain. Functional validation of the recombinant SVMPs was performed using protein substrate degradation, platelet aggregation and blood coagulation assays, benchmarked to native venom-purified SVMP. Our study provides a potent generic platform for the expression of SVMPs of value, for bioprospecting and discovery of novel snakebite therapeutics.