Insights into the structure, function and stability of bordonein-L, the first L-amino acid oxidase from Crotalus durissus terrificus snake venom.

Abstract

Snake venom L-amino acid oxidases (svLAAOs) are an interesting class of enzymes with important biological activities. Their participation in key metabolic processes, including pathological disorders, suggest that svLAAOs are potential lead compounds in drug discovery. However, their short-term stability defies their applications. This paper describes the stability studies together with functional and structural characterization of the LAAO bordonein-L. It has 498\u202famino acid residues, one N-glycosylation site and two disulfide bonds, revealed by high-resolution MS/MS. Molecular modeling approach showed its monomer folds into three conserved domains: FAD, substrate and helical domains. Differential scanning fluorimetry showed the enzyme tends to destabilize from neutral to basic pHs and in presence of mono/bivalent ions and it is highly stabilized by acid pHs and its substrates. However, high concentrations of L-amino acids decrease bordonein-L enzyme activity. Dynamic light scattering revealed bordonein-L remains in the dimeric and monodisperse form, so aggregation does not cause the rapidly decrease of enzyme activity. In\xa0vitro, the enzyme exhibited cytotoxicity against fibroblast cell line and killed Leishmania amazonensis promastigotes, intensified by substrate addition. Concluding, our results provide biochemistry and biophysical insights to improve LAAOs stability and better approaches to long-term storage. Moreover, our study emphasizes the importance of proper buffers choice mainly in cell-based assays.