Publication date: Available online 12 April 2018
Source:Journal of Proteomics
Author(s): Andrés Sánchez, María Herrera, Mauren Villalta, Daniela Solano, Álvaro Segura, Bruno Lomonte, José María Gutiérrez, Guillermo León, Mariángela Vargas
The protein composition and toxinological profile of the venom of the African spitting elapid Hemachatus haemachatus (Ringhals) were characterized by bottom-up proteomics and functional in vitro and in vivo assays. Venom is composed of abundant three-finger toxins (3FTxs; 63.3%), followed by phospholipases A2 (PLA2s; 22.8%), snake venom metalloproteinases (SVMPs 7.1%), cysteine-rich secretory proteins (CRISPs; 4.1%) and Kunitz type protease inhibitors (KTPIs; 1.5%). 3FTxs are the main responsible for lethality and myotoxicity in mice and in vitro anticoagulant activity. In contrast to closely related spitting species, whose venom 3FTxs induces dermonecrosis, the 3FTxs of H. haemachatus did not induce dermonecrotic activity. The venom showed in vitro PLA2 activity, and most likely PLA2s contribute to some extent in venom lethality, as judged by partial reduction in toxicity after inhibition of their catalytic activity. Despite its relatively high content of SVMPs, compared to most elapids, the venom of H. haemachatus did not exert hemorrhagic effect, proteolytic activity on azocasein or defibrinogenating activity. Toxicovenomic characterization of H. haemachatus venom revealed that RP-HPLC fractions with higher abundance of 3FTxs presented lethal activity, while fractions with high content of PLA2s did not, underscoring the role of 3FTxs in the pathophysiology caused by this venom.Biological significanceThe proteomic composition and toxinological profile of the venom of Ringhals snake, Hemachatus haemachatus, a cobra-like spitting snake endemic to southern Africa, were investigated. In vitro, Ringhals venom showed anticoagulant and phospholipase A2 activities, but was devoid of proteolytic activity on azocasein. In mice, venom induced lethality and myotoxicity, but no local hemorrhage or dermonecrosis. The lack of dermonecrotic activity is in sharp contrast to venoms of closely related spitting cobras which present a similar relative abundance of 3FTxs but are potently dermonecrotic. 3FTxs, the most abundant protein family in the venom, are predominantly responsible for toxic effects. PLA2 enzyme inactivation experiments suggest that H. haemachatus venom lethality is not dependent on PLA2s, but instead is more related to neurotoxic or cardiotoxic 3FTxs. The characterization of this venom, based on proteomic and toxicovenomic approaches, is useful for more in depth studies associated with biogeography, phylogeny, toxinology and antivenom efficacy towards the venom of this species, and its association with related elapids.
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