Purification and characterization of raventoxin-I and raventoxin-III, two neurotoxic peptides from the venom of the spider Macrothele raveni

Abstract

The spider Macrothele raveni was recently identified as a new species of Genus Macrothele. The crude venom from M. raveni was found to be neurotoxic to mice and the LD 50 of the crude venom in mice was 2.852 mg/kg. Two neurotoxic peptides, raventoxin-I and raventoxin-III, were isolated from the crude venom by ion-exchange and reverse phase high performance liquid chromatography. Raventoxin-I was the most abundant toxic component in the venom, while raventoxin-III was a lower abundant component. Both toxins can kill mice and block neuromuscular transmission in an isolated mouse phrenic nerve diaphragm preparation, but have no effect on cockroaches. The LD 50 of raventoxin-I in mice is 0.772 mg/kg. The complete amino acid sequences of raventoxin-I and raventoxin-III were determined and found to consist of 43 and 29 amino acid residues, respectively. It was determined by mass spectrometry that all Cys residues from raventoxin-I and raventoxin-III are involved in disulphide bonds. raventoxin-III showed no significant sequence homology with any presently known neurotoxins in the protein/DNA databases, while raventoxin-I has limited sequence identity with δ-AcTx-Hv1 and δ-AcTx-Ar1, which target both mammalian and insect sodium channels. Both raventoxin-I and raventoxin-III only work on vertebrates, but not on insects. Moreover, raventoxin-I could exert an effect of first exciting and then inhibiting the contraction of mouse diaphragm muscle caused by electrically stimulating the phrenic nerve, but raventoxin-III could not.