| Author/Editor | Choumet, V; Saliou, B; Fideler, L; Chen, YC; Gubenšek, F; Bon, C; Delot, E | |
| Title | Snake-venom phospholipase A2 neurotoxins. Potentiation of a single-chain neurotoxin by the chaperon subunit of a two-component neurotoxin | |
| Type | članek | |
| Source | Eur J Biochem | |
| Vol. and No. | Letnik 211, št. 1-2 | |
| Publication year | 1993 | |
| Volume | str. 57-62 | |
| Language | eng | |
| Abstract | The venoms from Crotalinae and Viperinae snakes contain only two kinds of phospholipase A2 neurotoxins (beta-neurotoxins): single-chain beta-neurotoxins, such as agkistrodotoxin and ammodytoxin-A, and dimeric beta-neurotoxins, which, in the case of the best studied ones, crotoxin-like toxins, consist of the non-covalent association of a phospholipase A2 (CB) and a non-enzymatic chaperon (CA). Possible evolutionary relationships of these beta-neurotoxins have been investigated by analyzing whether CA could behave as a chaperon toward agkistrodotoxin and ammodytoxin, as it does in the crotoxin complex. CA increased the lethal potency of agkistrodotoxin and modified its pharmacological effect on Torpedo synaptosomes. Sedimentation experiments proved that CA can form an heterocomplex with agkistrodotoxin. Agkistrodotoxin prevented the binding to CA of an anti-CA mAb which recognizes an epitope at the zone of interaction between crotoxin subunits, suggesting the association of CA and agkistrodotoxin implicated the same zone. A 10-fold molar excess of CA over ammodytoxin modified the effect of ammodytoxin on acetylcholine release but did not increase the lethal potency of ammodytoxin. Sedimentation experiments showed CA and ammodytoxin can form an heterocomplex which is less stable than CA.agkistrodotoxin. Ammodytoxin A did not compete with the anti-CA mAb. These observations are in good agreement with the sequence similarities between CB and agkistrodotoxin (80 percent) and ammodytoxin A (60 percent). | |
| Descriptors | CROTALID VENOMS CROTOXIN NEUROTOXINS PHOSPHOLIPASES A VIPER VENOMS ANTIBODIES, MONOCLONAL CROTALID VENOMS CROTOXIN DRUG SYNERGISM MACROMOLECULAR SYSTEMS PHOSPHOLIPASES A SEQUENCE HOMOLOGY, AMINO ACID SYNAPTOSOMES TORPEDO VIPER VENOMS |