Pierre E. Bougis

Molecular cloning and nucleotide sequence analysis of a cDNA encoding the main β-neurotoxin from the venom of the South American scorpion Tityus serrulatus

A cDNA encoding the main Tityus serrulatus β‐neurotoxin was isolated from a venom gland cDNA library by using an oligonucleotide probe. The amino acid sequence deduced from the cDNA nucleotide sequence indicated that the toxin is the processed product of a precursor containing: (i) a signal peptide of 20 residues: (ii) the amino acid sequence of the mature toxin: and (iii) an extra Gly‐Lys‐Lys tail at the C‐terminal end before the termination codon. Thus, in addition to the removal of the signal peptide by a signal peptidase, the generation of the mature toxin requires both a post‐translational cleavage by a carboxypeptidase specific for basic residues and the action of an α‐amidating enzyme. These results also show that the biosynthetic pathway for β‐toxins of ‘New World’ scorpion venoms is similar to that already described for α‐toxins of ‘Old World’ scorpion venoms.

Structure-function relationships for cardiotoxins interacting with phospholipids

Four cardiotoxins (CTX I-IV) from Naja mossambica mossambica were compared for their ability to interact with phospholipid vesicles and their capacity to bind erythrocytes. It is concluded that the affinity of the toxins always increases in the order: I approximately equal to II less than III less than IV. The binding is specific for charged lipids even in lipid mixtures. Proteolytic attack of the free and lipid-bound cardiotoxin indicates that at least the first loop Leu1-Thr13 is at the lipid contact. Tryptic and synthetic peptides constitutive of this loop are shown to interact with lipids. Arg5 residue increases the affinity toward the bilayer. The Raman spectra of lipid-bound cardiotoxin indicate a secondary and tertiary structure mainly similar to that of the free toxin. On charged lipids cardiotoxins induce a decrease of the enthalpy and an increase of disorder without change in the transition temperature; at saturating amounts of toxin the transition is abolished. In binary mixtures of phosphatidylcholine and charged lipids the observed effects can be accounted by a phase separation induced by the toxin.

Are interactions with phospholipids responsible for pharmacological activities of cardiotoxins

SummaryCardiotoxins are small basic proteins (7 000 daltons) that are found in the venoms of Elapidae snakes. Although they are structurally close to a-neurotoxins present in the same secretions, their activity is related to their ability to interact with every cell membrane inducing, near micromolar concentration, the modification of its biological properties and/or physical structure. The mode of action of cardiotoxins, on a molecular level, is still under investigation. However, lipid-protein interactions are more and more involved in their binding to membrane and in their activities. Using new experimental data a better definition of phospholipid cardiotoxin interaction is arrived at and a tentative molecular explanation of the pharmacological activities of these proteins is presented and discussed.

Biochemical, pharmacological and genomic characterisation of Ts IV, an α‐toxin from the venom of the South American scorpion Tityus serrulatus

The venom of the scorpion, Tityus serrulatus, was fractionated to investigate the chemical and pharmacological properties of its α‐toxin content. Three α‐toxins (Ts III, Ts IV and Ts V) were purified by conventional chromatography (gel filtration and ion‐exchange chromatography), followed by immunoaffinity chromatography. Competition experiments using reference α‐ and β‐toxins suggested that these α‐toxins were contaminated with around 0.01% of β‐toxin. The sequence of the first 30 amino acids of Ts IV was established. Using an oligonucleotide probe, a cDNA encoding its precursor was cloned from a venom gland cDNA library. The primary structure deduced from the cDNA nucleotide sequence provides possible explanations for the polymorphism of these three molecules.

Characterization of a new peptide from Tityus serrulatus scorpion venom which is a ligand of the apamin-binding site

A new ligand (Ts κ) of the apamin binding site on rat brain synaptosomes (K 0.5 = 300 pM) was purified and characterized from the venom of Tityus serrulatus. It is a polypeptide toxin of 35 amino acid residues, with three disulfide bridges. Its cDNA was amplified from a venom gland cDNA library and the nucleotide sequence determined. A model of Ts κ was constructed by amino acid replacement using charybdotoxin structure as determined by 1H nuclear magnetic resonance as starting model.

Characterization of α-Neurotoxin and Phospholipase A2 Activities from Micrurus Venoms

New World elapids are coral snakes that belong to the genus Micrurus, and for which the venom biochemistry is mostly unknown. Analysis has been difficult because the coral snakes produce small quantities of venom. Clinical observations following bites show mainly neurotoxic effects. Experimentally, cardiotoxic, haemolytic and myotoxic activities are also reported. An experimental approach, using reverse-phase high-performance liquid chromatography and specific assays for alpha-neurotoxin and phospholipase A2 activities, was conducted on milligram quantities of venoms from three Micrurus species from Costa Rica; M. nigrocinctus nigrocinctus, M. alleni yatesi and M. multifasciatus. Neurotoxicity was determined by competition binding experiments with the Torpedo marmorata acetylcholine receptor. Phospholipase A2 activity was measured by fluorimetry using a pyrene lipid substrate. In this way, we purified and characterized seven alpha-neurotoxins, five phospholipases A2 and four toxin homologs. The amino acid sequence of the major alpha-neurotoxin from M. nigrocinctus nigrocinctus venom was fully determined and compared to Old Word representatives. Distance matrix data were generated to set up phylogeny relationships among elapid short-chain alpha-neurotoxins, which proved to be in accordance with the taxonomic classification and geographical distribution of snake species.

Influence of a NH2-terminal extension on the activity of KTX2, a K+ channel blocker purified from Androctonus australis scorpion venom

A cDNA encoding a short polypeptide blocker of K+ channels, kaliotoxin 2 (KTX2), from the venom of the North African scorpion Androctonus australis was expressed in the periplasmic space of Escherichia coli. KTX2 was produced as a fusion protein with the maltose binding protein followed by the recognition site for factor Xa or enterokinase preceding the first amino acid residue of the toxin. The fully refolded recombinant KTX2 (rKTX2) was obtained (0.15–0.30 mg/l of culture) and was indistinguishable from the native toxin according to chemical and biological criteria. An N‐extended analogue of KTX2 exhibiting three additional residues was also expressed. This analogue had 1000‐fold less affinity for the 125I‐kaliotoxin binding site on rat brain synaptosomes than KTX2. Conformational models of KTX2 and its mutant were designed by amino acid replacement using the structure of agitoxin 2 from Leiurus quinquestriatus as template, to try to understand the decrease in affinity for the receptor.

Use of high performance liquid chromatography to demonstrate quantitative variation in components of venom from the scorpion Androctonus australis hector

Using reverse-phase high performance liquid chromatography (RP-HPLC), to resolve less than 1 mg of scorpion venom, quantitative variations in protein components were demonstrated in Androctonus australis Hector venoms obtained either by electric or manual stimulation. The results support polymorphism of scorpion venom components at an individual level.

GENOMIC ORGANIZATION OF THE KTX2 GENE, ENCODING A 'SHORT' SCORPION TOXIN ACTIVE ON K+ CHANNELS

A single intron of 87 bp, close to the region encoding the C‐terminal part of the signal peptide, was found in the gene of the ‘short’ scorpion toxin kaliotoxin 2 of Androctonus australis acting on various types of K+ channels. Its A+T content was particularly high (up to 86%). By walking and ligation‐mediated PCR, the promoter sequences of the kaliotoxin 2 gene of Androctonus australis were studied. The transcription unit of the gene is 390 bp long. Consensus sequences were identified. The genes of ‘short’ scorpion toxins active on K+ channels are organized similarly to those of the ‘long’ scorpion toxins active on Na+ channels and not like those of structurally related insect defensins, which are intronless.

A new Kaliotoxin selective towards Kv1.3 and Kv1.2 but not Kv1.1 channels expressed in oocytes.

In this paper were described the purification, the sequencing, and the immunological and biological characterization of a new Kaliotoxin analog, Aam-KTX, from the venom of the scorpion Androctonus amoreuxi. The toxin effects on three cloned Kv channels (Kv1.1, Kv1.2, and Kv1.3) were investigated in Xenopus oocytes using electrophysiology experiments. The Aam-KTX preference for Kv1.3 channel versus Kv1.2 was expected (EC(50) values, 1.1+/-0.02 and 10.4+/-1.5 nM, respectively) but its total inefficacy on Kv1.1 was very surprising. 3D molecular modeling of Aam-KTX brought putative answers to this difference in selectivity.