Linear antimicrobial peptides from Ectatomma quadridens ant venom.

Venoms from three poneromorph ant species (Paraponera clavata, Ectatomma quadridens and Ectatomma tuberculatum) were investigated for the growth inhibition of Gram-positive and Gram-negative bacteria. It was shown that the venom of E. quadridens and its peptide fraction in particular possess marked antibacterial action.

Modulation of P2X3 receptors by spider toxins.

Recently, the novel peptide named purotoxin-1 (PT1) has been identified in the venom of the spider Geolycosa sp. and shown to exert marked modulatory effects on P2X3 receptors in rat sensory neurons. Here we studied another polypeptide from the same spider venom, purotoxin-2 (PT2), and demonstrated that it also affected activity of mammalian P2X3 receptors.

Novel peptide from spider venom inhibits P2X3 receptors and inflammatory pain.

P2X3 purinoreceptors expressed in mammalian sensory neurons play a key role in several processes, including pain perception. From the venom of the Central Asian spider Geolycosa sp., we have isolated a novel peptide, named purotoxin-1 (PT1), which is to our knowledge the first natural molecule exerting powerful and selective inhibitory action on P2X3 receptors.

Cyto-insectotoxins, a novel class of cytolytic and insecticidal peptides from spider venom.

Eight linear cationic peptides with cytolytic and insecticidal activity, designated cyto-insectotoxins (CITs), were identified in Lachesana tarabaevi spider venom. The peptides showed antibiotic activity towards Gram-positive and Gram-negative bacteria at micromolar concentrations as well as toxicity to insects. The primary structures of the toxins were established by direct Edman sequencing in combination with enzymatic and chemical polypeptide degradation and MS.

omega-Lsp-IA, a novel modulator of P-type Ca2+ channels.

A novel polypeptide, designated omega-Lsp-IA, which modulates P-type Ca(2+) channels, was purified from the venom of the spider Geolycosa sp. omega-Lsp-IA contains 47 amino acid residues and 4 intramolecular disulfide bridges. It belongs to a group of spider toxins affecting Ca(2+) channels and presumably forms the inhibitor cystine knot (ICK) fold.

[Identification and structural analysis of a glycophospholipid component from the venom of ant Paraponera clavata].

The venom of South American ant Paraponera clavata and its low-molecular-mass fraction were shown to possess insectotoxic and pore-forming activities. A number of glycophospholipid components were isolated from this ant venom by means of gel filtration and reversed-phase chromatography. Some of the compounds cause conductivity fluctuations in lipid bilayer membranes within the ranges 3-25 pS and 200-400 pS at concentrations of 10(-6) to 10(-7) M.

A radiolabeled peptide ligand of the hERG channel, [125I]-BeKm-1.

The wild-type scorpion toxin BeKm-1, which selectively blocks human ether-a-go-go related (hERG) channels, was radiolabeled with iodine at tyrosine 11. Both the mono- and di-iodinated derivatives were found to be biologically active. In electrophysiological patch-clamp recordings mono-[127I]-BeKm-1 had a concentration of half-maximal inhibition (IC50 value) of 27 nM, while wild-type BeKm-1 inhibited hERG channels with an IC50 value of 7 nM.

New binding site on common molecular scaffold provides HERG channel specificity of scorpion toxin BeKm-1.

The scorpion toxin BeKm-1 is unique among a variety of known short scorpion toxins affecting potassium channels in its selective action on ether-a-go-go-related gene (ERG)-type channels. BeKm-1 shares the common molecular scaffold with other short scorpion toxins. The toxin spatial structure resolved by NMR consists of a short alpha-helix and a triple-stranded antiparallel beta-sheet.

An ERG channel inhibitor from the scorpion Buthus eupeus.

The isolation of the peptide inhibitor of M-type K(+) current, BeKm-1, from the venom of the Central Asian scorpion Buthus eupeus has been described previously (Fillipov A. K., Kozlov, S.

Analysis of ectatomin action on cell membranes.

Ectatomin (m = 7928 Da) is a toxic component from the Ectatomma tuberculatum ant venom containing two homologous polypeptide chains (37 and 34 residues) linked to each other by a disulfide bond. In aqueous solution it forms a four alpha-helix bundle. At concentrations of 0.

[Molecular cloning and primary structure of cDNA fragment for alpha-latrocrustatoxin from black widow spider venom].

A fragment of the structural gene of alpha-latrocrustotoxin, a new representative of latrotoxins from black widow spider venom, was cloned. The fragment (1191 bp) was obtained by means of PCR based on the data obtained by sequencing tryptic peptides of the toxin. The fragment codes for a 397-aa sequence.

[Recombinant proteins containing amino acid sequences of two ectatomin chains].

Artificial genes for chains A and B of ectatomin, an Ectatomma tuberculatum ant toxin, were obtained by chemical and enzymic synthesis and cloned into new plasmid vectors. Expression plasmids with the genes of hybrid proteins were constructed containing human interleukin-3 or its terminal 63-mer fragment as well as chains A and B of ectatomin, which are linked via a region containing the cleavage site of specific protease, enterokinase (hybrid proteins IL3ETOXA, IL3ETOXB, ILETOXA, and ILETOXB). Escherichia coli producer strains providing a high yield of IL3ETOXA and IL3ETOXB proteins as inclusion bodies were obtained.

[Isolation and partial structural characteristics of major toxic components of Latrodectus pallidus venom].

Toxic components of the Latrodectus pallidus spider venom were isolated and characterized. The venom was shown to contain a toxin specific for mammals and at least one insectospecific toxin. Partial amino acid sequences of both toxins were determined, and their high structural homology with previously studied alpha-latrotoxin and alpha-latroinsectotoxin from L.

Three-dimensional structure of toxin OSK1 from Orthochirus scrobiculosus scorpion venom.

A 600 MHz 1H NMR study of toxin OSK1, blocker of small-conductance Ca2+-activated K+ channels, is presented. The unambiguous sequential assignment of all the protons of the toxin was obtained using TOCSY, DQF-COSY, and NOESY experiments at pH 3.0 (10, 30, and 45 degrees C) in aqueous solution.

M-type K+ current inhibition by a toxin fron the scorpion Buthus eupeus.

A number of invertebrate venoms have been tested for effects on M-type K+ currents (IK(M)) in differentiated mouse neuroblastoma X rat glioma NG108-15 cells. Among the venoms tested, Buthus eupeus scorpion venom reversibly inhibited IK(M) by approximately 44% at 50 microgram/ml. Inhibition was not due to activation of bradykinin or nucleotide (pyrimidine) receptors.

Cloning and structure of delta-latroinsectotoxin, a novel insect-specific member of the latrotoxin family: functional expression requires C-terminal truncation.

The venom of the black widow spider (BWSV) (Latrodectus mactans tredecimguttatus) contains several potent, high molecular mass (>110 kDa) neurotoxins that cause neurotransmitter release in a phylum-specific manner. The molecular mechanism of action of these proteins is poorly understood because their structures are largely unknown, and they have not been functionally expressed. This study reports on the primary structure of delta-latroinsectotoxin (delta-LIT), a novel insect-specific toxin from BWSV, that contains 1214 amino acids.

[Primary structure of delta-latroinsectotoxin from venom of the Latrodectus mactans tredecimguttatus spider].

The structural gene of delta-latroinsectotoxin was cloned and its nucleotide sequence was determined. The gene contains an open reading frame of 3642 bp. The deduced amino acid sequence is homologous to the sequences of latrotoxins studied earlier.

[Protein composition of venoms from several species of tropical ants and their effect on mitochondrial H+-ATPase].

Protein compositions of venoms of South-American stinging ants, Ectatomma tuberculatum, Paraponera clavata (subfamily Ponerinae), and "tangarana" were analyzed. The venom of E. tuberculatum displayed the most complex protein composition (more than 15 polypeptides).

Low molecular weight components from black widow spider venom.

Highly purified alpha-latrotoxin from the black widow spider venom (alpha-LTX) consists of two polypeptides with mol. wts of 130,000 and 8000 (LMWP). We have isolated two low mol.

Three-dimensional structure of ectatomin from Ectatomma tuberculatum ant venom.

Two-dimensional 1H NMR techniques were used to determine the spatial structure of ectatomin, a toxin from the venom of the ant Ectatomma tuberculatum. Nearly complete proton resonance assignments for two chains of ectatomin (37 and 34 amino acid residues, respectively) were obtained using 2D TOCSY, DQF-COSY and NOESY experiments. The cross-peak volumes in NOESY spectra were used to define the local structure of the protein and generate accurate proton-proton distance constraints employing the MARDIGRAS program.

Toxic principle of selva ant venom is a pore-forming protein transformer.

Ectatomin (Ea) is a newly isolated main toxic component of Ectatomma tuberculatum ant venom. Structural and electrophysiological studies were performed with purified Ea. The protein consists of two homologous polypeptide chains (37 and 34 residues) and forms a four alpha-helix bundle in aqueous solution.

Modulation of functional activities of the neurotoxin from black widow spider venom.

We have studied the action of an alpha-latrotoxin (alpha-LTX) complex of two polypeptides (LTX 130 kDa and low molecular weight protein (LMWP) 8 kDa) and the action of a venom fraction containing LTX with excess LMWP on calcium influx into synaptosomes and PC12 cells as well as on [14C]GABA release from synaptosomes. Both preparations considerably activate calcium influx and stimulate [14C]GABA release from synaptosomes. Preincubation of both preparations with antibodies against a 14 amino acid residue C-terminal peptide of LMWP differentially modulates these effects.

[Study of the amino acid sequence of latroinsectotoxin from black widow spider venom].

The N-terminal amino acid sequence of alpha-latroinsectotoxin from the venom of Latrodectus mactans tredecimguttatus was determined. Then the toxin was digested by trypsin and total or partial amino acid sequences of twenty-six tryptic peptides were established. This resulted in the structural information needed for the construction of probes followed by the cloning of the alpha-latroinsectotoxin structural gene.