Characterization of Four Medically Important Toxins from Scorpion Venom and Its Neutralization by a Single Recombinant Antibody Fragment.

scorpion venom is lethal to mammals. Analysis of the venom allowed the characterization of four lethal toxins named Chui2, Chui3, Chui4, and Chui5. scFv 10FG2 recognized well all toxins except Chui5 toxin, therefore a partial neutralization of the venom was observed.

Colombian Scorpion : Purification and Characterization of a Gamma Potassium Toxin with Full-Block Activity on the hERG1 Channel.

The Colombian scorpion produces a venom considered of low toxicity. Nevertheless, there are known cases of envenomation resulting in cardiovascular disorders, probably due to venom components that target ion channels. Among them, the gene (hERG1) potassium channels are critical for cardiac action potential repolarization and alteration in its functionality are associated with cardiac disorders.

Head-to-Tail Cyclization after Interaction with Trypsin: A Scorpion Venom Peptide that Resembles Plant Cyclotides.

Peptidase inhibitors (PIs) have been broadly studied due to their wide therapeutic potential for human diseases. A potent trypsin inhibitor from scorpion venom was characterized and named ToPI1, with 33 amino acid residues and three disulfide bonds. The X-ray structure of the ToPI1:trypsin complex, in association with the mass spectrometry data, indicate a sequential set of events: the complex formation with the inhibitor Lys in the trypsin S1 pocket, the inhibitor C-terminal residue Ser cleavage, and the cyclization of ToPI1 via a peptide bond between residues Ile and Lys.

Functional, proteomic and transcriptomic characterization of the venom from Micrurus browni browni: Identification of the first lethal multimeric neurotoxin in coral snake venom.

Proteomic characterization of Micrurus browni browni venom showed approximately 41 components belonging to 9 protein families, mainly phospholipases A (PLAs) and three-finger toxins (3FTxs). Venom gland transcriptome yielded 39 venom transcripts belonging to 10 protein families. Functional characterization identified a multimeric toxin, here designated Brownitoxin-1, which comprises at least one PLA and one 3FTx.

Biochemical, electrophysiological and immunological characterization of the venom from Centruroides baergi, a new scorpion species of medical importance in Mexico.

In this communication the isolation, chemical and physiological characterization of three new toxins from the scorpion Centruroides baergi are reported. Their immunoreactive properties with scFvs generated in our group are described. The three new peptides, named Cb1, Cb2 and Cb3 affect voltage-dependent Na channels in a differential manner.

New insights into the proteomic characterization of the coral snake Micrurus pyrrhocryptus venom.

A proteomic analysis of the soluble venom of the coral snake Micrurus pyrrhocryptus is reported in this work. The whole soluble venom was separated by RP-HPLC and the molecular weights of its components (over 100) were determined by mass spectrometry. Three main sets of components were identified, corresponding to peptides with molecular masses from 5 to 8 kDa, proteins from 12 to 16 kDa and proteins from 20 to 30 kDa.

Mass fingerprinting and electrophysiological analysis of the venom from the scorpion (Scorpiones: Buthidae).

Background: , of the family Buthidae, is a scorpion endemic to the Western Pacific region of Mexico. Although medically important, its venom has not yet been studied. Therefore, this communication aims to identify their venom components and possible functions.

Cloning and sequencing of three-finger toxins from the venom glands of four Micrurus species from Mexico and heterologous expression of an alpha-neurotoxin from Micrurus diastema.

The three-finger toxins (3FTxs) represent an extremely diverse protein family in elapid venoms, where the short chain α-neurotoxins are the most relevant toxin group from the clinical point of view. Essentially, the 3FTxs variability and the low proportions of α-neurotoxins in the venoms of North American coral snakes make it difficult to obtain effective elapid antivenoms against the envenomation symptoms caused mainly by these α-neurotoxins. In this work, thirty 3FTx transcript sequences were obtained from the venom glands of four coral snake species from Mexico (M.

Intraspecific variation of Centruroides sculpturatus scorpion venom from two regions of Arizona.

This study investigated geographic variability in the venom of Centruroides sculpturatus scorpions from different biotopes. Venom from scorpions collected from two different regions in Arizona; Santa Rita Foothills (SR) and Yarnell (Yar) were analyzed. We found differences between venoms, mainly in the two most abundant peptides; SR (CsEv2e and CsEv1f) and Yar (CsEv2 and CsEv1c) identified as natural variants of CsEv1 and CsEv2.

Antivenom Evaluation by Electrophysiological Analysis.

Scorpion stings on humans are medically relevant because they may contain toxins that specifically target ion channels. During antivenom production, pharmaceutical companies must use a large number of experimental animals to ensure the antivenom's efficacy according to pharmacopeia methods. Here we present an electrophysiological alternative for the evaluation of horse antivenoms produced against two species of Moroccan scorpions: and .

Functional and immuno-reactive characterization of a previously undescribed peptide from the venom of the scorpion Centruroides limpidus.

A previously undescribed toxic peptide named Cl13 was purified from the venom of the Mexican scorpion Centruroides limpidus. It contains 66 amino acid residues, including four disulfide bonds. The physiological effects assayed in 7 different subtypes of voltage gated Na-channels, showed that it belongs to the β-scorpion toxin type.

Biochemical and physiological characterization of a new Na(+)-channel specific peptide from the venom of the Argentinean scorpion Tityus trivittatus.

A new peptide with 61 amino acids cross-linked by 4 disulfide bridges, with molecular weight of 6938.12Da, and an amidated C-terminal amino acid residue was purified and characterized. The primary structure was obtained by direct Edman degradation and sequencing its gene.

A proteomic analysis of the early secondary molecular effects caused by Cn2 scorpion toxin on neuroblastoma cells.

Unlabelled: Although the primary physiological effects produced by scorpion toxins are already well known, most of the secondary molecular events following scorpion neurotoxins-ion channel interactions are poorly understood and described. For this reason, we used a proteomic approach to determine the changes in relative protein abundance in F11 mouse neuroblastoma cells treated with Cn2, the major β-toxin from the venom of the scorpion Centruroides noxius Hoffmann. Here we show that the relative abundance of 24 proteins changed after Cn2 treatment.

Proteomic characterization of the venom and transcriptomic analysis of the venomous gland from the Mexican centipede Scolopendra viridis.

Unlabelled: This communication reports the results of proteomic, transcriptomic, biochemical and electrophysiological analysis of the soluble venom and venom glands of the Mexican centipede Scolopendra viridis Say (here thereafter abbreviated S. viridis). Separation of the soluble venom permitted to obtain 54 different fractions, from which a mass finger printing analysis permitted the identification of at least 86 components, where 70% of the molecules have low molecular masses.

Structure, molecular modeling, and function of the novel potassium channel blocker urotoxin isolated from the venom of the Australian scorpion Urodacus yaschenkoi.

This communication reports the structural and functional characterization of urotoxin, the first K(+) channel toxin isolated from the venom of the Australian scorpion Urodacus yaschenkoi. It is a basic peptide consisting of 37 amino acids with an amidated C-terminal residue. Urotoxin contains eight cysteines forming four disulfide bridges with sequence similarities resembling the α-potassium channel toxin 6 (α-KTx-6) subfamily of peptides; it was assigned the systematic number of α-KTx-6.

Eastern coral snake Micrurus fulvius venom toxicity in mice is mainly determined by neurotoxic phospholipases A2.

Unlabelled: Here we show for the first time that the venom from an elapid (Micrurus fulvius) contains three finger toxin (3FTxs) peptides with low toxicity but high content of lethal phospholipases A2 (PLA2). The intravenous venom LD50 in mice was 0.3μg/g.

A K⁺ channel blocking peptide from the Cuban scorpion Rhopalurus garridoi.

A proteomic analysis of the venom obtained from the Cuban scorpion Rhopalurus garridoi was performed. Venom was obtained by electrical stimulation, separated by high performance liquid chromatography, and the molecular masses of their 50 protein components were identified by mass spectrometry. A peptide of 3940 Da molecular mass was obtained in pure form and its primary structure determined.

Characterization of a novel peptide toxin from Acanthoscurria paulensis spider venom: a distinct cysteine assignment to the HWTX-II family.

Spider venom toxins have raised interest in prospecting new drugs and pesticides. Nevertheless, few studies are conducted with tarantula toxins, especially with species found in Brazil. This study aims to characterize chemically and biologically the first toxin isolated from Acanthoscurria paulensis venom.

Molecular cloning and biochemical characterization of the first Na(+)-channel α-type toxin peptide (Acra4) from Androctonus crassicauda scorpion venom.

Due to the medical importance played in Turkey by stings of the scorpion Androctonus crassicauda, its venom has been studied with more attention. In this communication we report a new toxic peptide, named Acra4, because it is the fourth peptide completely characterized from venom of this scorpion. The peptide contains 64 amino acid residues stabilized by four disulfide bridges, with a molecular weight of 6937 Da.

Purification and cDNA cloning of a novel neurotoxic peptide (Acra3) from the scorpion Androctonus crassicauda.

Androctonus crassicauda is one of the Southeastern Anatolian scorpions of Turkey with ethno-medical and toxicological importance. Two toxic peptides (Acra1 and Acra2) were isolated and characterized from the venom of this scorpion. In this communication, the isolation of an additional toxin (Acra3) by chromatographic separations (HPLC and TSK-gel sulfopropyl) and its chemical and functional characterization is reported.

The new kappa-KTx 2.5 from the scorpion Opisthacanthus cayaporum.

The kappa-KTx family of peptides, which is the newest K⁺-channel blocker family from scorpion venom, is present in scorpions from the families Scorpionidae and Liochelidae. Differently from the other scorpion KTx families, the three-dimensional structure of the known kappa-KTxs toxins is formed by two parallel α-helices linked by two disulfide bridges. Here, the characterization of a new kappa-KTx peptide, designated kappa-KTx 2.

Addition of positive charges at the C-terminal peptide region of CssII, a mammalian scorpion peptide toxin, improves its affinity for sodium channels Nav1.6.

CssII is a β-scorpion peptide that modifies preferentially sodium currents of the voltage-dependent Na(+) channel (Nav) sub-type 1.6. Previously, we have found that the C-terminal amidation of CssII increases its affinity for Nav, which opens at more negative potentials in the presence of CssII.

Target promiscuity and heterogeneous effects of tarantula venom peptides affecting Na+ and K+ ion channels.

Venom-derived peptide modulators of ion channel gating are regarded as essential tools for understanding the molecular motions that occur during the opening and closing of ion channels. In this study, we present the characterization of five spider toxins on 12 human voltage-gated ion channels, following observations about the target promiscuity of some spider toxins and the ongoing revision of their "canonical" gating-modifying mode of action. The peptides were purified de novo from the venom of Grammostola rosea tarantulas, and their sequences were confirmed by Edman degradation and mass spectrometry analysis.