Kv1.3 K+ channels play a central role in the regulation of T cell activation and Ca2+ signaling under physiological and pathophysiological conditions. Peptide toxins targeting Kv1.3 have a significant therapeutic potential in the... more
Kv1.3 K+ channels play a central role in the regulation of T cell activation and Ca2+ signaling under physiological and pathophysiological conditions. Peptide toxins targeting Kv1.3 have a significant therapeutic potential in the treatment of autoimmune diseases; thus, the discovery of new toxins is highly motivated. Based on the transcriptome analysis of the venom gland of V. mexicanus smithi a novel synthetic peptide, sVmKTx was generated, containing 36 amino acid residues. sVmKTx shows high sequence similarity to Vm24, a previously characterized peptide from the same species, but contains a Glu at position 32 as opposed to Lys32 in Vm24. Vm24 inhibits Kv1.3 with high affinity (Kd = 2.9 pM). However, it has limited selectivity (∼1,500-fold) for Kv1.3 over hKv1.2, hKCa3.1, and mKv1.1. sVmKTx displays reduced Kv1.3 affinity (Kd =770 pM) but increased selectivity for Kv1.3 over hKv1.2 (∼9,000-fold) as compared to Vm24, other channels tested in the panel (hKCa3.1, hKv1.1, hKv1.4, hKv1.5, rKv2.1, hKv11.1, hKCa1.1, hNav1.5) were practically insensitive to the toxin at 2.5 μM. Molecular dynamics simulations showed that introduction of a Glu instead of Lys at position 32 led to a decreased structural fluctuation of the N-terminal segment of sVmKTx, which may explain its increased selectivity for Kv1.3. sVmKTx at 100 nM concentration decreased the expression level of the Ca2+ -dependent T cell activation marker, CD40 ligand. The high affinity block of Kv1.3 and increased selectivity over the natural peptide makes sVmKTx a potential candidate for Kv1.3 blockade-mediated treatment of autoimmune diseases.
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From the cDNA libraries made from the venom glands of two scorpions belonging to the Vaejovidae family, four different putative non disulfide-bridged antimicrobial peptides were identified: VmCT1 and VmCT2 from Vaejovis mexicanus smithi... more
From the cDNA libraries made from the venom glands of two scorpions belonging to the Vaejovidae family, four different putative non disulfide-bridged antimicrobial peptides were identified: VmCT1 and VmCT2 from Vaejovis mexicanus smithi plus VsCT1 and VsCT2 from Vaejovis subcristatus. These short peptides (with only 13 amino acid residues each) share important amino acid sequence similarities among themselves and with other reported antimicrobial peptides, but their biological activities vary dramatically. This communication reports the cloning, chemical synthesis and characterization of these peptides. Two peptides, VmCT1 and VmCT2 showed broad-spectrum antibacterial activity with minimum inhibitory concentrations MICs in the range of 5-25 μM and 10-20 μM respectively, whereas their hemolytic activity at these concentrations was low. Structure-function relationships that might determine the differences in activities are discussed.
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Biochemistry, Physiology, Biology, Antimicrobial Peptides, Multidisciplinary, and 15 moreAnimal venoms and toxins, Animals, Peptides, Gene, SCORPIONS, Antimicrobial, Gram Positive Bacteria, Antimicrobial Cationic Peptides, Microbial Sensitivity Tests, Amino Acid Sequence, Erythrocytes, Recombinant Proteins, Hemolysis, Molecular Sequence Data, and Pharmacology and pharmaceutical sciences
The murine monoclonal antibody BCF2 is able to neutralize the venom of the scorpion Centruroides noxius Hoffmann. A chimeric Fab of BCF2 (chFab-BCF2) comprising the variable regions of murine BCF2 and human constant regions was assembled.... more
The murine monoclonal antibody BCF2 is able to neutralize the venom of the scorpion Centruroides noxius Hoffmann. A chimeric Fab of BCF2 (chFab-BCF2) comprising the variable regions of murine BCF2 and human constant regions was assembled. chFab-BCF2 was expressed as a soluble and functional protein in the periplasmic space of Escherichia coli. An expression yield of 1 mg/l was reached by combination of late-log-phase induction, rich culture medium, low expression temperature and addition of sucrose (0.3 M) to the culture medium. The addition of sucrose induced secretion of 60% of the protein into the medium. After expression for 23 h, a novel process was used to release the remaining periplasmic protein in situ consisting in the addition of lysozyme and sucrose up to 0.6 M (20%) directly to the culture medium. chFab-BCF2 was recovered by ammonium sulfate precipitation and purified in a single step by affinity chromatography using anti-human anti-F(ab')(2) IgG coupled to Sepharose-proteinG. Pure chFab-BCF2 maintained a similar nanomolar affinity as BCF2 to its cognate antigen, the Na(+)-channel-affecting toxin Cn2. Recombinant chFab-BCF2 was able to neutralize Cn2 in vivo even at a molar ratio of 1:1, as well as the whole venom of C. noxius. Thus, it is a promising candidate to be used as a specific and efficient recombinant antidote against scorpion stings.
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Chemistry, Molecular Biology, Medicine, Gene expression, Escherichia coli, and 15 moreMice, Animals, Monoclonal Antibodies, Affinity chromatography, Neurotoxins, Recombinant DNA, Molecular cloning, Monoclonal Antibody, Neutralization, Toxicon, Ammonium Sulfate, culture medium, Neutralization tests, Antivenins, and Pharmacology and pharmaceutical sciences
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Biophysics, Chemistry, Electrophysiology, Kinetics, Flow Cytometry, and 15 moreBiology, Medicine, Humans, Biochemical, Medical Physiology, Lymphocytes, Membrane Potential, Extracellular, Patch Clamp, Barbiturates, Biochemistry and cell biology, fluorescent dyes, Medical and Health Sciences, Medical biochemistry and metabolomics, and human lymphocyte
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Biology, Medicine, Structural Analysis, Sequence alignment, Animals, and 13 moreInsects, Venom, SCORPIONS, Toxin, Amino Acid Profile, Molecular Mass, Scorpion, Amino Acid Sequence, Toxicon, Molecular Structure, Molecular Sequence Data, Sequence Comparison, and Pharmacology and pharmaceutical sciences
Centruroides huichol 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... more
Centruroides huichol 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. Thus, scFv 10FG2 was subjected to three processes of directed evolution and phage display against Chui5 toxin until obtaining scFv HV. Interaction kinetic constants of these scFvs with the toxins were determined by surface plasmon resonance (SPR) as well as thermodynamic parameters of scFv variants bound to Chui5. In silico models allowed to analyze the molecular interactions that favor the increase in affinity. In a rescue trial, scFv HV protected 100% of the mice injected with three lethal doses 50 (LD50) of venom. Moreover, in mix-type neutralization assays, a combination of scFvs HV and 10FG2 protected 100% of mice injected with 5 LD50 of venom with moderate signs of intoxication. The ability of...
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A fundamental issue of the characterization of single-chain variable fragments (scFvs), capable of neutralizing scorpion toxins, is their cross-neutralizing ability. This aspect is very important in Mexico because all scorpions dangerous... more
A fundamental issue of the characterization of single-chain variable fragments (scFvs), capable of neutralizing scorpion toxins, is their cross-neutralizing ability. This aspect is very important in Mexico because all scorpions dangerous to humans belong to the Centruroides genus, where toxin sequences show high identity. Among toxin-neutralizing antibodies that were generated in a previous study, scFv 10FG2 showed a broad cross-reactivity against several Centruroides toxins, while the one of scFv LR is more limited. Both neutralizing scFvs recognize independent epitopes of the toxins. In the present work, the neutralization capacity of these two scFvs against two medically important toxins of the venom of Centruroides sculpturatus Ewing was evaluated. The results showed that these toxins are recognized by both scFvs with affinities between 1.8 × 10−9 and 6.1 × 10−11 M. For this reason, their ability to neutralize the venom was evaluated in mice, where scFv 10FG2 showed a better pro...
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Six peptides, belonging to the NDBP-4 family of scorpion antimicrobial peptides were structurally and functionally characterized. The sequence of the mature peptides VpCT1, VpCT2, VpCT3 and VpCT4 was inferred by transcriptomic analysis of... more
Six peptides, belonging to the NDBP-4 family of scorpion antimicrobial peptides were structurally and functionally characterized. The sequence of the mature peptides VpCT1, VpCT2, VpCT3 and VpCT4 was inferred by transcriptomic analysis of the venom gland of the scorpion Mesomexovis variegatus. Analysis of their amino acid sequences revealed patterns that are also present in previously reported peptides that show differences in their hemolytic and antimicrobial activities in vitro. Two other variants, VpCT3W and VpCTConsensus were designed to evaluate the effect of sequence changes of interest on their structure and activity. The synthesized peptides were evaluated by circular dichroism to confirm their α-helical conformation in a folding promoting medium. The peptides were assayed on two Gram-positive and three Gram-negative bacterial strains, and on two yeast strains. They preferentially inhibited the growth of Staphylococcus aureus, were mostly ineffective on Pseudomonas aeruginosa, and moderately inhibited the growth of Candida yeasts. All six peptides exhibited hemolytic activity on human erythrocytes in the range of 4.8-83.7 μM. VpCT3W displayed increased hemolytic and anti-yeast activities, but showed no change in antibacterial activity, relative to its parental peptide, suggesting that Trp6 may potentiate the interaction of VpCT3 with eukaryotic cell membranes. VpCTConsensus showed broader and enhanced antimicrobial activity relative to several of the natural peptides. The results presented here contribute new information on the structure and function of NDBP-4 antimicrobial peptides and provides clues for the design of less hemolytic and more effective antimicrobial peptides.
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Biochemistry, Biology, Antimicrobial Peptides, Medicine, Peptides, and 3 moreVenom, Peptide, and Antimicrobial
Seven toxic peptides from the venom of Tityus bahiensis and Tityus stigmurus were isolated and sequenced, five of them to completion. The most abundant peptide from each of these two species of scorpion was 95% identical with that of... more
Seven toxic peptides from the venom of Tityus bahiensis and Tityus stigmurus were isolated and sequenced, five of them to completion. The most abundant peptide from each of these two species of scorpion was 95% identical with that of toxin γ from the venom of Tityus serrulatus. They were consequently named γ-b and γ-st respectively. The genes encoding these new γ-like peptides were cloned and sequenced by utilizing oligonucleotides synthesized according to known cDNA sequences of toxin γ, and amplified by PCR on templates of DNA purified from both T. bahiensis and T. stigmurus. They contain an intron of approx. 470 bp. Possible mechanisms of processing and expressing these peptides are discussed, in view of the fact that glycine is the first residue of the N-terminal sequence of T. stigmurus, whereas lysine is the residue at position 1 of toxin γ from T. serrulatus and T. bahiensis. In addition, chemical characterization of the less abundant toxic peptides showed the presence of at ...
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ABSTRACT The detailed knowledge of the medically important components within the venoms from poisonous animals has prompted the rational generation of improved antivenoms. The new generation of antivenoms, in the case of scorpion... more
ABSTRACT The detailed knowledge of the medically important components within the venoms from poisonous animals has prompted the rational generation of improved antivenoms. The new generation of antivenoms, in the case of scorpion envenoming, will be based on the neutralization of the toxins directed against mammalian ion channels, specifically sodium channels. The neutralization of the major toxic molecules declines the lethality of the whole venom. The next generation of antivenoms will depend substantially on the advancements in the field of antibody engineering. The accumulation of detailed information of antibody structure and function proposes that human recombinant antibodies in combination with phage display and directed evolution as a powerful in vitro biotechnological platform alternative to classical antivenoms or monoclonal antibodies for the generation of outstanding therapeutic antibodies. This biotechnological platform has allowed the isolation of safe and efficient recombinant neutralizing antibodies. Many antibody fragments generated using this platform bear exceptional properties that had not been reached using classical approaches. This review describes the great progress that has been achieved on the improvement of antivenoms against scorpion envenoming which have been generated using the already mentioned platform as compared with classical and/or hybridoma approaches.
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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... more
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. Although C-terminal amidation in vitro conditions is possible, five CssII peptide toxin variants with C-terminal residues modified were heterologously expressed (rN66S, rN66H, rN66R, r[T64R/N66S] and r[T64R/N66R], in which r stands for recombinant, the capital letters to the amino acid residues and the numbers indicate the position of the given residue into the primary sequence of the toxin) and correctly folded. A secondary structure prediction of CssII agrees with the experimental secondary structure obtained by circular dichroism; so all bacterial expressed neurotoxin variants maintained the typical α/β secondary structure motif of most Na(+) channel scorpion toxins. The electrophysiological properties of all recombinant variants were examined, and it was found that substitutions of threonine (T) and asparagine (N) at the C-terminal region for arginine (R) (r[T64R/N66R]) increase their affinity for Nav1.6. Although, the molecular interactions involved in this mechanism are still not clearly determined, there is experimental evidence supporting the suspicion that incorporation of basic charged amino acid residues at the C-terminal tail of a group of α-scorpion toxin was favored by natural selection.
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Physiology, Chemistry, Protein Folding, Medicine, Natural Selection, and 15 moreHumans, Circular Dichroism, Animals, Peptides, Peptide, Recombinant DNA, Protein Secondary Structure Prediction, Neurotoxin, Amino Acid Profile, Amino Acid Sequence, Asparagine, Molecular Interactions, Nav, Molecular Sequence Data, and Pharmacology and pharmaceutical sciences
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Two toxic and one non-toxic recombinant peptide variants of the mammalian neurotoxin CssII was cloned into the expression vector pQE30 containing a 6His-tag and a Factor Xa proteolytic cleavage site. The toxic recombinant peptides rCssII,... more
Two toxic and one non-toxic recombinant peptide variants of the mammalian neurotoxin CssII was cloned into the expression vector pQE30 containing a 6His-tag and a Factor Xa proteolytic cleavage site. The toxic recombinant peptides rCssII, HisrCssII and the non-toxic rCssIIE15R were expressed under induction with isopropyl thiogalactoside (IPTG), isolated using chromatographic techniques and folded correctly in vitro. The three recombinant variants showed similar secondary structures as the native CssII, but only the rCssIIE15R was not toxic to mice at concentrations up to 30microg/20g mouse body weight when injected intraperitoneally. All three recombinant peptides were capable of displacing the native CssII from their receptor sites in rat brain synaptosomes, suggesting that they had similar structural and functional characteristics of the native peptides. The three recombinant variants of CssII and the native one were used as antigens for immunization of New Zealand rabbits. The antibodies present in the rabbit antisera were able to recognize the native CssII. Additionally and more importantly, the sera of the immunized rabbits were able to neutralize both the native toxin CssII and the whole soluble venom of the scorpion Centruroides suffusus suffusus. These results indicate that the recombinant peptides can be used to produce antidotes against the venom of this species of scorpion.
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The first example of a new sub‐family of toxins (α‐KTx20.1) from the scorpion Tityus trivittatus was purified, sequenced and characterized physiologically. It has 29 amino acid residues, three disulfide bridges assumed to adopt the... more
The first example of a new sub‐family of toxins (α‐KTx20.1) from the scorpion Tityus trivittatus was purified, sequenced and characterized physiologically. It has 29 amino acid residues, three disulfide bridges assumed to adopt the cysteine‐stabilized α/β scaffold with a pI value of 8.98. The sequence identities with all the other known α‐KTx are less than 40%. Its effects were verified using seven different cloned K+ channels (vertebrate Kv1.1–1.5, Shaker IR and hERG) expressed in Xenopus leavis oocytes. The toxin‐induced effects show large differences among the different K+ channels and a preference towards Kv1.3 (EC50 = 7.9 ± 1.4 nM).
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Chemistry, Medicine, Humans, Animals, T Cell, and 15 moreDrug Design, T lymphocytes, Immune system, Current, Small Molecule, Protein Conformation, T cell activation, Pyrazoles, Amino Acid Sequence, Quinolines, Structure activity Relationship, Molecular Structure, Molecular Sequence Data, Immunosuppressive Agents, and Pharmacology and pharmaceutical sciences
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Biophysics, Fluorescence Spectroscopy, Biology, Calcium, Medicine, and 15 moreSignal Transduction, Sperm, Animals, Male, Reaction Time, Chemotaxis, Sea Urchins, Sea Urchin, Protein Binding, Fluorometry, Biochemistry and cell biology, Intracellular, Fluorescence quenching, fluorescent dyes, and Medical biochemistry and metabolomics
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Biology, Antimicrobial Peptides, Medicine, Biological Sciences, Cercopithecus aethiops, and 15 moreHumans, Escherichia coli, Mice, Animals, Bacteria, Staphylococcus aureus, Physical sciences, Peptides, Peptide, Antimicrobial, Antibiotics, Antimalarials, Antiparasitic activity, Biochemistry and cell biology, and Plasmodium berghei
Seven new peptides denominated CboK1 to CboK7 were isolated from the venom of the Mexican scorpion Centruroides bonito and their primary structures were determined. The molecular weights ranged between 3760.4 Da and 4357.9 Da, containing... more
Seven new peptides denominated CboK1 to CboK7 were isolated from the venom of the Mexican scorpion Centruroides bonito and their primary structures were determined. The molecular weights ranged between 3760.4 Da and 4357.9 Da, containing 32 to 39 amino acid residues with three putative disulfide bridges. The comparison of amino acid sequences with known potassium scorpion toxins (KTx) and phylogenetic analysis revealed that CboK1 (α-KTx 10.5) and CboK2 (α-KTx 10.6) belong to the α-KTx 10.x subfamily, whereas CboK3 (α-KTx 2.22), CboK4 (α-KTx 2.23), CboK6 (α-KTx 2.21), and CboK7 (α-KTx 2.24) bear > 95% amino acid similarity with members of the α-KTx 2.x subfamily, and CboK5 is identical to Ce3 toxin (α-KTx 2.10). Electrophysiological assays demonstrated that except CboK1, all six other peptides blocked the Kv1.2 channel with Kd values in the picomolar range (24–763 pM) and inhibited the Kv1.3 channel with comparatively less potency (Kd values between 20–171 nM). CboK3 and CboK4 inh...
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While alpha-KTx peptides are generally known for their modulation of the Shaker-type and the Ca(2+)-activated potassium channels, gamma-KTxs are associated with hERG channels modulation. An exception to the rule is BmTx3 which belongs to... more
While alpha-KTx peptides are generally known for their modulation of the Shaker-type and the Ca(2+)-activated potassium channels, gamma-KTxs are associated with hERG channels modulation. An exception to the rule is BmTx3 which belongs to subfamily alpha-KTx15 and can block hERG channels. To explain the peculiar behavior of BmTx3, a tentative "hot spot" formed of 2 basic residues (R18 and K19) was suggested but never further studied [Huys I, et al. BmTx3, a scorpion toxin with two putative functional faces separately active on A-type K(+) and HERG currents. Biochem J 2004;378:745-52]. In this work, we investigated if the "hot spot" is a commonality in subfamily alpha-KTx15 by testing the effect of (AmmTx3, Aa1, discrepin). Furthermore, single mutations altering the "hot spot" in discrepin, have introduced for the very first time a hERG blocking activity to a previously non-active alpha-KTx. Additionally, we could extend our results to other alpha-KTx subfamily members belonging to alpha-KTx1, 4 and 6, therefore, the "hot spot" represents a common pharmacophore serving as a predictive tool for yet to be discovered alpha-KTxs.
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Animal venoms are rich sources of ligands for studying ion channels and other pharmacological targets. Proteomic analyses of the soluble venom from the Mexican scorpion Vaejovis mexicanus smithi showed that it contains more than 200... more
Animal venoms are rich sources of ligands for studying ion channels and other pharmacological targets. Proteomic analyses of the soluble venom from the Mexican scorpion Vaejovis mexicanus smithi showed that it contains more than 200 different components. Among them, a 36-residue peptide with a molecular mass of 3864 Da (named Vm24) was shown to be a potent blocker of Kv1.3 of human lymphocytes (K(d) ∼ 3 pM). The three-dimensional solution structure of Vm24 was determined by nuclear magnetic resonance, showing the peptide folds into a distorted cystine-stabilized α/β motif consisting of a single-turn α-helix and a three-stranded antiparallel β-sheet, stabilized by four disulfide bridges. The disulfide pairs are formed between Cys6 and Cys26, Cys12 and Cys31, Cys16 and Cys33, and Cys21 and Cys36. Sequence analyses identified Vm24 as the first example of a new subfamily of α-type K(+) channel blockers (systematic number α-KTx 23.1). Comparison with other Kv1.3 blockers isolated from scorpions suggests a number of structural features that could explain the remarkable affinity and specificity of Vm24 toward Kv1.3 channels of lymphocytes.
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Biology, Medicine, Structural Analysis, Sequence alignment, Animals, and 13 moreInsects, Venom, SCORPIONS, Toxin, Amino Acid Profile, Molecular Mass, Scorpion, Amino Acid Sequence, Toxicon, Molecular Structure, Molecular Sequence Data, Sequence Comparison, and Pharmacology and pharmaceutical sciences
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The venom of the scorpion Tityus costatus contains peptides toxic to humans but scarce information on their structure and function is available. Here, we report the separation of 50 different components by high performance liquid... more
The venom of the scorpion Tityus costatus contains peptides toxic to humans but scarce information on their structure and function is available. Here, we report the separation of 50 different components by high performance liquid chromatography and the identification of approximately 90 distinct components by mass spectrometry analysis, with molecular weights varying from 413 to 45482 atomic mass units. Four peptides were fully sequenced: (i) a butantoxin-like peptide that blocks Shaker K+ channel; (ii) an insect toxin-like peptide; (iii) a scorpine-like peptide, and a short heptapeptide of unknown function. Fifteen peptides were directly sequenced at the N-terminal region, among which are components toxic to mice. A cDNA library was constructed and 13 clones were isolated and sequenced. Some of these peptides and genes are similar to other known scorpion toxins. Based on these results, stings by scorpions of the species Tityus costatus should be taken with caution by medical doctors.
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Mass Spectrometry, Biology, Brazil, Medicine, Protein Structure and Function, and 15 moreCell line, Mice, Animals, Peptides, Gene, Peptide, High Performance Liquid Chromatography, Gen, Potassium Channels, Molecular weight, Amino Acid Sequence, Base Sequence, cDNA library, Molecular Sequence Data, and Pharmacology and pharmaceutical sciences
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Electrophysiology, Mass Spectrometry, Biology, Medicine, Mexico, and 15 morePhylogeny, Cell line, Humans, Animals, Peptides, SCORPIONS, Organophosphorus Compounds, Peptide, MEXICO, Amino Acid Sequence, Bayes Theorem, Enzyme Linked Immunosorbent Assay, Molecular Sequence Data, Edman degradation, and Pharmacology and pharmaceutical sciences
The murine monoclonal antibody BCF2 is able to neutralize the venom of the scorpion Centruroides noxius Hoffmann. A chimeric Fab of BCF2 (chFab-BCF2) comprising the variable regions of murine BCF2 and human constant regions was assembled.... more
The murine monoclonal antibody BCF2 is able to neutralize the venom of the scorpion Centruroides noxius Hoffmann. A chimeric Fab of BCF2 (chFab-BCF2) comprising the variable regions of murine BCF2 and human constant regions was assembled. chFab-BCF2 was expressed as a soluble and functional protein in the periplasmic space of Escherichia coli. An expression yield of 1 mg/l was reached by combination of late-log-phase induction, rich culture medium, low expression temperature and addition of sucrose (0.3 M) to the culture medium. The addition of sucrose induced secretion of 60% of the protein into the medium. After expression for 23 h, a novel process was used to release the remaining periplasmic protein in situ consisting in the addition of lysozyme and sucrose up to 0.6 M (20%) directly to the culture medium. chFab-BCF2 was recovered by ammonium sulfate precipitation and purified in a single step by affinity chromatography using anti-human anti-F(ab')(2) IgG coupled to Sepharose-proteinG. Pure chFab-BCF2 maintained a similar nanomolar affinity as BCF2 to its cognate antigen, the Na(+)-channel-affecting toxin Cn2. Recombinant chFab-BCF2 was able to neutralize Cn2 in vivo even at a molar ratio of 1:1, as well as the whole venom of C. noxius. Thus, it is a promising candidate to be used as a specific and efficient recombinant antidote against scorpion stings.
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Chemistry, Molecular Biology, Medicine, Gene expression, Escherichia coli, and 15 moreMice, Animals, Monoclonal Antibodies, Affinity chromatography, Neurotoxins, Recombinant DNA, Molecular cloning, Monoclonal Antibody, Neutralization, Toxicon, Ammonium Sulfate, culture medium, Neutralization tests, Antivenins, and Pharmacology and pharmaceutical sciences
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Computational Biology, Biology, Proteomics, Medicine, Protein Structure and Function, and 15 moreGene Cloning, Expressed Sequence Tags, High throughput screening, Animals, Pediatric Surgery, Peptides, Expression, Gene, Molecular cloning, EST, Scorpion, Heterologous Expression, cDNA library, Gene expression profiling, and Pharmacology and pharmaceutical sciences
The soluble venom of the Mexican theraposid spider Brachypelma smithi was screened for insecticidal peptides based on toxicity to house crickets. An insecticidal peptide, named Bs1 (which stands for Brachypelma smithi toxin 1) was... more
The soluble venom of the Mexican theraposid spider Brachypelma smithi was screened for insecticidal peptides based on toxicity to house crickets. An insecticidal peptide, named Bs1 (which stands for Brachypelma smithi toxin 1) was obtained in homogeneous form after the soluble venom was fractionated using reverse-phase and cation-exchange chromatography. It contains 41 amino acids cross-linked by three disulfide bridges. Its sequence is similar to an insecticidal peptide isolated from the theraposid spider Ornithoctonus huwena from China, and another from the hexathelid spider Macrothelegigas from Japan, indicating that they are phylogenetically related. A cDNA library was prepared from the venomous glands of B. smithi and the gene that code for Bs1 was cloned. Sequence analysis of the nucleotides of Bs1 showed similarities to that of the hexathelid spider from Japan proving additional evidence for close genetic relationship between these spider peptides. The mRNAs of these toxins code for signal peptides that are processed at the segment rich in acidic and basic residues. Their C-terminal amino acids are amidated. However, they contain only a glycine residue at the most C-terminal position, without the presence of additional basic amino acid residues, normally required for post-translation processing of other toxins reported in the literature. The possible mechanism of action of Bs1 was investigated using several ion channels as putative receptors. Bs1 had minor, but significant effects on the Para/tipE insect ion channel, which could indirectly correlate with the observed lethal activity to crickets.
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Molecular Dynamics Simulation, Modeling, Biology, Molecular Pharmacology, Medicine, and 15 moreMolecular, Cercopithecus aethiops, Cell line, Humans, Animals, Channel, Function, Australian, Molecular weight, Amino Acid Sequence, Medicine and Health Sciences, Neurosciences, Molecular Sequence Data, CHO cells, and isolated
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Chemistry, Biology, Molecular Pharmacology, Medicine, Cercopithecus aethiops, and 15 moreIn Vitro, Humans, Autoimmune diseases, Female, Animals, Calcium Signaling, Peptides, SCORPIONS, Peptide, In Vivo, Rats, Cell Proliferation, Neurosciences, Immunosuppressive Agents, and Pharmacology and pharmaceutical sciences
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Chemistry, Biology, Phospholipids, Biological Chemistry, Medicine, and 15 moreBiological Sciences, Insecticides, Circular Dichroism, Animals, Bacteria, Biological, Neurotoxins, High Pressure Liquid Chromatography, CHEMICAL SCIENCES, Cooperativity, Lethal Dose, Amino Acid Sequence, Hemolysis, Molecular Sequence Data, and Medical and Health Sciences
Using high-performance liquid chromatography Tst26, a novel potassium channel blocker peptide, was purified from the venom of the Brazilian scorpion Tityus stigmurus. Its primary structure was determined by means of automatic Edman... more
Using high-performance liquid chromatography Tst26, a novel potassium channel blocker peptide, was purified from the venom of the Brazilian scorpion Tityus stigmurus. Its primary structure was determined by means of automatic Edman degradation and mass spectrometry analysis. The peptide is composed of 37 amino acid residues and tightly folded through three disulfide bridges, similar to other K(+) channel blocking peptides purified from scorpion venoms. It contains the "essential dyad" for K(+) channel recognition comprised of a lysine at position 27 and a tyrosine at position 36. Electrophysiological assays revealed that Tst26 blocked hKv1.2 and hKv1.3 channels with high affinity (K(d)=1.9 nM and 10.7 nM, respectively) while it did not affect several other ion channels (mKv1.1, hKv1.4, hKv1.5, hERG, hIKCa1, hBK, hNav1.5) tested at 10 nM concentration. The voltage-dependent steady-state parameters of K(+) channel gating were unaffected by the toxin in both channels, but due...
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Chemistry, Kinetics, Mass Spectrometry, Medicine, Cercopithecus aethiops, and 15 moreCell line, Humans, Animals, HERG, Peptides, Venom, SCORPIONS, Peptide, High Performance Liquid Chromatography, Steady state, Amino Acid Sequence, Toxicon, Molecular Sequence Data, Edman degradation, and Pharmacology and pharmaceutical sciences
Among the scorpion venom components whose function are poorly known or even show contrasting pharmacological results are those called... more
Among the scorpion venom components whose function are poorly known or even show contrasting pharmacological results are those called "orphan peptides". The most widely distributed are named beta-KTx or scorpine-like peptides. They contain three disulfide bridges with two recognizable domains: a freely moving N-terminal amino acid sequence and a tightly folded C-terminal region with a cysteine-stabilized alpha/beta (CS-alphabeta) motif. Four such peptides and three cloned genes are reported here. They were assayed for their cytolytic, antimicrobial and K (+) channel-blocking activities. Two main characteristics were found: the existence of an unusual structural and functional diversity, whereby the full-length peptide can lyse cells or kill microorganisms, and a C-terminal domain containing the CS-alphabeta motif that can block K (+) channels. Furthermore, sequence analyses and phylogenetic reconstructions are used to discuss the evolution of this type of peptide and to highlight the versatility of the CS-alphabeta structures.