Your search keyword '"Darbon, A."' showing total 20 results

1. Chemosensory protein from the moth Mamestra brassicae: Expression and secondary structure from 1H and 15N NMR

Author

Campanacci, Valérie, Mosbah, Amor, Bornet, Olivier, Wechselberger, Rainer, Jacquin-Joly, Emmanuelle, Cambillau, Christian, Darbon, Hervé, and Tegoni, Mariella

Published

2001

2. Chemosensory protein from the mothMamestra brassicae

Author

Hervé Darbon, Olivier Bornet, Christian Cambillau, Valérie Campanacci, Amor Mosbah, Mariella Tegoni, Rainer Wechselberger, and Emmanuelle Jacquin-Joly

Subjects

Magnetic Resonance Spectroscopy, Molecular Sequence Data, Moths, Biology, medicine.disease_cause, Biochemistry, Protein Structure, Secondary, law.invention, Residue (chemistry), chemistry.chemical_compound, law, medicine, Animals, Amino Acid Sequence, Escherichia coli, Protein secondary structure, chemistry.chemical_classification, Nitrogen Isotopes, Sequence Homology, Amino Acid, Chemosensory protein, Periplasmic space, Recombinant Proteins, Amino acid, Monomer, chemistry, Recombinant DNA, Insect Proteins

Abstract

A group of ubiquitous small proteins (average 13 kDa) has been isolated from several sensory organs of a wide range of insect species. They are believed to be involved in chemical communication and perception (olfaction or taste) and have therefore been called chemo-sensory proteins (CSPs). Several CSPs have been identified in the antennae and proboscis of the moth Mamestra brassicae. We have expressed one of the antennal proteins (CSPMbraA6) in large quantities as a soluble recombinant protein in Escherichia coli periplasm. This 112-residue protein is a highly soluble monomer of 13 072 Da with a pI of 5.5. NMR data (1H and 15N) indicate that CSPMbraA6 is well folded and contains seven alpha helices (59 amino acids) and two short extended structures (12 amino acids) from positions 5 to 10 and from 107 to 112. Thirty-seven amino acids are involved in beta turns and coiled segments and four amino acids are not assigned in the NMR spectra (the N-terminus and the residue 52 in the loop 48-53), probably due to their mobility. This is the first report on the expression and structural characterization of a recombinant CSP.

Published

2001

3. Solution conformation of human neuropeptide Y by 1H nuclear magnetic resonance and restrained molecular dynamics

Author

Alain Roussel, Jacques Chenu, Christian Cambillau, Hervé Darbon, Jean-Marie Bernassau, and Colette Deleuze

Subjects

Models, Molecular, Magnetic Resonance Spectroscopy, Protein Conformation, Stereochemistry, Chemistry, Molecular Sequence Data, Biological activity, Pancreatic Polypeptide, Neuropeptide Y receptor, Biochemistry, Solutions, Hydrophobic effect, Molecular dynamics, Nuclear magnetic resonance, Helix, Side chain, Animals, Humans, Pancreatic polypeptide, Cattle, Neuropeptide Y, Amino Acid Sequence, Hydrogen, Polyproline helix

Abstract

The solution structure of human neuropeptide Y has been solved by conventional two-dimensional NMR techniques followed by distance-geometry and molecular-dynamics methods. The conformation obtained is composed of two short contiguous alpha-helices comprising residues 15-26 and 28-35, linked by a hinge inducing a 100 degree angle. The first helix (15-26) is connected to a polyproline stretch (residues 1-10) by a tight hairpin (residues 11-14). The helices and the polyproline stretch are packed together by hydrophobic interactions. This structure is related to that of the homologous avian pancreatic polypeptide and bovine pancreatic polypeptide. The C- and N-terminii, known to be involved in the biological activity for respectively the receptor binding and activation, are close together in space. The side chains of residues Arg33, Arg35 and Tyr36 on the one hand, and Tyr1 and Pro2 on the other, form a continuous solvent-exposed surface of 4.9 mm2 which is supposed to interact with the receptor for neuropeptide Y.

Published

1992

4. 1H-NMR-derived secondary structure and overall fold of a natural anatoxin from the scorpion Androctonus australis hector

Author

Sylvie Meunier, F. Sampieri, Eric Blanc, Pascal Mansuelle, Hervé Darbon, Hervé Rochat, and Oussama Hassani

Subjects

Protein Folding, Chromatography, Magnetic Resonance Spectroscopy, biology, Sequence Homology, Amino Acid, Stereochemistry, Androctonus australis, Molecular Sequence Data, Scorpion, Scorpion Venoms, Venom, Toxoids, biology.organism_classification, Antiparallel (biochemistry), Biochemistry, Solution structure, Protein Structure, Secondary, Structure-Activity Relationship, biology.animal, Proton NMR, Amino Acid Sequence, Protons, Protein secondary structure

Abstract

The venom of the scorpion Androctonus australis hector contains several protein neurotoxins of which structure and structure/activity relationships have been extensively studied. It also contains polypeptides such as Aah STR1, which are not toxic, while having highly similar sequences to fully active toxins. We have determined the solution structure of Aah STR1 by use of conventional two-dimensional NMR techniques followed by distance-geometry and energy minimization. We have demonstrated that, despite its lack of toxicity, Aah STR1 is structurally highly related to anti-mammal scorpion toxins specific for Na+ channels. The calculated structure is composed of a short alpha-helix (residues 26-33) connected by a tight turn to a three-stranded antiparallel beta-sheet (sequences 3-6, 38-41 and 44-48). This beta-sheet is right-handed twisted as usual for such secondary structures. The beta-turn connecting the strands 38-41 and 44-48 belongs to type II'. The overall fold of Aah STR1 is typical of beta-type scorpion toxins. This is, however, the first example of such a fold in Old World scorpion toxins. Either the absence of a basic residue in position 63 or the high mobility of loops, compared to active beta-type neurotoxins, may explain the lack of activity of this protein.

Published

1997

5. Chemical synthesis and characterization of maurotoxin, a short scorpion toxin with four disulfide bridges that acts on K+ channels

Author

Mohammed El Ayeb, Marcel Crest, Jurphaas Van Rietschoten, Hervé Rochat, Hervé Darbon, Jean-Marc Sabatier, Marie-France Martin-Eauclaire, Kamel Mabrouk, Ryadh Kharrat, G. Jacquet, and R. Oughideni

Subjects

Models, Molecular, Potassium Channels, Stereochemistry, Molecular Sequence Data, Neurotoxins, Scorpio maurus, Scorpion Venoms, Kaliotoxin, Peptide, Venom, Apamin, complex mixtures, Biochemistry, Binding, Competitive, Peptide Mapping, Protein Structure, Secondary, Maurotoxin, chemistry.chemical_compound, Mice, Animals, Amino Acid Sequence, Disulfides, chemistry.chemical_classification, Scorpion toxin, biology, Circular Dichroism, Electric Conductivity, biology.organism_classification, Rats, chemistry, Peptides, Ion Channel Gating, Synaptosomes

Abstract

Maurotoxin is a toxin isolated from the venom of the Tunisian chactoid scorpion Scorpio maurus. It is a 34-amino-acid peptide cross-linked by four disulfide bridges. Maurotoxin competes with radiolabeled apamin and kaliotoxin for binding to rat-brain synaptosomes. Due to its very low concentration in venom (0.6% of the proteins), maurotoxin was chemically synthesized by means of an optimized solid-phase technique. The synthetic maurotoxin was characterized. It was lethal to mice following intracerebroventricular injection (LD50, 80 ng/mouse). The synthetic maurotoxin competed with 125I-apamin and 125I-kaliotoxin for binding to rat-brain synaptosomes with half-maximal effects at concentrations of 5 nM and 0.2 nM, respectively. Synthetic maurotoxin was tested on K+ channels and was found to block the Kv1.1, Kv1.2, and Kv1.3 currents with half-maximal blockage (IC50) at 37, 0.8 and 150 nM, respectively. Thus, maurotoxin is a scorpion toxin with four disulfide bridges that acts on K+ channels. The half-cystine pairings of synthetic maurotoxin were identified by enzymatic cleavage. The pairings were Cys3-Cys24, Cys9-Cys29, Cys13-Cys19 and Cys31-Cys34. This disulfide organization is unique among known scorpion toxins. The physicochemical and pharmacological properties of synthetic maurotoxin were indistinguishable from those of natural maurotoxin, which suggests that natural maurotoxin adopts the same half-cystine pairing pattern. The conformation of synthetic maurotoxin was investigated by means of circular dichroism spectroscopy and molecular modeling. In spite of its unusual half-cystine pairings, the synthetic-maurotoxin conformation appears to be similar to that of other short scorpion toxins.

Published

1996

6. Chemosensory protein from the mothMamestra brassicae

Author

Campanacci, Valérie, primary, Mosbah, Amor, additional, Bornet, Olivier, additional, Wechselberger, Rainer, additional, Jacquin-Joly, Emmanuelle, additional, Cambillau, Christian, additional, Darbon, Hervé, additional, and Tegoni, Mariella, additional

Published

2001

7. 1H-NMR-Derived Secondary Structure and Overall Fold of a Natural Anatoxin from the Scorpion Androctonus Australis Hector

Author

Blanc, Eric, primary, Hassani, Oussama, additional, Meunier, Sylvie, additional, Mansuelle, Pascal, additional, Sampieri, Francois, additional, Rochat, Herve, additional, and Darbon, Herve, additional

Published

1997

8. Chemical Synthesis and Characterization of Maurotoxin, a Short Scorpion Toxin with four Disulfide Bridges that Acts on K+ Channels

Author

Kharrat, Ryadh, primary, Mabrouk, Kamel, additional, Crest, Marcel, additional, Darbon, Herve, additional, Oughideni, Razika, additional, Martin-Eauclaire, Marie-France, additional, Jacquet, Guy, additional, El Ayeb, Mohammed, additional, Rietschoten, Jurphaas, additional, Rochat, Herve, additional, and Sabatier, Jean-Marc, additional

Published

1996

9. Solution conformation of human neuropeptide Y by 1H nuclear magnetic resonance and restrained molecular dynamics

Author

DARBON, Herve, primary, BERNASSAU, Jean-Marie, additional, DELEUZE, Colette, additional, CHENU, Jacques, additional, ROUSSEL, Alain, additional, and CAMBILLAU, Christian, additional

Published

1992

10. Solution conformation of human neuropeptide Y by 1H nuclear magnetic resonance and restrained molecular dynamics.

Author

Darbon, Hervé, Bernassau, Jean-Marie, Deleuze, Colette, Chenu, Jacques, Roussel, Alain, and Cambillau, Christian

Subjects

*NEUROPEPTIDE Y, *NUCLEAR magnetic resonance, *MOLECULAR dynamics

Abstract

The solution structure of human neuropeptide Y has been solved by conventional two-dimensional NMR techniques followed by distance-geometry and molecular-dynamics methods. The conformation obtained is composed of two short contiguous α-helices comprising residues 15–26 and 28–35, linked by a hinge inducing a 100° angle. The first helix (15–26) is connected to a polyproline stretch (residues 1–10) by a tight hairpin (residues 11–14). The helices and the polyproline stretch are packed together by hydrophobic interactions. This structure is related to that of the homologous avian pancreatic polypeptide and bovine pancreatic polypeptide. The C- and N-terminii, known to be involved in the biological activity for respectively the receptor binding and activation, are close together in space. The side chains of residues Arg33, Arg35 and Tyr36 on the one hand, and Tyr1 and Pro2 on the other, form a continuous solvent-exposed surface of 4.9 nm2 which is supposed to interact with the receptor for neuropeptide Y. [ABSTRACT FROM AUTHOR]

Published

1992

11. Structure/activity relationships of scorpion α-toxins.

Author

Kharrat, Riadh, Darbon, Hervé, Rochat, Hervé, and Granier, Claude

Subjects

*TYROSINE, *AMINO acids, *TRYPTOPHAN, *NEUROTOXIC agents, *ARGININE, *TOXINS

Abstract

Chemical modifications of tyrosine and tryptophan residues of scorpion α-neurotoxins II and III from Androctonus australis Hector were performed as well as modification of the two arginines and the α-amino group of toxin I. The pharmacological potencies of each derivative were assessed in vivo by LD50 measurement and in vitro by competition experiments with 125I-toxin for synaptosomal receptors. Arginine residues in positions 2 and 60 and the α-amino group of Androctonus toxin I were derivatized by p-hydroxyphenylglyoxal; the corresponding modified toxins exhibit low pharmacological potencies. Tryptophan 38 of toxin Il and tryptophan 45 of toxin III were modified by nitrophenylsulfenyl chloride, leading respectively to a poorly and a fully active derivative. The tetranitromethane modification of tyrosine residues in positions 60, 5 and 14 of toxin III induced respectively 60%, 40% and 30% of loss of biological activity. Circular dichroic analysis indicated that for every derivative, except the nitrophenylsulfenyl derivative of Trp-45 of AaH III, the conformation of the toxin was not altered by derivatization. Conformational integrity was also confirmed by full activity of the derivatives in radioimmunoassays. Taken together, the results suggest that aromatic residues belonging to the conserved hydrophobic surface, to the C-terminal and to the loop region 37-44 are involved in the molecular mechanisms by which scorpion αtoxins act. Charged residues in the N-terminal and C-terminal also contribute to the high efficacy of the binding process. It appears that all important residues are clustered on one face of the toxin, suggesting a multipoint interaction with the proteins of the sodium channel. [ABSTRACT FROM AUTHOR]

Published

1989

12. Differential effects of defined chemical modifications on antigenic and pharmacological activities of scorpion α and β toxins.

Author

El Ayeb, Mohamed, Darbon, Hervé, Bahraoui, EL Mostafa, Vargas, Orietta, and Rochat, Hervé

Subjects

*TOXINS, *CHEMICAL modification of proteins, *ARGININE, *ANTIGENS, *PHARMACOLOGY, *AMINO acids

Abstract

Investigates the differential effects of defined chemical modifications on antigenic and pharmacological activities of scorpion alpha and beta toxins. Involvement of particular residues in both the pharmacological and the antigenic sites of the toxins; Effect of the modification by 1,2- cyclohexanedione or arginine-27 of a beta toxin, Centruroides suffusus suffusus toxin II; Modification by the same reagent of arginine-2 of a beta toxin, Androctonus australis Hector toxin III; Excision of the N-terminal pentapeptide of another beta toxin, Buthus occitanus mardochei toxin III; Exposure of amino acid residues.

Published

1986

13. Correlation between Protein Phosphorylation and Progesterone Synthesis in Bovine Luteal Cells Stimulated by Lutropin.

Author

Darbon, Jean-Marie, Ursely, Jocelyne, and Leymarie, Pierre

Subjects

*PHOSPHORYLATION, *PROGESTERONE, *BIOSYNTHESIS, *LUTEINIZING hormone, *CYCLIC adenylic acid, *PROTEIN kinases

Abstract

The implication of cytosolic protein phosphorylation in the regulation by lutropin of steroidogenesis in luteal tissue was investigated, in vitro, by incubating selected small bovine luteal cells in the presence of 32P- labelled phosphate. The incorporation of 32P into cytosolic proteins was measured after fractionation by polyacrylamide gel electrophoresis in the presence of sodium dodecylsulfate and autoradiography of the gel. Progesterone synthesis, "P incorporation into cytosolic proteins, cyclic AMP content and protein kinase activity were measured simultaneously after incubation for various times and with increasing doses of lutropin. As previously reported, the gonadotropin as well as dibutyryladenosine 3',5'-monophosphate enhanced by 60-150 % the degree of phosphorytation of six cytoso tic proteins of molecular weight ranging from 50000- 115000. Timeacourse studies in the presence of a saturating dose of lutropin demonstrated a close correlation between progesterone synthesis, protein phosphorylation and cyclic AMP production. The three parameters were increased within 5 mm, the level of cyclic AMP and the extent of protein phosphorylation reaching a maximum value after 10-20 mm. Doscaresponse curves for progesterone synthesis and protein phosphorylation were nearly identical with a half-maximal stimulation occurring for both parameters with a physiological concentration of lutropin (3 ng/ml). Conversely dose-response curves for cyclic AMP and protein kinase activity were clearly shifted, as expected, toward the higher concentrations of lutropin (half-maximal stimulation for 90 ng/mi of lutropin). Further characterization of the phosphorylated proteins using a highly resolutive two-dimensional electrophoretic technique demonstrated that the number of proteins phosphorylated under lutropin and the degree of stimulation was distinctly higher than suspected from monodimensional fractionation technique. The 32P incorporation for two of the nine proteins phosphorylated by lutropin appeared at least ten-times higher than in the control. The present results are compatible with the implication of at least some of the observed induced protein phosphorylations in the steroidogenic effect of lutropin in luteal tissue. They sustain the hypothesis of a cyclic- AMP-dependent protein kinase activation as a part of the mechanism of lutropin action. [ABSTRACT FROM AUTHOR]

Published

1981

14. ¹ H-NMR-derived secondary structure and overall fold of a natural anatoxin from the scorpion Androctonus australis hector.

Author

Blanc, Eric, Hassani, Oussama, Meunier, Sylvie, Mansuelle, Pascal, Sampieri, Francois, Rochat, Hervé, and Darbon, Hervé

Subjects

VENOM, SCORPIONS, SODIUM channels, NEUROTOXIC agents, PEPTIDES, BIOCHEMISTRY

Abstract

The venom of the scorpion Androctonus australis hector contains several protein neurotoxins of which structure and structure/activity relationships have been extensively studied. It also contains polypeptides such as Aah STR1, which are not toxic, while having highly similar sequences to fully active toxins. We have determined the solution structure of Aah STR1 by use of conventional two-dimensional NMR techniques followed by distance-geometry and energy minimization. We have demonstrated that, despite its lack of toxicity, Aah STR1 is structurally highly related to anti-mammal scorpion toxins specific for Na+ channels. The calculated structure is composed of a short α-helix (residues 26-33) connected by a tight turn to a three-stranded antiparailel β-sheet (sequences 3-6, 38-41 and 44-48). This β-sheet is righthanded twisted as usual for such secondary structures. The β-turn connecting the strands 38-41 and 4448 belongs to type II'. The overall fold of Aah STR1 is typical of β-type scorpion toxins. This is, however, the first example of such a fold in Old World scorpion toxins. Either the absence of a basic residue in position 63 or the high mobility of loops, compared to active β-type neurotoxins, may explain the lack of activity of this protein. [ABSTRACT FROM AUTHOR]

Published

1997

15. Chemical synthesis and characterization of maurotoxin, a short scorpion toxin with four disulfide bridges that acts on K+ channels.

Author

Kharrat, Ryadh, Mabrouk, Kamel, Crest, Marcel, Darbon, Hervé, Oughideni, Razika, Martin-Euaclaire, Marie-France, Jacquet, Guy, El Ayeb, Mohammed, Van Rietschoten, Jurphaas, Rochat, Hervé, and Sabatier, Jean-Marc

Subjects

TOXINS, SCORPIONS, SYNAPTOSOMES, SYNAPSES, ION channels, BIOCHEMISTRY

Abstract

Maurotoxin is a toxin isolated from the venom of the Tunisian chactoid scorpion Scorpio maurus. It is a 34-amino-acid peptide cross-linked by four disulfide bridges. Maurotoxin competes with radiolabeled apamin and kaliotoxin for binding to rat-brain synaptosomes. Due to its very low concentration in venom (0.6% of the proteins), maurotoxin was chemically synthesized by means of an optimized solid-phase technique. The synthetic maurotoxin was characterized. It was lethal to mice following intracerebroventricular injection (LD50, 80 ng/mouse). The synthetic maurotoxin competed with 125I-apamin and 125I-kaliotoxin for binding to rat-brain synaptosomes with half-maximal effects at concentrations of 5 nM and 0.2 nM, respectively. Synthetic maurotoxin was tested on K+ channels and was found to block the Kv1.1, Kv1.2. and Kv1.3 currents with half-maximal blockage (IC50) at 37, 0.8 and 150 nM. respectively. Thus, maurotoxin is a scorpion toxin with four disulfide bridges that acts on K+ channels. The half-cystine pairings of synthetic maurotoxin were identified by enzymatic cleavage. The pangs were Cys3-Cys24, Cys9-Cys29, Cys13-Cys19 and Cys31-Cys34. This disulfide organization is unique among known scorpion, toxins. The physicochemical and pharmacological properties of synthetic maurotoxin were indistinguishable from those of natural maurotoxin, which suggests that natural maurotoxin adopts the same half-cystine pairing pattern. The conformation of synthetic maurotoxin was investigated by means of circular dichroism spectroscopy and molecular modeling. In spite of its unusual half-cystine pairings, the synthetic-maurotoxin conformation appears to be similar to that of other short scorpion toxins. [ABSTRACT FROM AUTHOR]

Published

1996

16. Differential effects of defined chemical modifications on antigenic and pharmacological activities of scorpion alpha and beta toxins

Author

H. Darbon, El Mostafa Bahraoui, Mohamed El Ayeb, Orietta Vargas, and Hervé Rochat

Subjects

Binding Sites, biology, Toxin, Androctonus australis, Scorpion, Scorpion Venoms, Biological activity, biology.organism_classification, medicine.disease_cause, Biochemistry, Differential effects, Pentapeptide repeat, Rats, Structure-Activity Relationship, Antigen, biology.animal, medicine, Animals, Immunization, Buthus occitanus, Antitoxins, Amino Acids, Antigens, Synaptosomes

Abstract

Specific chemical modifications of scorpion alpha and beta toxins have been used to study the involvement of particular residues in both the pharmacological and the antigenic sites of these toxins. Modification by 1,2-cyclohexanedione of arginine-27 of a beta toxin, Centruroides suffusus suffusus toxin II, drastically decrease the antigenic activity without any influence on the pharmacological activity. Conversely, modification by the same reagent of arginine-2 of an alpha toxin, Androctonus australis Hector toxin III, led to a 100-times less pharmacologically potent derivative and did not induce a significant loss of antigenic activity. Excision of the N-terminal pentapeptide of another alpha toxin, Buthus occitanus mardochei toxin III, by pepsin digestion led to a non-toxic derivative retaining full antigenic activity. Thus, the N-terminal part of the conserved hydrophobic surface of the toxin is highly implicated in the pharmacological activity, whereas the region of arginine-27, located in the alpha helix situated on the back surface, opposite the conserved hydrophobic region, is fully implicated in the antigenic activity and is far from the pharmacological site. These results are good arguments in favor of the idea that in scorpion toxins the surfaces implicated in the pharmacological and the antigenic activities do not overlap. Since the antigenic sites are present in highly variable sequence the development of an efficient polyvalent serotherapy is questionable.

Published

1986

17. Correlation between Protein Phosphorylation and Progesterone Synthesis in Bovine Luteal Cells Stimulated by Lutropin

Author

Jean-Marie Darbon, Pierre Leymarie, and Jsocelyne Ursely

Subjects

endocrine system, Stimulation, Luteal phase, Biology, Biochemistry, Cytosol, Corpus Luteum, Cyclic AMP, Animals, Protein phosphorylation, Phosphorylation, Protein kinase A, Polyacrylamide gel electrophoresis, Progesterone, Proteins, Luteinizing Hormone, In vitro, Molecular Weight, Kinetics, Cattle, Electrophoresis, Polyacrylamide Gel, Female, Phosphorus Radioisotopes, Protein Kinases, hormones, hormone substitutes, and hormone antagonists

Abstract

The implication of cytosolic protein phosphorylation in the regulation by lutropin of steroidogenesis in luteal tissue was investigated, in vitro by incubating selected small bovien luteal cells in the presence of 32P-labelled phosphate. The incorporation of 32P into cytosolic proteins was measured after fractionation by polyacrylamide gel electrophoresis in the presence of sodium dodecylsulfate and autoradiography of the gel. Progeserone synthesis, 32P incorporation into cytosolic proteins, cyclic AMP content and protein kinase activity were measured simultaneously aafter incubation for various times and with increasing doses of lutropin. As previously reporte, the gonadotropin as well as dibutyryladenosine 3′, 5′ monophosphate enchanced by 60–150% the degree of phosphorylation of six cytosolic proteins of molecular weight ranging from 50000–115000. Time-course studies in the presence of a saturating dose of lutropin demonstrated a close correlation between progesterone synthesis, protein phosphorylation and cyclic AMP production. The three parameters were increased within 5 min, the level of cylci AMP and the extent of protein phosphorylation reaching a maximum value after 10-20 min. Dose-response curves for progesterone synthesis and protein phosphorylation were nearly identical with a half-maximal stimulation occurring for both parameters with a physiological concentration of lutropin (3ng/ml). Conversely dose-response curves for cyclic AMP and protein kinase activity were clearly shifted, as expected, toward the higher concentration of lutropin (half-maximal stimulation for 90 ng/ml of lutropin). Further characterization of the phosphorylated proteins using a highly resolutive two-dimensional eletrophoretic technique demonstrated that the number of proteins phosphrylated under lutropin and the degree of stimulation was distinctly higher than suspeted from monodimensional fractionation technique. The 32P incorporation fro two of the nine proteins phosphorylated by lutropin appeared at least ten-times higher than in the control. The present result are compatible with the implication of at least some of the observed unduced protein phosphorylations in the steroidogenic effect of lutropin in luteal tissue. They sustain the hypothesis of a cyclic-AMP-dependent protein kinase activation as a part of the mechanism of lutropin action.

Published

1981

18. Structure/activity relationships of scorpion alpha-toxins. Multiple residues contribute to the interaction with receptors

Author

H. Darbon, Riadh Kharrat, Claude Granier, and Hervé Rochat

Subjects

Models, Molecular, Stereochemistry, Protein Conformation, Androctonus australis, Molecular Sequence Data, Scorpion Venoms, medicine.disease_cause, Arginine, Biochemistry, Binding, Competitive, Sodium Channels, Lethal Dose 50, chemistry.chemical_compound, Mice, Structure-Activity Relationship, Protein structure, medicine, Neurotoxin, Structure–activity relationship, Animals, Receptors, Cholinergic, Amino Acid Sequence, biology, Chemistry, Toxin, Tryptophan, Biological activity, Tetranitromethane, biology.organism_classification, Mice, Inbred C57BL, Kinetics, Tyrosine

Abstract

Chemical modifications of tyrosine and tryptophan residues of scorpion alpha-neurotoxins II and III from Androctonus australis Hector were performed as well as modification of the two arginines and the alpha-amino group of toxin I. The pharmacological potencies of each derivative were assessed in vivo by LD50 measurement and in vitro by competition experiments with 125I-toxin for synaptosomal receptors. Arginine residues in positions 2 and 60 and the alpha-amino group of Androctonus toxin I were derivatized by p-hydroxyphenylglyoxal; the corresponding modified toxins exhibit low pharmacological potencies. Tryptophan 38 of toxin II and tryptophan 45 of toxin III were modified by nitrophenylsulfenyl chloride, leading respectively to a poorly and a fully active derivative. The tetranitromethane modification of tyrosine residues in positions 60, 5 and 14 of toxin III induced respectively 60%, 40% and 30% of loss of biological activity. Circular dichroic analysis indicated that for every derivative, except the nitrophenylsulfenyl derivative of Trp-45 of AaH III, the conformation of the toxin was not altered by derivatization. Conformational integrity was also confirmed by full activity of the derivatives in radioimmunoassays. Taken together, the results suggest that aromatic residues belonging to the conserved hydrophobic surface, to the C-terminal and to the loop region 37-44 are involved in the molecular mechanisms by which scorpion alpha-toxins act. Charged residues in the N-terminal and C-terminal also contribute to the high efficacy of the binding process. It appears that all important residues are clustered on one face of the toxin, suggesting a multipoint interaction with the proteins of the sodium channel.

Published

1989

19. Structure/activity relationships of scorpion alpha-toxins. Multiple residues contribute to the interaction with receptors

Author

KHARRAT, Riadh, primary, DARBON, Herve, additional, ROCHAT, Herve, additional, and GRANIER, Claude, additional

Published

1989

20. Differential effects of defined chemical modifications on antigenic and pharmacological activities of scorpion alpha and beta toxins

Author

AYEB, Mohamed EL, primary, DARBON, Herve, additional, BAHRAOUI, El Mostafa, additional, VARGAS, Orietta, additional, and ROCHAT, Herve, additional

Published

1986