0000000000380945

AUTHOR

Michael A. Kehoe

showing 6 related works from this author

Staphylococcal alpha-toxin, streptolysin-O, and Escherichia coli hemolysin: prototypes of pore-forming bacterial cytolysins.

1996

Staphylococcal alpha-toxin, streptolysin-O, and Escherichia coli hemolysin are well-studied prototypes of pore-forming bacterial cytotoxins. Each is produced as a water-soluble single-chain polypeptide that inserts into target membranes to form aqueous transmembrane pores. This review will compare properties of the three toxin prototypes, highlighting the similarities and also the differences in their structure, mode of binding, mechanism of pore formation, and the responses they elicit in target cells. Pore-forming toxins represent the most potent and versatile weapons with which invading microbes damage the host macroorganism.

Bacterial ToxinsLipid BilayersMolecular Sequence Datamedicine.disease_causeBiochemistryMicrobiologyMicrobiologyHemolysin ProteinsBacterial ProteinsEscherichiaGeneticsmedicineAnimalsHumansAmino Acid SequenceMolecular BiologyEscherichia colibiologyToxinEscherichia coli ProteinsCell MembraneHemolysinGeneral Medicinebiology.organism_classificationEnterobacteriaceaeBiochemistryStreptolysinsStreptolysinCytolysinExotoxinArchives of microbiology
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Expression of Active Streptolysin O in Escherichia coli as a Maltose-Binding-Protein-Streptolysin-O Fusion Protein. The N-Terminal 70 Amino Acids are…

1996

Streptolysin 0 (SLO) is the prototype of a family of cytolysins that consists of proteins which bind to cholesterol and form very large transmembrane pores. Structure/function studies on the pore-forming cytolysin SLO have been complicated by the proteolytic inactivation of a substantial portion of recombinant SLO (rSLO) expressed in Escherichia coli. To overcome this problem, translational fusions between the E. coli maltose-binding protein (MBP) gene and SLO were constructed, using the vectors pMAL-p2 and pMAL-c2. MBP-SLO fusion proteins were degraded if secreted into the E. coli periplasm, but intact, soluble MBP-SLO fusion proteins were produced at high levels in the cytoplasm. Active S…

ErythrocytesMonosaccharide Transport Proteinsgenetic structuresProtein ConformationStreptococcus pyogenesRecombinant Fusion ProteinsMolecular Sequence Datamedicine.disease_causeHemolysisBiochemistryMaltose-Binding ProteinsStructure-Activity RelationshipMaltose-binding proteinProtein structureBacterial ProteinsEscherichia colimedicineHumansCloning MolecularEscherichia coliSequence DeletionPore-forming toxinBase SequencebiologyEscherichia coli ProteinsFluoresceinsFusion proteineye diseasesTransmembrane proteinBiochemistryLiposomesStreptolysinsbiology.proteinATP-Binding Cassette TransportersStreptolysinsense organsCytolysinCarrier ProteinsSequence AnalysisEuropean Journal of Biochemistry
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Assembly mechanism of the oligomeric streptolysin O pore: the early membrane lesion is lined by a free edge of the lipid membrane and is extended gra…

1998

Streptolysin O (SLO) is a bacterial exotoxin that binds to cell membranes containing cholesterol and then oligomerizes to form large pores. Along with rings, arc-shaped oligomers form on membranes. It has been suggested that each arc represents an incompletely assembled oligomer and constitutes a functional pore, faced on the opposite side by a free edge of the lipid membrane. We sought functional evidence in support of this idea by using an oligomerization-deficient, non-lytic mutant of SLO. This protein, which was created by chemical modification of a single mutant cysteine (T250C) with N-(iodoacetaminoethyl)-1-naphthylamine-5-sulfonic acid, formed hybrid oligomers with active SLO on memb…

Cell Membrane PermeabilityProtein ConformationMembrane lipidsBiologyCholesterol-dependent cytolysinComplement Hemolytic Activity AssayOligomerGeneral Biochemistry Genetics and Molecular BiologyMembrane Lipidschemistry.chemical_compoundBacterial ProteinsNaphthalenesulfonatesAnimalsProtein oligomerizationCysteineLipid bilayerMolecular BiologyGeneral Immunology and MicrobiologyGeneral NeuroscienceErythrocyte MembraneCalceinMembranechemistryBiochemistryMutationStreptolysinsBiophysicsStreptolysinRabbitsResearch ArticleThe EMBO Journal
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Membrane-penetrating Domain of Streptolysin O Identified by Cysteine Scanning Mutagenesis

1996

Streptolysin O (SLO), a polypeptide of 571 amino acids, belongs to a family of highly homologous toxins that bind to cell membranes containing cholesterol and then polymerize to form large transmembrane pores. A conserved region close to the C terminus contains the single cysteine residue of SLO and has been implicated in membrane binding, which has been the only clear assignment of function to a part of the sequence. We have used a cysteine-less active mutant of SLO to introduce single cysteine residues at 19 positions distributed throughout the sequence. The cysteines were derivatized with the polarity-sensitive fluorophore acrylodan, and the fluorescence emission of the label was examine…

Membrane lipidsDetergentsBiochemistryCell membraneBiopolymersBacterial Proteins2-NaphthylaminemedicineCysteineCloning MolecularLipid bilayerMolecular Biologychemistry.chemical_classificationC-terminusCell MembraneCell BiologyTransmembrane proteinAmino acidmedicine.anatomical_structureSolubilitychemistryBiochemistryMutagenesisStreptolysinsStreptolysinCysteineJournal of Biological Chemistry
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Kinetics of streptolysin O self-assembly.

1995

Streptolysin O is a member of a family of membrane-damaging toxins that bind to cell membranes containing cholesterol and then polymerize to form large pores. We have examined the kinetics of toxin action using 125I-labelled streptolysin O. Binding of toxin monomers to membranes displays first-order kinetics and is reversible; the rate of desorption from red cells shows a marked dependence on temperature. To study oligomerization, toxin was bound to erythrocytes at 0 degrees C. Oligomer formation was then triggered by a sudden temperature shift and stopped by solubilization of membranes with deoxycholate. While at moderately high streptolysin O concentrations oligomerization behaves as a re…

Reaction mechanismErythrocytesToxinMacromolecular SubstancesKineticsErythrocyte MembraneDithionitrobenzoic Acidmedicine.disease_causeOligomerBiochemistrychemistry.chemical_compoundCrystallographyKineticsMembraneMonomerchemistryPolymerizationBacterial ProteinsStreptolysinsmedicineBiophysicsCentrifugation Density GradientAnimalsStreptolysinRabbitsEuropean journal of biochemistry
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Correct oligomerization is a prerequisite for insertion of the central molecular domain of staphylococcal α-toxin into the lipid bilayer

1995

Staphylococcal alpha-toxin is a primarily hydrophilic molecule that binds as a monomer to target membranes and then aggregates to form amphiphilic oligomers that represent water-filled transmembrane channels. Current evidence indicates that a region located in the center of the molecule inserts deeply into the bilayer. In the present study, we sought to determine whether membrane insertion was triggered by the oligomerization process, and whether insertion correlated with pore formation. Double mutants of alpha-toxin were prepared in which His-35 was replaced by Arg, and cysteine residues were introduced at positions 69, 130 and 186. Substitution of His-35 with Arg rendered the toxin molecu…

Pore formationBacterial ToxinsLipid BilayersMolecular ConformationBiophysics(Staphylococcus)Arginineα-ToxinBiochemistryHemolysin ProteinsMembrane Lipidschemistry.chemical_compound2-NaphthylamineAmphiphileOligomerizationCysteineLipid bilayerFluorescent DyesTransmembrane channelsPore-forming toxinBilayerCell BiologyMembraneMonomerchemistryBiochemistryMutationPore-forming toxinBiophysicsMembrane insertionCysteineBiochimica et Biophysica Acta (BBA) - Biomembranes
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