Cytotoxic action of Pseudomonas aeruginosa hemolysin]

The cytopathic action of haemolysin of Pseudomonas aeruginosa has been studied in mouse and human leucocytes. The morphological changes suggest that haemolysin affects the molecular architecture of the cell membrane, whose permeability is increased. It does not induce non-specific stimulation of peripheral lymphocytes. Normal sera and albumin neutralize the hemolytic activity of haemolysin; this inhibition is also observed, to a les extent, on the lytic action on leucocytes. This raises the possibility that the two activities are probably associated with the same molecule.     

Comparison of bacterial cardiotoxins: thermostable direct hemolysin from Vibrio parahaemolyticus, streptolysin O and hemolysin from Listeria monocytogenes.

Some properties of the bacterial cardiotoxins, thermostable direct hemolysin from Vibrio parahaemolyticus (vibriolysin), and streptolysin O and hemolysin from Listeria monocytogenes (listeriolysin), were compared. These toxins had rapid lethal effects on mice when injected intravenously. The electrocardiographic changes of rats after intravenous injections of these toxins were very similar, showing bradycardia and inhibition of atrio-ventricular conduction. These toxins also caused cessation of the spontaneous beating and degeneration of cultured foetal mouse heart cells. When equal hemolytic units of these three toxins were administered, vibriolysin had the most potent effects on mice and cultured mouse heart cells. Differences in the kinetics of the hemolysis by each toxin and in the effects of cholesterol of their hemolytic actions suggest that the mode of action of vibriolysin is different from those of streptolysin O and listeriolysin.     

Characteristics of the interaction of a treponemal hemolysin with rabbit erythrocytes

The mechanism of action on rabbit red cells of Treponema hyodysenteriae hemolysin was studied using volume analysis and release of hemoglobin. While fixation of the hemolysin on the erythrocytes is temperature independent, it appears that hemolysis is temperature dependent. The kinetics of hemolysis proceed according to a sigmoid curve characterized by a prelytic lag. The duration of the prelytic lag varies inversely with the quantity of hemolysin but the rate and the maximum value of hemolysis are directly proportional to the quantity of hemolysin. The effect of sucrose and trypan blue on the hemolysin and the red cells suggest that erythrocyte lysis is likely to be induced by the hemolysin in a way different from that known for other hemolytic agents.     

Effect of haemolysin of Pseudomonas aeruginosa on Ehrlich ascites tumor cells]

Haemolysin of Pseudomonas aeruginosa exerts toxic effects upon the metabolism of Ehrlich ascitic tumor cells : morphological changes appear readily ; respiration is inhibited more slowly ; the lethal effect determined by intraperitoneal injection of tumor cells is neutralized. Inhibition with human normal sera is complete for the hemolytic action, but incomplete for the cytopathic action.     

Red blood cell lysis induced by the venom of the brown recluse spider: the role of sphingomyelinase D.

Red blood cell lysis induced by the venom of Loxosceles reclusa, the brown recluse spider, may be related to the hemolytic anemia observed in several cases of spider envenomation. These investigations demonstrate that the venom of the brown recluse spider contains a calcium-dependent, heat-labile hemolysin of molecular weight approximately 19,000. The pH optimum for the hemolytic reaction was 7.1, and the optimum calcium concentration for venom-induced lysis was observed within the range of 6 to 10 mm. Sheep red blood cells were more susceptible to the spider hemolysin than human red blood cells, although both types exhibited appreciable lysis. Digestion of sheep red blood cell membranes with partially purified venom lysin resulted in degradation of the sphingomyelin component. However, reaction of the membranes with the venom lysin produced no release of water-soluble phosphate, and no free fatty acids were generated. These results indicate that the sphingomyelin-degrading activity of the venom is not a phospholipase C- or a phospholipase A₂-type activity. Sphingomyelin was employed as substrate for the venom hemolysin, and the organic and aqueous fractions of the reaction mixtures were analyzed by thin-layer chromatography. Analysis of the organic fraction revealed a phosphate-containing product with the solubility and chromatographic characteristics of N-acylsphingosine phosphate (ceramide phosphate), and analysis of the aqueous fraction demonstrated the presence of choline. The isolation and identification of these products indicate that the sphingomyelin of the red cell membrane is hydrolyzed by a sphingomyelinase D-type activity expressed by the partially purified venom hemolysin. A close correspondence between the hemolytic and sphingomyelinase D activities was observed when the partially purified hemolysin was further characterized in polyacrylamide gel electrophoresis at pH 8.3 and pH 4.9. The hemolytic and sphingomyelinase activities were coincident within the electrophoretic pattern at both pHs. The results presented demonstrate conclusively a direct lytic action of brown recluse venom upon red blood cells and report for the first time the presence of sphingomyelinase D in spider venom.     

Possible involvement of red cell membrane proteins in the hemolytic action of Portuguese Man-of-War toxin.

Glycophorin and the fragments isolated from trypsinizing intact rat, dog, sheep and human red blood cells (rbc's) neutralize the hemolytic action of the Portuguese Man-of-War venom. This action can be blocked by rabbit antisheep hemolysin and phytohemagglutinin, a lectin which preferentially binds to glycophorin. Concanavalin A, which binds to band-3 protein of rbc membranes, does not block the neutralizing action of rbc tryptic fragments or glycophorin. The concentrations of rat, dog, human and sheep glycophorin which half neutralize venom induced hemolysis are inversely and linearly proportional to the hemolytic sensitivities of these rbc's to the venom. These data implicate glycophorin as a possible binding site for the hemolytic component of the Portuguese Man-of-War venom.     

Monodansylcadaverine inhibits cytotoxicity of Vibrio parahaemolyticus thermostable direct hemolysin on cultured rat embryonic fibroblast cells

The mechanism of action of Vibrio parahaemolyticus thermostable direct hemolysin (TDH) on cultured cells still remains unclear. We show that addition of osmotic stabilizers, such as polyethylene glycol and dextran, could not protect cultured rat embryonic fibroblast cells (Rat-1) against cytotoxicity induced by TDH, unlike their protection against the hemolytic activity of TDH. By contrast, 100 microM monodansylcadaverine, as well as the presence of 1 mM ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA) in medium, protected the cells against cytotoxicity of TDH. Binding of TDH to Rat-1 cells and intracellular localization of TDH were affected by monodansylcadaverine and EGTA as analyzed by flow cytometry and confocal microscopy. On the hemolytic activity of TDH, monodansylcadaverine and EGTA had no effect. These results suggest that the mechanism of cytotoxicity of TDH on Rat-1 cells was different from that of hemolytic activity of TDH on red blood cells.     

Isolation and characterization of hemolytic genes from Actinobacillus actinomycetemcomitans

Abstract Periodontopathic Actinobacillus actinomycetemcomitans produces hemolysin and other leukotoxins. In the present study, two distinct clones which lysed horse erythrocytes were isolated by screening genomic DNA libraries of A. actinomycetemcomitans ATCC 43718 on blood agar plates. DNA hybridization analysis indicates that there were two distinct hemolytic genes present. Sonicated extracts from both Escherichia coli clones possessed hemolytic activities on horse, sheep and human erythrocytes, but not those of rabbit. Rabbit antiserum to A. actinomycetemcomitans ATCC 43718 whole cells inhibited the hemolytic activities of these clones.     

In vivo hemolytic activity of group B streptococcus is dependent on erythrocyte-bacteria contact and independent of a carrier molecule

Experiments were performed to determine the interaction between the hemolysin of group B streptococcus (GBS) and sheep erythrocytes. Growing GBS were shown to possess a potent hemolysin at a very early stage of the growth cycle. After separation of the cells from the growth medium, all the hemolytic activity remained with the bacterial cells, and no activity could be detected in the growth medium. When fetal calf serum was added to the media, some soluble activity was detected. This activity, however was completely removed by ultracentrifugation, the hemolytic activity being found solely in the pellet. After the hemolysin had formed, no new protein synthesis was needed to cause hemolysis because the addition of chloramphenicol to cells caused no difference in their hemolytic potential. For proof that no short-lived, soluble factors are produced by the bacteria, bacteria and sheep erythrocytes were incubated in contiguous media, separated by a 0.22-m membrane. No hemolytic activity was detected on the erythrocyte side of the membrane, although high amounts of hemolysin could be extracted from the bacteria. Only when a detergent was added to the growth medium was hemolysis detected from the erythrocytes, showing that extracted hemolysin could indeed pass through the membrane. These results suggest that the hemolysin is attached to the surface of the cell and that contact is needed between the bacteria and erythrocyte to cause lysis. Where soluble activity was detected, it was connected to bacterial fragments.     

Isolation and characterization of hemolysin activated by reductant from Prevotella intermedia

The hemolysin from Prevotella intermedia was partially purified from culture supernatant and then characterized. The hemolysin produced a clear beta-hemolytic zone on a blood agar plate. Hemolytic activity was 2.5-fold greater in culture supernatant compared to that cell-associated. The isolation and purification procedure involved ammonium sulfate and polyethylene glycol precipitations and ion-exchange chromatographies on DEAE-Sephacel and CM-Sepharose. The activity of this hemolysin was stimulated by reductants such as cysteine, dithiothreitol, glutathione etc., and was lost upon oxidation. Trypsin or heat treatment resulted in complete inhibition of hemolytic activity. Ca(2+), Mg(2+) and EDTA did not affect the activity. The optimal pH of this hemolysin was 7.5.     

Escherichia coli haemolysin forms voltage-dependent ion channels in lipid membranes

The action of the 107 kDa hemolysin from Escherichia coli on planar lipid membranes was investigated. We report that a single toxin molecule can form a cation-selective, ion-permeable channel of large conductance in a planar phospholipid bilayer membrane. The conductance of the pore is proportional to that of the bulk solution, indicating that the channel is filled with water. A pore diameter of about 2 nm can be evaluated. The pore formation mechanism is voltage-dependent and essentially resembles that of pore-forming colicins; this implies that opening of the channel is dependent on transfer of an electrical charge through the membrane. We propose that the physiological effects of E. coli hemolysin result from its ability to form ion channels in the membrane of attacked cells, and show that there is quantitative agreement between the effects of this toxin on model membranes and its hemolytic properties.     

Immunogenic properties of Clostridium perfringens type A anatheta-hemolysin

Guinea-pigs were immunized with anatheta-hemolysin preparations adsorbed on aluminum hydroxide, as well as with the mixture of anatheta-hemolysin and type A Cl. perfringens toxoid, purified and concentrated. Anatheta hemolysin preparations were obtained with the use of homogeneous theta hemolysin, as well theta hemolysin of various purification degrees. As a result, antatheta hemolytic guinea-pig sera capable of neutralizing 2,000-8,000 HU of theta-hemolysin were obtained. Tests made to establish the degree of protection in the immunized guinea-pigs did not show that the animals immunized with the mixture of anatheta-hemolysin and type A Cl. perfringens toxoid, purified and concentrated, had any advantages in the degree of protection over the animals immunized with the toxoid alone. But there is no doubt that this component plays a positive role under the conditions of natural gas gangrene when the hemolytic action of Cl. perfringens toxin becomes considerably pronounced.     

Effect of carrier molecules on production and properties of extracellular hemolysin produced byStreptococcus agalactiae

Streptococcus agalactiae type la strain 090 produced a cell-associated hemolysin during exponential growth in medium lacking proteins. Growth of the organism in medium containing proteins or medium supplemented with Tween 40 resulted in the appearance of extracellular hemolytic activity that was filterable. Maximum extracellular hemolytic activity was obtained in the late exponential phase of growth corresponding to the maximum number of cells. Extracellular hemolysin released in medium containing proteins could be precipitated by ammonium sulfate. Cell-associated hemolysin could be extracted in the cold by purified lipoteichoic acid from the organism. Purification and characterization of the extracellular hemolysin by column chromatography showed that the hemolysin was associated with molecules eliciting its release. Hemolysin associated with lipoteichoic acid or Tween 40 had an apparent molecular weight of 1,800,000 or 60,000 daltons, respectively.     

Nebrodeolysin,a novel hemolytic protein from mushroom Pleurotus nebrodensis with apoptosis-inducing and anti-HIV-1 effects

A novel hemolysin was isolated from the edible mushroom Pleurotus nebrodensis by ion exchange and gel filtration chromatography on DEAE-Sepharose and Sephacryl S-100. The hemolysin from Pleurotus nebrodensis hemolysin (nebrodeolysin) is a monomeric protein with a molecular weight of approximately 27 kDa as determined by gel filtration and SDS-PAGE. Nebrodeolysin exhibited remarkable hemolytic activity towards rabbit erythrocytes and caused efflux of potassium ions from erythrocytes. Subsequently, this hemolysin showed strong cytotoxicity against Lu-04, Bre-04, HepG2, L929, and HeLa cells. It was also found that this hemolysin induced apoptosis in L929 and HeLa cells as evidenced by microscopic observations and DNA ladder, respectively. Moreover, this hemolysin was shown to possess anti-HIV-1 activity in CEM cell culture.     

Bacillus thuringiensis var.israelensis crystal hemolysis as a possible basis for an assay of larval toxicity

Summary Optimal conditions for the extraction of a hemolysin from crystals ofBacillus thurin-giensis var.israelensis (B.t.i.) have been described. Evidence is given that the mechanism of hemoly-sin release from crystals involves proteolytic en-zymes. The hemolysin extracted from B.t.i. crys-tals has been shown to be antigenically different from the hemolysin excreted by vegetative cells of the same strain. As there is good correlation be-tween the hemolytic and larvicidal properties of various B.t.i. preparations it is suggested that the hemolytic assay should be tried as a rapid assay for preliminary determinations of the activity of B.t.i. preparations.     

Comparison of the hemolysis machinery in two evolutionarily distant blood-feeding arthropod vectors of human diseases

Host blood protein digestion plays a pivotal role in the ontogeny and reproduction of hematophagous vectors. The gut of hematophagous arthropods stores and slowly digests host blood and represents the primary gateway for transmitted pathogens. The initial step in blood degradation is induced lysis of host red blood cells (hemolysis), which releases hemoglobin for subsequent processing by digestive proteolytic enzymes. The activity cycles and characteristics of hemolysis in vectors are poorly understood. Hence, we investigated hemolysis in two evolutionarily distant blood-feeding arthropods: The mosquito Culex pipiens and the soft tick Argas persicus, both of which are important human and veterinary disease vectors. Hemolysis in both species was cyclical after blood meal ingestion. Maximum digestion occurs under slightly alkaline conditions in females. Hemolytic activity appears to be of lipoid origin in C. pipiens and enzymatic activity (proteolytic) in A. persicus. We have assessed the effect of pH, incubation time, and temperature on hemolytic activity and the hemolysin. The susceptibility of red blood cells from different hosts to the hemolysin and the effect of metabolic inhibition of hemolytic activity were assessed. We conclude that in C. pipiens and A. persicus midgut hemolysins control the amplitude of blood lysis step to guarantee an efficient blood digestion.     

Cell-free and cell-bound hemolytic activities of Proteus penneri determined by different Hly determinants

A collection of 45 Proteus penneri strains was characterized with respect to their hemolytic activity and representative cell-free or only cell-bound hemolysin possessing strains were chosen for further study. Extracellular Proteus penneri hemolysin, which was investigated earlier by hybridization, reacted with monospecific antiserum against alpha-hemolysin of Escherichia coli. In this paper we also show, using the colony hybridization technique, that the alpha-hemolysin-like determinant is widely distributed among Proteus penneri strains. Because one of the strains tested, which expressed a high activity of cell-bound hemolytic factor, did not carry such a Hly determinant, the presence of a second hemolysin is postulated. We cannot demonstrate any difference in hybridization patterns of alpha- and beta-hemolytic Proteus penneri strains and accumulation of the toxin molecule inside the cells was also not observed. The existence of another control mechanism, external to the hly operon, for hemolysin gene is suggested.     

Transport of hemolysin by Escherichia coli

The hemolytic phenotype in Escherichia coli is determined by four genes. Two (hlyC and hlyA) determine the synthesis of a hemolytically active protein which is transported across the cytoplasmic membrane. The other two genes (hlyBa and hlyBb) encode two proteins which are located in the outer membrane and seem to form a specific transport system for hemolysin across the outer membrane. The primary product of gene hlyA is a protein (protein A) of 106,000 daltons which is nonhemolytic and which is not transported. No signal peptide can be recognized at its N-terminus. In the presence of the hlyC gene product (protein C), the 106,000-dalton protein is processed to the major proteolytic product of 58,000 daltons, which is hemolytically active and is transported across the cytoplasmic membrane. Several other proteolytic fragments of the 106,000-dalton protein are also generated. During the transport of the 58,000-dalton fragment (and possible other proteolytic fragments of hlyA gene product), the C protein remains in the cytoplasm. In the absence of hlyBa and hlyBb the entire hemolytic activity (mainly associated with the 58,000-dalton protein) is located in the periplasm: Studies on the location of hemolysin in hlyBa and hlyBb mutants suggest that the gene product of hlyBa (protein Ba) binds hemolysin and leads it through the outer membrane whereas the gene product of hlyBb (protein Bb) releases hemolysin from the outer membrane. This transport system is specific for E coli hemolysin. Other periplasmic enzymes of E coli and heterologous hemolysin (cereolysin) are not transported.     

Influence of growth temperature and lipopolysaccharide on hemolytic activity of Serratia marcescens.

Log-phase cells of Serratia marcescens cultured at 30 degrees C were approximately 10-fold more hemolytic than those grown at 37 degrees C. By using a cloned gene fusion of the promoter-proximal part of the hemolysin gene (shlA) to the Escherichia coli alkaline phosphatase gene (phoA), hemolysin gene expression as a function of alkaline phosphatase activity was measured at 30 and 37 degrees C. No difference in alkaline phosphatase activity was observed as a function of growth temperature, although more hemolysin was detectable immunologically in whole-cell extracts of cells grown at 30 degrees C. The influence of temperature was, however, growth phase dependent, because the hemolytic activities of cells cultured to early log phase at 30 and 37 degrees C were comparable. Given the outer membrane location of the hemolysin, lipopolysaccharide (LPS) was examined as a candidate for mediating the temperature effect on hemolytic activity. Silver staining of LPS in polyacrylamide gels revealed a shift towards shorter O-antigen molecules at 37 degrees C relative to 30 degrees C. Moreover, there was less binding of O-antigen-specific bacteriophage to S. marcescens with increasing growth temperature, a finding consistent with temperature-mediated changes in LPS structure. Smooth strains of S. marcescens were 20- to 30-fold more hemolytic than rough derivatives, a result confirming that changes in LPS structure can influence hemolytic activity. The alkaline phosphatase activity of rough strains harboring the shlA-phoA fusion was threefold lower than that of smooth strains harboring the fusion plasmids, a result consistent with a decrease in hemolysin gene expression in rough strains. The absence of a similar effect of temperature on gene expression may be related to less-marked changes in LPS structure as a function of temperature compared with a smooth-to-rough mutational change.