Spontaneous haemolytic activity of Atlantic halibut (Hippoglossus hippoglossus L.) and sea bass (Dicentrarchus labrax) serum

The spontaneous haemolytic (SH) activity of sera was compared in groups of cultured halibut and sea bass. The optimum assay temperature was determined for each species and different red blood cell donors were tested. The effects of heat inactivation, storage temperature and of different agents like EDTA, EGTA, yeast cell components and bacterial LPS were compared. Halibut sera gave optimum lysis with sheep red blood cells (RBC) at 16 degrees C whereas sea bass sera showed optimum lysis with rabbit RBC at 37 degrees C. The haemolytic activity of halibut sera was inactivated at 45 degrees C while sea bass sera were inactivated at 56 degrees C. The haemolytic activity of halibut sera was significantly reduced during short-term storage at -80 degrees C, whereas the sea bass sera maintained fairly good activity after 1-year storage at -80 degrees C. EGTA and EDTA inhibited the spontaneous haemolytic activity of sera from both the species. Zymosan and MacroGard from yeast cells also inhibited the haemolytic activity of the sera of both species, whereas LPS had a very slight effect. Considerable variation in haemolytic activity was observed within both the halibut and sea bass groups studied.     

Tn5-induced Xenorhabdus bovienii lecithinase mutants demonstrate reduced virulence for Galleria mellonella larvae

A derivative of Tn5 was used to construct a variety of stable insertion mutations in the entomopathogenic bacterium, Xenorhabdus bovienii T228/1. Mutants which had altered expression of Congo Red binding ability, ampicillin resistance, haemolytic activity and lecithinase were isolated. Isolates with altered lecithinase activity had either lost ability to produce this enzyme or showed reduced expression. The role of lecithinase in pathogenesis of X. bovienii T228/1 for Galleria mellonella larvae was examined by LD₅₀ analysis. Maximum killing of G. mellonella was observed at 72 h post infection for both the wild-type parent strain and a lecithinase mutant 34(45). However, the LD₅₀ value for the wild-type parent strain (8·7 cells per larva) was significantly less than that calculated for the lecithinase mutant (35·5 cells per larva). The data suggested that although lecithinase is a virulence factor produced by X. bovienii , lecithinase activity alone is not sufficient for killing of G. mellonella larvae.     

Detection, prevalence, purification and characterization of lecithinase of Klebsiella pneumoniae

Lecithinase activity in Klebsiella is a rare trait as out of 208 strains of Klebsiella belonging to 3 species, viz. K. pneumoniae (168), K. planticola (29) and K. oxytoca (11), only 4 strains of K. pneumoniae produced lecithinase positive colonies on egg-yolk-agar. Although cell lysates of 16 K. pneumoniae yielded positive results for lecithinase assay on egg-yolk-agar, 19 strains were detected positive for lecithinase with ELISA using anti-lecithinase serum. Release of up to 52.12% cell-bound lecithinase could be achieved with polymyxin-B treatment at 100 micrograms/ml concentration. Purified lecithinase was determined to be a high molecular weight (70 kDa), crystalizable, anionic (pI, 3.5) protein. It possessed cytolytic, haemolytic and dermonecrotic activities but did not induce fluid accumulation in rabbit ileal loop or infant mouse guts. It was inactivated by boiling, trypsin and chymotrypsin treatment and alkaline pH. Serologically, it was related to lecithinase of Aeromonas caviae and phospholipase-C of Salmonella.     

Cholesterol oxidase from Rhodococcus equi is likely the major factor involved in the cooperative lytic process (CAMP reaction) with Listeria monocytogenes

J.F. FERNÁNDEZ-GARAYZÁBAL, C. DELGADO, M.M. BLANCO, G. SUÁREZ AND L. DOMÍNGUEZ. 1996. The CAMP reaction between Listeria monocytogenes and Rhodococcus equi was studied by a diffusion assay. Listeria monocytogenes displayed identical cooperative haemolytic effect with supernatant cultures of equi or with commercial cholesterol oxidase (COX). This result, even with enzymes of different sources (commercial COX is obtained from Pseudomonas spp.) suggests that this enzyme secreted by R. equi has a crucial role in the synergistic haemolytic (CAMP) reaction with L. monocytogenes . The mechanism of the cooperative lytic process between L. monocytogenes and R. equi may represent a different and novel mechanism reaction, in which the COX may not act as a conventional second-step factor, and a reaction different to the direct interaction with the cholesterol of the erythrocyte membrane may be involved.     

Identification of the Listeria monocytogenes virulence factors involved in the CAMP reaction

There is a need to identify the virulence factors involved in the synergistic lysis of erythrocytes (CAMP reaction) by Listeria monocytogenes and either Staphylococcus aureus or Corynebacterium equi , in order to assess the relationship between the CAMP reaction and virulence of L. monocytogenes . The ability of various L. monocytogenes mutants to secrete listeriolysin O and phospholipases, and to produce lysis of sheep blood agar was determined. The results suggest that the CAMP reaction with Coryne. equi involves listeriolysin O and Coryne. equi cholesterol oxidase, and that the reaction with Staph. aureus involves either of the phospholipases C produced by L. monocytogenes . A modified CAMP test, which incorporates cholesterol oxidase into sheep blood agar, is proposed for the rapid (4–6 h) identification of L. monocytogenes.     

Enzymes Produced by a Pseudomonas Species Which Inactivate Inhibitors of Certain Viral Hemagglutinins. I. Identification and Purification of a Proteinase and Phospholipase C

Filtrates from cultures of a psychrophilic Pseudomonas species, which inactivate serum inhibitors of certain viral hemagglutinins, were shown to contain both lecithinase (phospholipase C) and a proteolytic enzyme with elastase activity. The bacterium was cultivated under conditions favoring production of the respective enzymes, and the enzymes were purified by ammonium sulfate precipitation followed by column chromatography or by gel filtration. The elastase was obtained in crystalline form and was recrystallized. It has properties similar to those of a number of other bacterial elastases but is more heat-labile than most. Although a high degree of purification was achieved for the lecithinase, as evidenced by an increase in specific activity, it was not obtained in crystalline form. Partially purified preparations of the lecithinase had extremely high activity compared to that of commercial preparations of phospholipase C from Clostridium welchii.     

Extracellular haemolytic activity of Serratia marcescens

Blood agar medium with dialysis membrane mounted between two layers of agar was applied to study the haemolytic activity of 28 strains of Serratia marcescens. Two kinds of lytic substances differing with their ability to pass through dialysis membrane were found. Haemolytic activity was not detected in cell-free filtrates from liquid cultures. The discrepancies between haemolytic activity in blood agar media and activity of liquid cultures were observed. Stable attachment of bacterial cells to the erythrocytes was not necessary to lysis. The possibility of extracellular haemolysin is discussed.     

Nature of Escherichia coli cell lysis by culture supernatants of Bacillus species.

Escherichia coli cells were found to be sensitive to lysis by the supernatants of a variety of protease-positive Bacillus species when treated at 45 degrees C but not when treated at 37 degrees C. Different E. coli strains manifested different lysis sensitivities when treated at 45 degrees C. When the lysis rates of E. coli cells at various stages of growth were investigated, post-exponential-phase cells were shown to be most sensitive to lysis. The lysis rate was inversely related to cell viability, and susceptibility appeared to be at least partly due to lysis of dead E. coli cells. A close relation was observed between levels of lysis activity and proteolytic activity. A Bacillus subtilis mutant lacking alkaline and neutral protease activity failed to lyse E. coli cells. It was concluded that Bacillus proteases played a major role in the observed E. coli lysis.     

Nature of Escherichia coli cell lysis by culture supernatants of Bacillus species

Escherichia coli cells were found to be sensitive to lysis by the supernatants of a variety of protease-positive Bacillus species when treated at 45 degrees C but not when treated at 37 degrees C. Different E. coli strains manifested different lysis sensitivities when treated at 45 degrees C. When the lysis rates of E. coli cells at various stages of growth were investigated, post-exponential-phase cells were shown to be most sensitive to lysis. The lysis rate was inversely related to cell viability, and susceptibility appeared to be at least partly due to lysis of dead E. coli cells. A close relation was observed between levels of lysis activity and proteolytic activity. A Bacillus subtilis mutant lacking alkaline and neutral protease activity failed to lyse E. coli cells. It was concluded that Bacillus proteases played a major role in the observed E. coli lysis.     

Phospholipase C treatment of certain human target cells reduces their susceptibility to NK lysis without affecting binding or sensitivity to lytic granules.

Phosphatidylinositol-specific phospholipase C (PI-PLC) is an enzyme that has the capacity to release glycosyl-phosphatidyl inositol (G-PI)-anchored proteins from the cells surface. Pretreatment of the human T-cell leukemia cell line Molt-4 with PI-PLC resulted in a decrease in the susceptibility to lysis by natural killer (NK) cells. Treatment of the erythroleukemia cell line K562 with PI-PLC had no effect on its NK susceptibility. PI-PLC-treated and untreated Molt-4 bound equally well to lymphocytes in target-binding studies with effector cell preparations enriched for NK cells. Susceptibility to cytolytic granules isolated from rat LGL tumor cells remained the same after treatment of Molt-4 or K562 with PI-PLC. Combined treatment of Molt-4 with PI-PLC and rlFN-alpha or rlFN-gamma resulted in additive reductions of the NK susceptibility, suggesting that PI-PLC and interferons act on different mechanisms to protect cells from NK lysis. When expression of a number of antigens on Molt-4 and K562 was analyzed in flow cytometry, only the expression of CD58 was reduced after PI-PLC treatment. The susceptibility of Con A blasts to MLR derived cytotoxic T-cells was not altered by treatment with phospholipase. These data suggest that PI-PLC treatment reduces the capacity of some target cells to activate NK cells upon contract. The mechanism behind this phenomenon is presently unclear.     

Activation of phosphatidylinositol-specific phospholipase C by HDL-associated lysosphingolipid. Involvement in mitogenesis but not in cholesterol efflux

Our earlier studies demonstrated that high-density lipoproteins (HDLs) stimulate multiple signaling pathways, including activation of phosphatidylcholine-specific phospholipases C and D (PC-PLs) and phosphatidylinositol-specific phospholipase C (PI-PLC). However, only activation of PC-PLs was linked to the HDL-induced cholesterol efflux. In the study presented here, the role of HDL-induced PI-PLC activation was studied. In human skin fibroblasts, HDL potently induced PI-PLC as inferred from enhanced phosphatidylinositol bisphosphate (PtdInsP(2)) turnover and Ca(2+) mobilization. The major protein component of HDL, apo A-I, did not induce PtdInsP(2) turnover or Ca(2+) mobilization in these cells. Both HDL and apo A-I promoted cellular cholesterol efflux, whereas only HDL induced fibroblast proliferation. Inhibition of PI-PLC with U73122 or blocking intracellular Ca(2+) elevation with Ni(2+) or EGTA markedly reduced the extent of HDL-induced cell proliferation but had no effect on cholesterol efflux. In fibroblasts from patients with Tangier disease which are characterized by defective cholesterol efflux, neither HDL-induced PtdInsP(2) breakdown and Ca(2+) mobilization nor cell proliferation was impaired. HDL-induced fibroblast proliferation, PtdInsP(2) turnover, and Ca(2+) mobilization were fully mimicked by the lipid fraction isolated from HDL. Analysis of this fraction with high-performance liquid chromatography (HPLC) and time-of-flight secondary ion mass spectroscopy (TOF-SIMS) revealed that the PI-PLC-inducing activity is identical with two bioactive lysosphingolipids, namely, lysosulfatide (LSF) and sphingosylphosphorylcholine (SPC). Like native HDL, LSF and SPC induced PtdInsP(2) turnover, Ca(2+) mobilization, and fibroblast proliferation. However, both compounds did not promote cholesterol efflux. In conclusion, two agonist activities are carried by HDL. Apo A-I stimulates phosphatidylcholine breakdown and thereby facilitates cholesterol efflux, whereas LSF and SPC trigger PI-PLC activation and thereby stimulate cell proliferation.     

Purification and characterization of a phosphoinositide-specific phospholipase C from guinea pig uterus. Phosphorylation by protein kinase C in vivo

Two peaks of phosphoinositide-specific phospholipase C (PI-PLC) activity were resolved when guinea pig uterus cytosolic proteins were chromatographed on a DEAE-Sepharose column. The first peak of enzyme activity eluting from the DEAE-Sepharose column (PI-PLC I) was further purified to homogeneity, whereas the second peak of enzyme activity was enriched 300-fold. PI-PLC I migrated as a 62-kDa protein on sodium dodecyl sulfate-polyacrylamide gels. Antibodies prepared against PI-PLC I failed to react with PI-PLC II. PI-PLC I hydrolyzed all three phosphoinositides, exhibiting a greater Vmax for phosphatidylinositol 4,5-bisphosphate greater than phosphatidylinositol 4-phosphate greater than phosphatidylinositol. Hydrolysis of phosphatidylinositol was calcium-dependent, whereas significant hydrolysis of phosphatidylinositol 4-phosphate and phosphatidylinositol 4,5-bisphosphate occurred in the presence of 2.5 mM EGTA. At physiological concentrations of calcium, phosphatidylinositol 4-phosphate and phosphatidylinositol 4,5-bisphosphate were the preferred substrates. Antibodies specific for PI-PLC I reacted with a 62-kDa protein in both the cytosol and membrane fractions from guinea pig uterus. Quantitation of the immunoblots revealed that 25% of the 62-kDa protein was membrane-associated, whereas only 5% of the total enzyme activity was membrane-associated. Approximately 20% of the membrane-bound phospholipase C activity and immunoreactive material were loosely bound, whereas the remainder required detergent extraction for complete solubilization. The 62-kDa protein associated with the membrane fractions did not bind lectin affinity columns, suggesting that it was not glycosylated. PI-PLC I was identified as a phosphoprotein in [32P]orthophosphate-labeled rat basophilic leukemia (RBL-1) cells by two-dimensional gel electrophoresis followed by immunoblotting. In untreated cells, 32P-labeled PI-PLC I was found in the cytosolic fraction. Treatment of RBL-1 cells with those phorbol esters which are known to activate the Ca2+/phospholipid-dependent enzyme protein kinase C, resulted in a time-dependent increase in the phosphorylation of both membrane-bound and cytosolic PI-PLC I. Thus, in RBL-1 cells, protein kinase C may play an important role in the regulation of phospholipase C through protein phosphorylation.     

Inhibition of serum complement haemolytic activity by lipid vesicles containing phosphatidylserine

The effect of artificial model membranes on the complement system was investigated. Incubation of the model membranes with human serum resulted in consumption of complement haemolytic activity when phosphatidylserine-containing vesicles were used. The activation of the complement system appeared to proceed through the alternative pathway. This conclusion was supported by the failure of [125I]Clq to bind to the membranes suggesting that the classical pathway was not involved. Although always obtained when phosphatidylserine was present in the model membranes, the activation of complement was enhanced by the contemporaneous presence of phosphatidylethanolamine. Liposomes prepared from lipid extracts of red blood cells were also able to stimulate a concentration-dependent activation of complement. Fresh, intact erythrocytes, however, could not initiate the same effects unless opsonized by antibodies. When artificially aged in vitro, red blood cells were lysed if incubated with normal human serum or with Clq-depleted serum. However, no lysis was obtained if the 'aged' erythrocytes were incubated with serum pretreated with ammonia to destroy the C3 component of complement. It is suggested that one of the mechanisms of macrophage recognition of senescent erythrocytes might be provided by the activation of the alternative pathway of complement if phosphatidylserine becomes exposed on the surface of the aging cells.     

Identification of phosphatidylinositol-specific phospholipase C activity in Listeria monocytogenes: a novel type of virulence factor?

A phospholipase C which cleaves phosphatidylinositol and glycosylphosphatidylinositol (GPI) anchors was identified in Listeria monocytogenes. This 36 kDa protein is encoded by the gene plcA, and is homologous to the Bacillus cereus, Bacillus thuringiensis and eukaryotic phosphatidylinositol-specific phospholipases C (PI-PLC). Expression of the plcA gene in Escherichia coli correlates with the appearance of PI-PLC activity in the cells. In Listeria monocytogenes, the activity is secreted to the culture medium. PI-PLC activity was only found in the two pathogenic species of the genus Listeria, namely L. monocytogenes and L. ivanovii. PI-PLC activity was lost and virulence decreased when the plcA gene was disrupted in the chromosome. This suggests that the PI-PLC of L. monocytogenes might be involved in virulence.     

Lysis of red blood cells in some haemolytic anaemias--the lytic effect of agkistrodon piscivorus venom in vitro.

The lysis of red blood cells induced by the Agkistrodon piscivorus venom (APV) in vitro in the presence and/or in the absence of plasma was examined in autoimmune haemolytic anaemia (AIHA), hereditary spherocytosis (HS) and paroxysmal nocturnal haemoglobinuria (PNH). Virtually haemolysis did not differ from that of normals in AIHA, it was slightly increased in HS and significantly higher in PNH, however, only in the presence of autologous or normal homologous plasma. The mechanism of PNH blood cells lysis which is probably related to the activation of the third complement component is discussed.     

Pseudohypophosphatasia: aberrant localization and substrate specificity of alkaline phosphatase in cultured skin fibroblasts.

We explored the biochemical basis for the disorder pseudohypophosphatasia (PsHYPT) in one patient by examining the substrate specificity and localization of alkaline phosphatase (ALP) in cultured dermal fibroblasts. Despite substantial ALP activity, in cell homogenates, toward the artificial substrate 4-methyl-umbelliferyl phosphate (4-MUP), there was a marked deficiency in ALP activity toward the natural substrates pyridoxal 5'-phosphate (PLP) and phosphoethanolamine (PEA), indicating altered substrate specificity. Furthermore, although 4-MUP phosphatase (4-MUP-P'tase) activity was predominantly localized as an ecto-enzyme, the small amount of PLP phosphatase (PLP-P'tase) activity was intracellular. This differential localization was apparent in intact cells, since (1) brief acidification of the medium at 4 degrees C inactivated a majority of the 4-MUP-P'tase activity but only 15% of the PLP-P'tase activity (in contrast to greater than 85% inactivation of both in homogenates), (2) greater than 70% of the 4-MUP-P'tase activity but only 30% of the PLP-P'tase activity was released by phosphatidylinositol-specific phospholipase C (PI-PLC) digestion, and (3) degradation of extracellular PLP was less than 35% of that of disrupted cells. Both 4-MUP- and PLP-P'tase activities were predominantly in a lipid-anchored form that could be converted to a soluble, lipid-free form by PI-PLC digestion. Our findings suggest that the clinical and biochemical presentation of this PSHPT patient results from the production of two aberrant ALP species. One form of ALP has appropriate ectoorientation but is preferentially deficient in activity toward natural substrates; the other ALP species has appropriate substrate specificity but is sequestered from substrates by its intracellular location.     

A pore-forming haemolysin from the hookworm, Ancylostoma caninum

Hookworms feed on blood, but the mechanism by which they lyse ingested erythrocytes is unknown. Here we show that Ancylostoma caninum, the common dog hookworm, expresses a detergent soluble, haemolytic factor. Activity was identified in both adult and larval stages, was heat-stable and unaffected by the addition of protease inhibitors, metal ions, chelators and reducing agents. Trypsin ablated lysis indicating that the haemolysin is a protein. A closely migrating doublet of hookworm proteins with apparent molecular weights of 60-65 kDa bound to the erythrocyte membrane after lysis of cells using both unlabeled and biotinylated detergent-solubilised hookworm extracts. In addition, separation of detergent-soluble parasite extracts using strong cation-exchange chromatography, resulted in purification of 60-65 kDa proteins with trypsin-sensitive haemolytic activity. Erythrocytes lysed with particulate, buffer-insoluble worm extracts were observed using scanning electron microscopy and appeared as red cell ghosts with approximately 100 nm diameter pores formed in the cell membranes. Red blood cell ghosts remained visible indicating that lysis was likely caused by pore formation and followed by osmotic disruption of the cell.     

Localization of protein kinase C epsilon to macrophage vacuoles perforated by Listeria monocytogenes cytolysin

Three proteins secreted by Listeria monocytogenes facilitate escape from macrophage vacuoles: the cholesterol-dependent cytolysin listeriolysin O (LLO), a phosphoinositide-specific phospholipase C (PI-PLC) and a broad-range phospholipase C (PC-PLC). LLO and PI-PLC can activate several members of the protein kinase C (PKC) family during infection. PKCepsilon is a novel PKC that contributes to macrophage activation, defence against bacterial infection, and phagocytosis; however, a role for PKCepsilon in Lm infections has not been described. To study PKCepsilon dynamics, PKCepsilon-YFP chimeras were visualized in macrophages during Lm infection. PKCepsilon-YFP was recruited to forming vacuoles during macrophage phagocytosis of Lm and again later to fully formed Lm vacuoles. The PKCepsilon-YFP localization to the fully formed Lm vacuole was LLO-dependent but independent of PI-PLC or PC-PLC. PKCepsilon-YFP recruitment often followed LLO perforation of the membrane, as indicated by localization of PKCepsilon-YFP to Lm vacuoles after they released small fluorescent dyes into the cytoplasm. PKCepsilon-YFP recruitment to vesicles also followed phagocytosis of LLO-containing liposomes or osmotic lysis of endocytic vesicles, indicating that vacuole perforation by LLO was the chief cause of the PKCepsilon response. These studies implicate PKCepsilon in a cellular mechanism for recognizing damaged membranous organelles, including the disrupted vacuoles created when Lm escapes into cytoplasm.     

Analysis of the effects of activation of the alternative pathway of complement on erythrocytes with an isolated deficiency of decay accelerating factor.

E from individuals with the Inab blood group phenotype have an isolated deficiency of decay accelerating factor (DAF, CD55). DAF is a glycosyl phosphatidylinositol anchored membrane protein that inhibits activation of both the classical and alternative pathways of complement. Deficiency of DAF from the E of paroxysmal nocturnal hemoglobinuria (PNH) is thought to contribute to their greater sensitivity to complement-mediated lysis. Unlike PNH E, however, Inab cells are not susceptible to acidified serum lysis, a process that is mediated through activation of the alternative pathway. This observation led us to hypothesize that membrane constituents other than DAF control susceptibility to acidified serum lysis. To investigate this hypothesis, Inab E were incubated in acidified serum, and hemolysis and C3 deposition (as a measure of alternative pathway activation) were quantitated. C3 deposition of Inab cells was approximately 20 times greater than normal, however, hemolysis was not observed. Inab E expressed a normal amount of membrane inhibitor of reactive lysis (MIRL, CD59), a glycosyl phosphatidylinositol anchored protein that is also deficient in PNH. When MIRL function was blocked with antibody, C3 deposition markedly increased, and 100% of the Inab cells hemolyzed in acidified serum. These studies demonstrate that susceptibility to acidified serum lysis is controlled primarily by MIRL, and that in addition to its regulatory affect on the membrane attack complex, MIRL also modulates the activity of the C3 convertase of the alternative pathway by a mechanism that remains to be determined.     

Phospholipase C signaling involvement in macrotubule assembly and activation of the mechanism regulating protoplast volume in plasmolyzed root cells of Triticum turgidum

The role of phosphoinositide-specific phospholipase C (PI-PLC) signaling in the macrotubule-dependent protoplast volume regulation in plasmolyzed root cells of Triticum turgidum was investigated. At the onset of hyperosmotic stress, PI-PLC activation was documented. Inhibition of PI-PLC activity by U73122 blocked tubulin macrotubule formation in plasmolyzed cells and their protoplast volume regulatory mechanism. In neomycin-treated plasmolyzed cells, macrotubule formation and protoplast volume regulation were not affected. In these cells the PI-PLC pathway is down-regulated as neomycin sequesters the PI-PLC substrate, 4,5-diphosphate-phosphatidyl inositol (PtdInsP(2)). These phenomena were unaffected by R59022, an inhibitor of phosphatidic acic (PA) production via the PLC pathway. Taxol, a microtubule (MT) stabilizer, inhibited the hyperosmotic activation of PI-PLC, but oryzalin, which disorganized MTs, triggered PI-PLC activity. Taxol prevented macrotubule formation and inhibited the mechanism regulating the volume of the plasmolyzed protoplast. Neomycin partly relieved some of the taxol effects. These data suggest that PtdInspP(2) turnover via PI-PLC assists macrotubule formation and activation of the mechanism regulating the plasmolyzed protoplast volume; and the massive disorganization of MTs that is carried out at the onset of hyperosmotic treatment triggers the activation of this mechanism.