Concanavalin A-induced lysis of zoospores of Blastocladiella emersonii

Concanavalin A (ConA) induces lysis of zoospores of the aquatic fungus Blastocladiella emersonii. The rapid lysis can be completely blocked by α-methyl- -mannoside. At lower temperatures the cells are more tolerant towards lysis compared with cells at room temperature. Dimeric ConA derivatives and Lens culinaris hemagglutinin A are less effective, whilst other lectins tested do not induce lysis at all. We suggest that cluster formation of adjacent ConA receptors precedes lysis.     

Melittin lysis of red cells

Summary This paper describes experiments designed to explore interactions between human red blood cell membranes and melittin, the main component of bee venom. We found that melittin binds to human red cell membranes suspended in isotonic NaCl at room temperature, with an apparent dissociation constant of 3×10^–8 m and maximum binding capacity of 1.8×10⁷ molecules/cell. When about 1% of the melittin binding sites are occupied, cell lysis can be observed, and progressive, further increases in the fraction of the total sites occupied lead to progressively greater lysis in a graded manner. 50% lysis occurs when there are about 2×10⁶ molecules bound to the cell membrane. For any particular extent of melittin binding, lysis proceeds rapidly during the first few minutes but then slows and stops so that no further lysis occurs after one hour of exposure of cells to melittin. The graded lysis of erythrocytes by melittin is due to complete lysis of some of the cells, since both the density and the hemoglobin content of surviving, intact cells in a suspension that has undergone graded melittin lysis are similar to the values observed in the same cells prior to the addition of melittin. The cells surviving graded melittin lysis have an increased Na and reduced K, proportional to the extent of occupation of the melittin binding sites. Like lysis, Na accumulation and K loss proceed rapidly during the first few minutes of exposure to melittin but then stops so that Na, K and hemoglobin content of the cells remain constant after the first hour. These kinetic characteristics of both lysis and cation movements suggest that melittin modifies the permeability of the red cell membrane only for the first few minutes after the start of the interaction. Direct observation of cells by Nomarsky optics revealed that they crenate, become swollen and lyse within 10 to 30 sec after these changes in morphology are first seen. Taken together, these results are consistent with the idea that melittin produces lysis of human red cells at room temperature by a colloid osmotic mechanism.     

Early steps in specific tumor cell lysis by sensitized mouse T lymphocytes. I. Resolution and characterization.

Addition of high molecular weight dextran to culture medium prevents the initiation of T lymphocyte-mediated killing by holding the cytolytic T lymphocytes (CTL) and target cells in suspension and preventing intercellular contact. Suspension in 10% dextran was used to interrupt the ongoing formation of adhesions between CTL and target cells already in contact in a centrifuged pellet. The results demonstrate that 1) firm adhesions form between CTL and target cells within 1 min at 37 degrees C; 2) once formed, these adhesions are stable at low temperature and are resistant to mechanical shearing forces; 3) these adhesions can be disrupted by EDTA; 4) immediately after the adhesions form, separation of the CTL from the target cells prevents lysis of the latter; 5) after incubation of targets adhering to CTL for an additional 6 min at 37 degrees C, removal of the CTL no longer prevents target cell lysis. Thus, target cells become "programmed" for subsequent lysis within a few minutes after contact with CTL, after which lysis occurs during the next several hours without further participation of the effector cell. At 15 degrees C, adhesions form 1/17 as fast as at 37 degrees C. Programming of target cells for lysis occurs 1/76 as fast at 15 degrees C as at 37 degrees C. Thus, the programming for lysis step is about 4-fold more temperature dependent than the adhesion step. In addition to being detected by subsequent target cell lysis in 10% dextran, the adhering cell clusters can be counted with low power microscopy. This permitted verification that EDTA separates the clusters after programming for lysis is complete. Moreover, the great majority of the clusters seen at 37 degrees C are antigen-specific. Knowledge of the cluster size distribution and the subsequent level of lysis permits the deduction that not less than 6% of the sensitized peritoneal cell populations used were CTL.     

Characteristics and mechanism of IFN-gamma-induced protection of human tumor cells from lysis by lymphokine-activated killer cells

IFN-gamma has been shown to reduce the sensitivity of tumor cells to lysis by NK cells. The close relationship between NK cells and lymphokine-activated killer (LAK) cells has prompted us to investigate whether IFN-gamma pre-treatment also affects the sensitivity of tumor cells to lysis by LAK. We have shown previously that IFN-gamma can induce a significant reduction in the sensitivity of both cultured and fresh (surgically obtained) human tumor cells to lysis by LAK. Herein we show that changes in the sensitivity to LAK lysis of cultured human tumor cells can be induced by as little as 1 to 10 U/ml of IFN-gamma; a dose well within the range that can be achieved in vivo. Protection is induced within hours after treatment with IFN-gamma and is dependent on the continued presence of IFN-gamma. Tumor cells cultured in IFN-gamma for several days remain less sensitive to lysis and do not become refractory to IFN-gamma-mediated protection. In the absence of IFN-gamma, treated tumor cells regain "normal" sensitivity to lysis within 48 to 72 h. We have also investigated the mechanisms by which IFN-gamma reduces tumor cell sensitivity to LAK lysis using cold target competition, monolayer depletion, direct binding, and kinetic assays. IFN-gamma pre-treatment does not alter the kinetics of tumor cell lysis by LAK. Our data are most compatible with a model in which IFN-gamma reduces the ability of a subpopulation of tumor cells to induce the LAK effector cell to initiate lysis. These results are closely parallel to observations made on the IFN-mediated protection of targets from NK lysis and support the notion that NK- and LAK-mediated lysis are closely related. These results may have significance in vivo because high levels of IFN-gamma may be present at the tumor site or may be induced after therapeutic immunomodulation.     

The anticancer drug,cisplatin, increases the naturally occurring cell-mediated lysis of tumor cells

Summary It has been proposed that a component of the antitumor potential of the chemotherapeutic agent, cisplatin, resides in the host's ability to respond to cisplatintreated tumor cells. Here we report that tumor cells that are normally resistant to lysis mediated by naturally occurring cytotoxic cells showed an increased sensitivity to lysis mediated by murine spleen cells or human peripheral blood monocytes and lymphocytes when cisplatin was added at the beginning of the lytic assay. This was shown for the lysis of both murine and human tumor cells. The pretreatment of tumor cells, but not effector cells with cisplatin caused an increase in lysis in the presence of murine spleen cells or human peripheral blood leukocytes, indicating that the effect of cisplatin is to reduce resistance to lysis by these effector cells. The lysis of tumor cells by naturally occurring cytotoxic cells was blocked by antibodies specific for tumor necrosis factor. In addition, the ability of cisplatin to increase lysis was seen with cells that are sensitive to natural cytotoxic cells, but not with cells that are sensitive to natural killer cells. These results suggest that the effector cells that mediate the lysis of these tumor cells in the presence of cisplatin are likely to be natural cytotoxic cells. The ability of cisplatin to increase the lysis of tumor cells by naturally occurring cytotoxic cells indicates that these cells may be a host defense mechanism that contributes to the anticancer potential of cisplatin.     

Application of alkaline unwinding assay for detection of mutagen-induced DNA strand breaks

The frequency of single-strand breaks in parental DNA and gaps in nascent DNA in various cells exposed to methyl methanesulfonate (MMS) or methylnitrosourea (MNU) was investigated by alkaline unwinding assay using two types of alkaline lysis conditions, 22°C lysis versus 0°C lysis. The DNA damage induced by MMS and MNU is considered to be characteristic of lesions produced in DNA by alkylating agents. The aim of our research project was to adjust this method to be able to detect the greatest number of DNA lesions induced by alkylating agents in parental DNA of different mammalian cells. In our experiments we used human cell lines EUE, GM637 and XP12, Chinese hamster V79 cells, and Syrian hamster embryo cells. The higher level of strand interruptions was detected under conditions of lysis of cells at 22°C. Probably the level of strand interruptions found after the lysis of cells at 22°C correlates with the increased number of disrupted alkali-labile sites of DNA. It is remarkable that the different lysis conditions did not influence the number of gaps detected in nascent DNA of alkylated cells. Comparing induction of breaks and gaps in radiolabelled strands of parental and daughter DNA under different lysis conditions, we succeeded in defining the optimum conditions for detection of alkali-labile sites of parental DNA.     

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.     

Osmotic Properties of Spheroplasts from Saccharomyces cerevisiae Grown at Different Temperatures

Spheroplasts were prepared from cells of Saccharomyces cerevisiae NCYC 366, grown at 30 or 15 C, by incubating cells with snail-gut juice after pretreatment with 2-mercaptoethanol. Walls of cells grown batchwise or in continuous culture at 15 C were more resistant to digestion with snail juice than walls on cells grown under the same conditions as 30 C. Spheroplasts lysed when suspended in hypotonic solutions of mannitol. The resistance of spheroplasts to osmotic lysis tended to increase when the test temperature was lowered below 30 C. The increased resistance was greater with spheroplasts from cells grown at 15 C. Cations, especially Ca²⁺, protected spheroplasts against osmotic lysis. In general, the protective effects, measured at 30 C, were smaller with spheroplasts from cells grown at 15 C compared with 30 C. Citrate and ethylenediaminetetraacetate (EDTA) decreased the resistance of spheroplasts to osmotic lysis. On the whole, the decrease was greater with spheroplasts from cells grown at 30 C rather than 15 C. In the presence of EDTA, spheroplasts from cells grown at 30 C were less resistant to osmotic lysis at 5 C than at 30 C; when spheroplasts from cells grown at 15 C were similarly examined, they were more resistant to lysis at 5 C than at 30 C. Spheroplast membranes from cells grown at 15 C had slightly but significantly greater contents of Mg²⁺, Ca²⁺, K⁺, and Na⁺ compared with spheroplast membranes from cells grown at 15 C. Mg²⁺ and Ca²⁺ were more easily extracted with EDTA from membranes of 30 C-grown cells than from 15 C-grown cells.     

Enhancement of redirected target cell lysis by cytotoxic T lymphocytes in the presence of cytochalasin B

The cytochalasins are known secretogogues. Their function as such is examined in light of the granule exocytosis model for lymphocyte-mediated cytotoxicity. Cytochalasin B is found to enhance target cell lysis by cytotoxic T lymphocytes when antibody-coated polystyrene beads are used to bridge the cells. The pattern of lysis is found to be biphasic in its dependence on cytochalasin B. Secretion of the enzyme BLT-esterase from the effector cells parallels the cytochalasin concentration-dependent pattern of lysis. Cytochalasin D is also able to enhance lysis but at concentrations less than cytochalasin B. Cytochalasin B does not inhibit binding of breads to the effector cell. This is shown by the ability of fluorescent beads coated with antibody to bind with an appropriate specificity to cells. These studies indicate that cytochalasin B is not strictly inhibitory for the induction of target cell lysis but can enhance lymphocyte-mediated lysis at low drug concentrations. These results are compatible with the interpretation that target cell lysis is mediated through a secretion process from cytotoxic T lymphocytes.     

Involvement of Membrane Lipids in Cold Shock-induced Autolysis of Bacillus subtilis Cells

Exponentially growing Bacillus subtilis cells autolysed when exposed to cold shock treatment in minimal medium followed by incubation at 37°C. From characteristics of the lysis, it was suggested that the cold-shock-induced cell lysis resulted from the perturbation of membrane organization that is initiated by rapid changes in temperature, lipid phase transitions. For maximum lysis induction to occur, in addition to rapid cooling to 5°C or lower, retention at temperatures lower than 10°C for at least 20 min is required. The cell sensitivity to the autolysis induction by cold shock was different between cells grown at 25°C and cells grown at 37°C. Analyses of the fatty acid composition and the phase transition temperature of membrane lipids suggested that the membrane fluidity may affect the autolysis induction. Experiments to discover the effects of cerulenin treatment and lipid addition on autolysis induction and the autolysin activity level support the hypothesis that membrane lipids are involved in cold-shock-induced cell autolysis.     

Cell-density-dependent lysis and sporulation of Myxococcus xanthus in agarose microbeads.

Vegetative cells of Myxococcus xanthus were immobilized in 25-microns-diameter agarose microbeads and incubated in either growth medium or sporulation buffer. In growth medium, the cells multiplied, glided to the periphery, and then filled the beads. In sporulation buffer, up to 90% of the cells lysed and ca. 50% of the surviving cells formed resistant spores. A strong correlation between sporulation and cell lysis was observed; both phenomena were cell density dependent. Sporulation proficiency was a function of the average number of cells within the bead at the time that sporulation conditions were imposed. A minimum of ca. 4 cells per microbead was necessary for efficient lysis and sporulation to proceed. Increasing this number accelerated the lysis and sporulation process. No lysis occurred when an average of 0.4 cell was entrapped per bead. Entrapping an average of 1.7 cells per bead resulted in 46% lysis and 3% sporulation of survivors, whereas entrapping an average of 4.2 cells per bead yielded 82% lysis and 44% sporulation of the surviving cells. Sporulation and lysis also depended upon the cell density in the culture as a whole. The existence of these two independent cell density parameters (cells per bead and cells per milliliter) suggests that at least two separate cell density signals play a role in controlling sporulation in M. xanthus.     

Differences between ATP-mediated cytotoxicity and cell-mediated cytotoxicity.

There has been considerable recent interest in the possible role of extracellular ATP in cell-mediated cytotoxicity. To investigate the similarities and differences between ATP-mediated lysis and CTL-mediated lysis, we studied in detail the ATP-mediated lysis of EL-4 cells, which are highly susceptible to lysis by extracellular ATP. ATP-mediated lysis was time and concentration dependent; most lysis occurred within 4 to 6 h of incubation. The kinetics of ATP- and cell-mediated lysis were similar. However, in contrast to CTL-mediated lysis, ATP-mediated lysis of EL-4 cells did not appear to be accompanied by characteristic chromosomal degradation (apoptosis). In order to compare these cytotoxic processes in greater detail, ATP-resistant clones were derived by growing EL-4 cells continuously in the presence of high concentrations of ATP. These cloned EL-4 lines showed marked resistance to ATP-mediated cytotoxicity across a wide range of concentrations but were as susceptible as the parent EL-4 cells to cell-mediated cytotoxicity by an alloreactive effector population from a MLC. Thus, there appear to be a number of differences between ATP-mediated and cell-mediated cytotoxicity in this system; most notable is the identification of cell lines that are resistant to ATP but susceptible to CTL-mediated lysis.     

Sensitivity of simian virus 40-transformed C57BL/6 mouse embryo fibroblasts to lysis by murine natural killer cells

The susceptibility of mouse cells expressing full-length or truncated transforming protein (T antigen) of simian virus 40 (SV40) to lysis by murine natural killer (NK) cells was assessed. For these studies, C57BL/6 mouse embryo fibroblasts (B6/MEF) were transformed by transfection with SV40 DNA encoding the entire T antigen. The transformed cell lines were tested for susceptibility to lysis by nonimmune CBA splenocytes as a source of NK cells and to lysis by C57BL/6, SV40-specific cytolytic T cells (CTL). It was found that 13 of 15 clonally derived, SV40-transformed H-2b cell lines were susceptible to lysis by NK cells. However, there was some variation in their susceptibility to lysis by NK cells. There was no correlation between susceptibility to lysis by SV40-specific CTL and to lysis by NK cells. Cells transfected with a plasmid which encodes only the N-terminal half of the SV40 T antigen were consistently less susceptible to lysis by NK cells, suggesting that expression of only the N-terminus of the T antigen was insufficient for optimal susceptibility to lysis by NK cells. Primary mouse embryo fibroblasts transformed by human adenovirus type 5 E1 region DNA were also found to be susceptible to NK cell-mediated lysis. Lysis of SV40-transformed cells by nonimmune CBA splenocytes was mediated by NK cells because: lysis was augmented when the effector cells were treated with interferon before assay; and lysis was abrogated when the effector cells were obtained from mice that had been depleted of NK activity by treatment with antiserum against the asialo GM1 surface marker. These results indicate that primary mouse cells which are transformed by SV40 and which express the native T antigen are susceptible to lysis by mouse NK cells. Conversely, cells transformed by a plasmid encoding only the N-terminal half of the T antigen express reduced susceptibility to lysis by NK cells.     

Physicochemical Effects of Long Chain Fatty Acids on Bacterial Cells and their Protoplasts

S ummary . Fatty acids of chain length > C₁₀ induced lysis of protoplasts at pH 7·4 when the concentration was nearly bactericidal. At pH 6, lauric and linoleic acids produced lysis above bactericidal concentrations but, at pH 8, lysis was produced by the same acids below bactericidal concentrations. The lysis was immediate at pH 8, but at pH 6 the effect was preceded by contraction of protoplasts. At pH 7·4 the order of lytic activity between individual fatty acids was similar to that of bactericidal activity and the response of protoplasts of Bacillus megaterium relative to those of Micrococcus lysodeikticus reflected differences in bactericidal sensitivity though whole cells were much less sensitive to fatty acid-induced leakage effects than protoplasts. Reversal agents antagonized the lysis of protoplasts by fatty acids. A physicochemical basis for the action of fatty acids and reversal agents on protoplasts and whole cells is discussed.     

Prm1 prevents contact-dependent lysis of yeast mating pairs

Membrane fusion requires localized destabilization of two phospholipid bilayers, but unrestrained membrane destabilization could result in lysis. prm1 mutant yeast cells have a defect at the plasma membrane fusion stage of mating that typically results in the accumulation of prezygotes that have fingers of membrane-bound cytoplasm projecting from one cell of each pair into its mating partner in the direction of the osmotic gradient between the cells. However, some prm1 mating pairs fuse successfully whereas the two cells in other prm1 mating pairs simultaneously lyse. Lysis only occurs if both mating partners are prm1 mutants. Osmotic stabilization does not protect prm1 mating pairs from lysis, indicating that lysis is not caused by a cell wall defect. prm1 mating pairs without functional mitochondria still lyse, ruling out programmed cell death. No excess lysis was found after pheromone treatment of haploid prm1 cells, and lysis did not occur in mating pairs when prm1 was combined with the fus1 and fus2 mutations to block cell wall remodeling. Furthermore, short (<1 microm) cytoplasmic microfingers indicating the completion of cell wall remodeling appeared immediately before lysis. In combination, these results demonstrate that plasma membrane contact is a prerequisite for lysis. Cytoplasmic microfingers are unlikely to cause lysis since most prm1 mating pairs with microfingers do not lyse, and microfingers were also detected before fusion in some wild-type mating pairs. The lysis of prm1 mutant mating pairs suggests that the Prm1 protein stabilizes the membrane fusion event of yeast mating.     

Evaluation of cell lysis methods for platinum metallomic studies of human malignant cells

Three cell lysis methods—freeze-thaw, osmosis, and a chemical detergent-based method—were evaluated as sample treatment procedures for platinum metallomic studies of in vitro grown human malignant cells exposed to cisplatin. The lysis methods are relatively mild, resemble those commonly used in proteomic studies, and were selected because of the proven reactivity of platinum drug metabolites and indications that platinum in exposed cells and plasma is mainly associated with proteins. The chemical method gave an absolute lysis efficiency of greater than 80%, whereas the freeze-thaw and osmosis methods gave approximately 30% lower efficiency. The within- and between-batch lysis reproducibilities were, for all methods, better than 20 and 24% relative standard deviations, respectively. Total platinum concentration normalized to lysate protein content was statistically the same for all lysis methods. Reagents in the chemical lysis buffer did, however, react with platinum analyte compounds, making this method unsuitable for analysis of reactive compounds or for metallome profiling encompassing analytes with unknown reactivity. Of the lysis methods evaluated here, osmosis gave the highest cisplatin recovery, likely because this protocol is chemically inert and can be carried out at a constant low temperature. Therefore, it is the recommended cell lysis method for the determination of reactive and unknown intracellular platinum compounds.     

Plasminogen activation and lysis of blood clots induced by cells in vitro

When human diploid fibroblasts were seeded onto the surface of blood clots, lysis of the clot occurred as a result of the release of cellular plasminogen activator. A number of aspects of this lysis were studied. 1. There was no significant difference in rates of lysis of whole blood clots, platelet-rich plasma clots, and platelet-poor plasma clots brought about by the same number of fibroblasts. 2. Clot lysis was promoted by nondividing cells and by proliferating cells. 3. Using cycloheximide to block protein synthesis it was found that the plasminogen activator released by fibroblasts had an active half-life of less than an hour. 4. When clots were washed prior to the addition of cells then lysis occurred at an increased rate. This was probably due to the removal of alpha 2-antiplasmin from the clots, since when antisera to alpha 2-antiplasmin was added to clots, lysis also proceeded at an increased rate. 5. Medium conditioned by fibroblasts did not promote clot lysis even when antiplasmin was removed by washing or by addition of antisera. 6. Cells had to be in direct contact with the clot in order to bring about lysis; when cells were separated from clots by permeable membranes there was no lysis. 7. When cross-linking of fibrin was reduced by the inhibition of transglutaminase, the rate of clot lysis was increased.     

How to trigger periplasmic release in recombinant Escherichia coli: A comparative analysis

Recombinant protein production in Escherichia coli usually leads to accumulation of the product inside the cells. To capture the product, cells are harvested, resuspended, and lysed. However, in cases where the product is transported to the periplasm, selective disruption of the outer membrane leads to much purer crude extracts compared to complete cell lysis, as only 4–8% of the native E. coli host cell proteins are located in the periplasmic space. A variety of different strategies to enable selective release of the product from the periplasm is available. However, in most of these studies cells are harvested before they are resuspended in permeabilization agent and no differentiation between leakiness and lysis is made. Here, we tested and compared different strategies to trigger leakiness. In contrast to other studies, we performed these experiments during cultivation and quantified both leakiness and lysis. In summary, we recommend incubation with 350 mM TRIS at constant pH for several hours followed by a mild heat treatment up to 38°C to trigger leakiness with only minimal lysis. This study represents a comparative summary of different strategies to trigger E. coli leakiness and describes a solid basis for further experiments in this field.     

Growth and lysis of the fish pathogen Moritella viscosa

AIMS: The sensitivity to lysis is a profound bottleneck to studies of the fish pathogen Moritella viscosa. The aim of this study was to examine the growth and the lysis process of M. viscosa cells under different physical and chemical conditions. METHODS AND RESULTS: Growth and cell lysis were studied under different conditions. The growth rate was highest at 15 degrees C and lowest at 4 degrees C, but the cells reached a higher density at 4 degrees than at 15 degrees C and the cells were more stable. The presence of minerals reduced lysis. CONCLUSIONS: Premature lysis of the cells is dependent on environmental factors. Moritella viscosa should be cultivated and kept in media containing a certain set of minerals and at temperatures as low as 4 degrees C. Formalin favours the stability of cells. The instability of the M. viscosa cells at temperatures above 10 degrees C might be one of the factors responsible for their inability to infect fish at higher temperatures. The presence of DHA in the cell membranes is predicted to be responsible for the susceptibility of the cells to lysis. SIGNIFICANCE AND IMPACT OF THE STUDY: The cultivation of M. viscosa cells is a key factor in studying the pathogenicity of the bacteria and in making an effective vaccine to prevent winter ulcers in farmed fish. The study provided recommendations on how to cultivate M. viscosa and how lysis of the cells can be minimized.