Activation of trehalase by heat shock in yeast ascospores: Correlation with total cellular cyclic-AMP content

An animal model resembling the human disease caused byCampylobacter jejuni has been developed. Characteristic illness followed intragastric challenge of neonatal mice with strains ofC. jejuni enhanced for virulence by serial intraperitoneal passage in weanling mice of organisms suspended in either mucin or iron dextran. Such passage lowered the LD₅₀ in weanlings from 2×10¹¹ colony-forming units (CFU) to 2×10⁵ CFU per mouse. Neonatal mice chellenged by intragastric intubation with 2×10⁹ CFU of the virulence-enhanced organisms suspended in mucin or iron dextran showed signs of infection by day 5, including severe diarrhea, increased musus discharge occasionally with blood, and reduced weight gain. Diarrhea contionued for eight days, after which most animals recovered. This mouse infection model provides a means for assessing the determinants of virulence among strains ofC. jejuni.     

COLONY-FORMING ABILITY OF BONE MARROW CELLS OF W ANAEMIC MICE ON MACROPHAGE LAYER FORMED IN PERITONEAL CAVITY OF MICE

The colony-forming ability of haematopoietic cells of W anaemic mice was examined on the macrophage layer formed in the peritoneal cavity of mice. Bone marrow cells of W anaemic mice formed a considerable number of colonies on the macrophage layer, notwithstanding they did not form any colonies in the spleen of the same recipients. As the colony-forming ability of the bone marrow cells was not reduced by the incubation with ³H-thymidine, most of the cells which formed colonies on the macrophage layer seemed to stay in G₀ state. The interrelationship between the spleen colony-forming cells, the macrophage-layer colony-forming cells, and in vitro colony-forming cells was discussed.     

Development of a quantitative method for determination of the optimal conditions for protoplast isolation from cultured plant cells

An index [kv: average isolation rate of viable protoplast (number/ml min)] was established to evaluate the optimal conditions for protoplast isolation from cultured plant cells. The optimal conditions for protoplasts isolation from Nicotiana tabacum BY2 cultured cells could be determined on the basis of the kv [31.7 × 10³ (number/ml min)]. The colony-forming efficiency of the protoplasts was about 46%. The optimal conditions for protoplasts isolation from Catharanthus roseus [kv = 38.1 × 10³ (number/ml min)] and Wasabia japonica [kv = 14.2 × 10³ (number/ml min)] cultured cells could also be determined. Furthermore, a method for rapid regenerating cell wall of protoplast in liquid culture using alginate gel containing locust bean gum was developed.     

Oxygen exposure increases resistance of Desulfovibrio vulgaris Hildenborough to killing by hydrogen peroxide

Inactivation of PerR by oxidative stress and a corresponding increase in expression of the perR regulon genes is part of the oxidative stress defense in a variety of anaerobic bacteria. Diluted anaerobic, nearly sulfide-free cultures of mutant and wild-type Desulfovibrio vulgaris (10⁵–10⁶ colony-forming units/ml) were treated with 0 to 2,500 μM H₂O₂ for only 5 min to prevent readjustment of gene expression. Survivors were then scored by plating. The wild type and perR mutant had 50% survival at 58 and 269 μM H₂O₂, respectively, indicating the latter to be 4.6-fold more resistant to killing by H₂O₂ under these conditions. Significantly increased resistance of the wild type (38-fold; 50% killing at 2188 μM H₂O₂) was observed if cells were pretreated with full air for 30 min, conditions that did not affect cell viability. The resistance of the perR mutant increased less (4.6-fold; 50% killing at 1230 μM H₂O₂), when similarly pretreated. Interestingly, no increased resistance of either was achieved by exposure with 10.6 μM H₂O₂ for 30 min, the highest concentration that could be used without killing the cells. Hence, in environments with low D. vulgaris biomass only the presence of external O₂ effectively activates the perR regulon. As a result, mutant strains lacking one of the perR regulon genes ahpC, dvu0772, rbr1 or rbr2 displayed decreased resistance to H₂O₂ stress only following pretreatment with air.     

Bacterial challenge and eicosanoids act in plasmatocyte spreading

We report on experiments designed to more thoroughly document the roles of eicosanoids as crucial elements in cell spreading and on experiments designed to test the hypothesis that in vivo bacterial infections influence cell spreading on glass surfaces. We used hemocytes prepared from tobacco hornworms, Manduca sexta (L.) (Lepidoptera: Sphingidae) and four species of bacteria (Serratia marcescens, Escherichia coli, Bacillus subtilis, and Micrococcus luteus) in each experiment. Our protocols yielded several important points: (i) hemocytes prepared from hornworms at 15 and 60 min following infection with, separately, each of the four bacterial species were fundamentally altered in size (all less than the 15‐µm counting cut‐off) and none of the hemocytes exhibited cell‐spreading behavior; (ii) the influence of bacterial challenge on cell spreading declined with incubation time post‐challenge; (iii) conditioned medium (CM) prepared by exposing hemocytes to bacterial cells in vitro exerted a strong dose‐dependent influence on cell spreading. Specifically, plasmatocytes increased in length from about 38 µm with 2.5% CM to a maximum of about 54 µm at 100% CM; and (iv) the retarding influence of dexamethasone (an eicosanoid biosynthesis inhibitor) on cell spreading was reversed by arachidonic acid, prostaglandin H₂, and CM. Taken together, these findings indicate that both bacterial infection and eicosanoids influence hemocyte‐spreading processes.     

Lead toxicity in Saccharomyces cerevisiae

The effect of Pb on Saccharomyces cerevisiae cell structure and function was examined. Membrane integrity was assessed by the release of UV-absorbing compounds and by the intracellular K⁺ efflux. No leakage of UV₂₆₀-absorbing compounds or loss of K⁺ were observed in Pb (until 1,000 μmol/l) treated cells up to 30 min; these results suggest that plasma membrane seems not to be the immediate and primary target of Pb toxicity. The effect of Pb on yeast metabolism was examined using the fluorescent probe FUN-1 and compared with the ability to reproduce, evaluated by colony-forming units counting. The exposition of yeast cells, during 60 min to 1,000 μmol/l Pb, induces a decrease in the ability to process FUN-1 although the cells retain its proliferation capacity. A more prolonged contact time (120 min) of yeast cells with Pb induces a marked (> 50%) loss of yeast cells metabolic activity and replication competence through a mechanism which most likely requires protein synthesis.     

Kinetics of bacteriophage lambda repressor synthesis directed by the PRE promoter: influence of temperature, multiplicity of infection, and mutation of PRM or the cro gene

Summary Expression of the P _RE (establishment) pathway for repressor synthesis is regulated both by phage-specific genetic elements and by physiological conditions. Here we describe the effects of temperature, multiplicity of infection, mutations in the cro gene, and a mutation in P _RM on P _RE-directed repressor synthesis. As Reichardt (1975a) has shown, repressor synthesis begins 5–15 min after infection by wildtype phage, and is shut off at 20–30 min after infection, depending on the temperature. At 43°, synthesis starts sooner, shuts off earlier, and leads to lower repressor levels than are attained at lower temperatures. Experiments with the temperature sensitive mutant crots20 demonstrate that, as had been shown previously in experiments at 30° and 37° C, cro protein is responsible for the shut-off of repressor synthesis at 43°. In addition to the effects of temperature, the kinetics of repressor synthesis are strongly affected by multiplicity of infection (moi). At mois greater than 10, repressor synthesis after infection by wildtype at 30° is dramatically inhibited. Unexpectedly, the P _RM mutation prm116, under certain conditions, can alleviate both cro-mediated shutoff and the inhibition of P _RE-directed repressor synthesis at high moi. These effects of prm116 are observed only at low temperature (30°–32° C) and at mois of about 6–10 or greater; they also appear to be cis-specific. Possible mechanisms for the effects of the prm116 mutation are discussed. Finally, these studies demonstrate that crots20, which was isolated as a temperature-sensitive lethal mutation in the cro gene (Herskowitz, unpublished), is temperature-sensitive with respect to the ability to shutoff P _RE-directed repressor synthesis; however, even at low temperature (30° C), the crots20 gene product is only partially active.     

Translocation and multiplication ofSpiroplasma citri in turnip (Brassica rapa)

Following inoculation of designated leaves of turnip plants withSpiroplasma citri byCirculifer tenellus, spiroplasmas were cultured first from roots (four days) and then from youngest leaves (eight days), but almost never from oldest leaves. In experiments using enzyme-linked immunosorbent assay to monitor changes in titer in turnip leaves during the course of plant infection,S. citri was detected seven days after inoculation and reached peak titers of 10¹⁰–10¹¹ colony-forming units/g 12–20 days after inoculation, declining thereafter. Spiroplasmas were detected 5–9 days before symptoms appeared.     

High-density and low-density capsule production byStreptococcus zooepidemicus

A group C streptococcus (Streptococcus zooepidemicus), isolated from the blood of a 79-year-old man who succumbed to infection, was examined for animal virulence, reactivity in an in vitro phagocytic assay, and the production of antiphagocytic structures. Initial examination of the clinical isolate by electron microscopy revealed the presence of high-density (HDC) and low-density (LDC) capsule variants. The HDC variant capsular material could be removed from the cell wall by hot acid extraction or obtained from the supernatant fluids when the organisms were grown in a defined medium. The capsular material was purified by ion-exchange chromatography on diethylaminoethyl cellulose and gel filtration on Sepharose 4B and was shown to be composed largely of a high molecular weight hyaluronic acid. Both the high-density and low-density capsule variants were shown to be mouse virulent with lethal dose 50 (LD₅₀) values of 3.7×10⁴ colony-forming units (CFU) and 3.3×10⁵ CFU, respectively. Opsonophagocytic assays with human peripheral polymorphonuclear leukocytes demonstrated that only the LDC organism could be phagocytized and killed in the presence of white blood cells, specific antibody, and complement.     

Amber mutants of Salmonella-phage P22 in genes engaged in the establishment of lysogeny

Summary Phage mutants were isolated with amber mutations in genes necessary for establishment of lysogeny. These mutants form turbid plaques on su ⁺ strain 527R1 and clear plaques of different types on LT2. According to complementation tests, fourteen mutants fall in the c ₂ gene, four in the c ₃ gene but no amber mutants were found belonging to the c ₁ gene. Pulse labelling experiments to follow DNA synthesis after phage infection were done with the mutants classified by complementation tests. Furthermore the labelling experiments demonstrated that the nonleaky c ₃ amber mutants displayed the same DNA synthesis pattern as c ₁ missense mutants. Since these c ₃ amber mutants complement missense c ₁ mutants it is concluded that the c ₃ and c ₁ genes must act together for the first transient repression of DNA synthesis, i.e., seven minutes after infection. It is suggested that clear plaque forming c ₁ amber mutants cannot be isolated because of polarity leading to defectivity of lysogenic as well as of lytic functions.The majority of the experiments presented are a part of the dissertation of H. D. Dopatka at the University of Göttingen.     

Stress proteins of<Emphasis Type="Italic"> Clostridium perfringens</Emphasis> type A immunoreact with antiserum from rabbits infected with gas gangrene

Various stressors were used to induce stress proteins in Clostridium perfringens. Cultures of C. perfringens FD-1041 were subjected to cold shock (28°C for 1 h), acid shock (pH 4.5 for 30 min), or heat shock (50°C for 30 min). Cells were lysed and protein samples were analyzed by immunoblotting with antiserum derived from rabbits suffering from gas gangrene. Eight cold shock proteins (approximate M_r 101, 82, 70, 37, 22, 12, 10 and 6 kDa) and also eight heat shock proteins (approximate M_r 101, 82, 70, 27, 22, 16, 12 and 10 kDa) were immunoreactive with the serum. No immunoreactive proteins were detected in samples subjected to acid shock proteins and purified DnaK protein was also non-immunoreactive with the serum. These immunogenic stress proteins may be important in regulating diseases caused by C. perfringens. Such proteins could be involved in cell survival mechanisms, serve as targets during infection, or play a role in recognition of the bacteria by the host.     

Ultra-wide band electromagnetic radiation does not affect UV-induced recombination and mutagenesis in yeast

Cell samples of the yeast Saccharomyces cerevisiae were exposed to 100 J/m² of 254 nm ultraviolet (UV) radiation followed by a 30 min treatment with ultra-wide band (UWB) electromagnetic pulses. The UWB pulses (101–104 kV/m, 1.0 ns width, 165 ps rise time) were applied at the repetition rates of 0 Hz (sham), 16 Hz, or 600 Hz. The effect of exposures was evaluated from the colony-forming ability of the cells on complete and selective media and the number of aberrant colonies. The experiments established no effect of UWB exposure on the UV-induced reciprocal and non-reciprocal recombination, mutagenesis, or cell survival. Bioelectromagnetics 19: 128–130, 1998. © 1998 Wiley-Liss, Inc.     

Effect of endogenous methylglyoxal on Chinese hamster ovary cells grown in culture

Methylglyoxal is a ketoaldehyde that reacts readily under physiological conditions with biologically relevant ligands, such as amine and sulfhydryl groups. It is produced in mammalian cells primarily as a by-product of glycolysis. The level of glucose, L-glutamine and fetal bovine serum in culture media was found to significantly affect levels of intracellular methylglyoxal in Chinese hamster ovary cells. Medium with 25 mM glucose and 5 mM L-glutamine caused an increase in free methylglyoxal levels of 90 to 100% relative to medium containing 5 mM glucose and 2 mM L-glutamine. Both of these media compositions are representative of those found in commercially available media. Pseudomonas putida glyoxalase I was expressed in Chinese hamster ovary cells to enhance methylglyoxal detoxification. The Chinese hamster ovary cell clones showed an 80 to 90% decrease in free methylglyoxal levels. The colony-forming ability of these cells was compared to wild-type Chinese hamster ovary cells under conditions found to cause elevated methylglyoxal levels. The wild-type cells showed a 10% decrease in colony-forming ability relative to the clones. This decrease was found to be statistically significant (P>0.99) by analysis of variance. The variation in colony-forming ability amongst the clones was statistically insignificant. More importantly, the clones shoed increased colony-forming ability relative to the wild-type cells under conditions of higher methylglyoxal production with fair to good statistical significance (P>0.75 to P>0.95). This result is the first quantifiable evidence that endogenously produced methylglyoxal can negatively affect cell function under conditions found in animal cell culture.Abbreviations ANOVA analysis of variance - CHO Chinese hamster ovary cells - CFA colony-forming ability - dhfr gene for dihydrofolate reductase - DHAP dihydroxyacetone phosphate - FBS fetal bovine serum - G-3-P glyceraldehyde-3-phosphate - GloI glyoxalase I - GloII glyoxalase II - GSH reduced glutathione - HPLC high-performance liquid chromatography - IMDM Iscove's modified Dulbecco's medium - MTX methotrexate - 2-MQ 2-methylquinoxaline - 5-MQ 5-methylquinoxaline - MEM minimal essential medium - P_i inorganic phosphate - PCA perchloric acid - o-PD o-phenylenediamine     

The determination of membrane transport parameters with the cell pressure probe: theory suggests that unstirred layers have significant impact

A simulation model was written to compute the time-kinetics of turgor pressure, P, change in Chara corallina during cell pressure probe experiments. The model allowed for the contribution of a membrane plus zero, one, or two unstirred layers of any desired thickness. The hypothesis that a cell with an unstirred layer is a composite membrane that will follow the same kind of kinetics with or without unstirred layers was tested. Typical ‘osmotic pulse’ experiments yield biphasic curves with minimum or maximum pressures, P_min(max), at time t_min(max) and a solute exponential decay with halftime . These observed data were then used to compute composite membrane properties, namely the parameters L_p = the hydraulic conductance, σ = reflection coefficient and P_s = solute permeability using theoretical equations. Using the simulation model, it was possible to fit an experimental data set to the same values of P_min(max), t_min(max) and incorporating different, likely values of unstirred layer thickness, where each thickness requires a unique set of plasmalemma membrane values of L_p, σ and P_s. We conclude that it is not possible to compute plasmalemma membrane properties from cell pressure probe experiments without independent knowledge of the unstirred layer thickness.     

Specificity of Sugar Transport in Trypanosoma gambiense*

SYNOPSIS Some carbohydrates inhibited glucose and fructose transport in Trypanosoma gambiense. Glucose transport was inhibited by glycerol, mannose, 2-deoxy-D-glucose, glucosamine and N-acetylglucosamine. Fructose transport was inhibited by glucose, glycerol, mannose, glucosamine and N-acetylglucosamine. Glucosamine transport appeared to be a mediated process and had a K_m of 1.20 mM and a V_max of 28.5 μM glucosamine/g dry wt/2 min. Glucosamine absorption was competitively inhibited by glucose, fructose and N-acetylglycosamine. N-Acetylglucosamine appeared to enter by passive diffusion. Reciprocal inhibition experiments suggested that glucosamine entered entirely via the “fructose site.” Specificity of sugar transport in T. gambiense differs from that of other organisms.     

Photoquenching of the Bioluminescence of the Genetically Engineered Escherichia coli TG1 (pXen7) Strain in the Presence of Photodithazine

The photoquenching of the bioluminescence of the genetically engineered Escherichia coli TG1 (pXen7) strain was studied in the presence of the photosensitizer photodithazine, a glucosamine salt of chlorin e ₆. The photosensitized quenching of the bioluminescence was found to correlate with the colony-forming ability of the strain. The data obtained are discussed from the standpoint of using biosensor luminescent bacterial systems for the assessment of the efficiency of photosensitizers in antimicrobial photochemotherapy.     

An Association Between High Peroxidase Activity in Lettuce (Lactuca sativa) and Field Resistance to Downy Mildew (Bremia lactucae)

The association between variation for pre-infection peroxidase activity and levels of field resistance-susceptibility to downy mildew (Bremia lactucae) was investigated in lettuce (Lactuca sativa) cultivars, accessions of L. serriola (prickly lettuce), segregating F₂ populations and selected F₃ families from a cross between field resistant and susceptible lettuce cultivars. A trend was apparent in this series of experiments indicating that one component of field resistance could be related to a high level of peroxidase activity prior to infection. The data suggest that in breeding programmes there could be merit in imposing primary selection for high peroxidase activity prior to field selection for resistance.     

Coexpression of bile salt hydrolase gene and catalase gene remarkably improves oxidative stress and bile salt resistance in <Emphasis Type="Italic">Lactobacillus casei</Emphasis>

Lactic acid bacteria (LAB) encounter various types of stress during industrial processes and gastrointestinal transit. Catalase (CAT) and bile salt hydrolase (BSH) can protect bacteria from oxidative stress or damage caused by bile salts by decomposing hydrogen peroxide (H₂O₂) or deconjugating the bile salts, respectively. Lactobacillus casei is a valuable probiotic strain and is often deficient in both CAT and BSH. In order to improve the resistance of L. casei to both oxidative and bile salts stress, the catalase gene katA from L. sakei and the bile salt hydrolase gene bsh1 from L. plantarum were coexpressed in L. casei HX01. The enzyme activities of CAT and BSH were 2.41 μmol H₂O₂/min/10⁸ colony-forming units (CFU) and 2.11 μmol glycine/min/ml in the recombinant L. casei CB, respectively. After incubation with 8 mM H₂O₂, survival ratio of L. casei CB was 40-fold higher than that of L. casei CK. Treatment of L. casei CB with various concentrations of sodium glycodeoxycholate (GDCA) showed that ~10⁵ CFU/ml cells survived after incubation with 0.5% GDCA, whereas almost all the L. casei CK cells were killed when treaded with 0.4% GDCA. These results indicate that the coexpression of CAT and BSH confers high-level resistance to both oxidative and bile salts stress conditions in L. casei HX01.     

Water relations and hydraulic control of stomatal behaviour in bell pepper plant in partial soil drying

Two experiments, a split-root experiment and a root pressurizing experiment, were performed to test whether hydraulic signalling of soil drying plays a dominant role in controlling stomatal closure in herbaceous bell pepper plants. In the split-root experiment, when both root parts were dried, synchronous decreases in stomatal conductance (g_s), leaf water potential (LWP) and stem sap flow (SF_stem) were observed. The value of g_s was found to be closely related to soil water potential (SWP) in both compartments. Tight relationships were observed between g_s and stem sap flow under all conditions of water stress, indicating a complete stomatal adjustment of transpiration. When the half-root system has been dried to the extent that its water uptake dropped to almost zero, declines in g_s of less than 20% were observed without obvious changes in LWP. The reduced plant hydraulic conductance resulting from decreased sap flow and unchanged LWP may be a hydraulic signal controlling stomatal closure; the results of root pressurizing supported this hypothesis. Both LWP and g_s in water-stressed plants recovered completely within 25 min of the application of root pressurizing, and decreased significantly within 40 min after pressure release, indicating the hydraulic control of stomatal closure. Our results are in contrast to those of other studies on other herbaceous species, which suggested that chemical messengers from the roots bring about stomatal closure when plants are in water stress.