Adherence of Yersinia enterocolitica to Mammalian Epithelial Cell Lines

Yersinia enterocolitica RIMD 2501003 grown at 25 C avidly adhered to various kinds of cultured epithelial cell lines (HeLa, FL, Y-1 adrenal, human intestine, human conjunctiva) but the bacteria grown at 37 C did not adhere. This phenomenon paralleled the temperature-dependent motility of the bacteria. To clarify the adherence mechanism, we obtained two kinds of mutants, an immobile mutant and a nonadherent mutant, by treatment with A-methyl-A-nitro-A-nitrosoguanidine. The immobile mutant did not move on soft agar but retained the capacity to adhere to cultured epithelial cells when grown at 25 C. The nonadherent mutant did not adhere to cultured epithelial cells but retained the ability to move on soft agar when grown at 25 C. When the bacteria were killed by heat, ultraviolet light irradiation or formaldehyde they lost their capacity to adhere to the cultured epithelial cells. Antiserum against Y. enterocolitica RIMD 2501003 grown at 25 C was absorbed with the bacteria grown at 37 C, with the bacteria grown at 25 C, with the nonadherent mutant grown at 25 C and with the bacteria killed by various means. Only the antiserum absorbed with bacteria grown at 37 C inhibited the adherence of bacteria. These data indicate that motility does not correlate with adherence of Y. enterocolitica. It appears that the adherence factor involves both a temperature-dependent surface factor and a factor synthesized de novo during the interaction of susceptible cells with the bacteria.     

The ability of disease and non-disease producing strains of Clostridium perfringens from chickens to adhere to extracellular matrix molecules and Caco-2 cells

Clostridium perfringens is a major enteric pathogen that is responsible for causing necrotic enteritis of poultry. The ability to adhere to the host’s intestinal epithelium and to extracellular matrix molecules (ECMM) in the gut, are strategies used by numerous bacterial enteropathogens, however, C. perfringens has received comparatively little attention in this respect. The present study investigated sixteen type A C. perfringens isolates from chickens, with varying disease producing ability with respect to necrotic enteritis in chickens, for their ability to adhere to nine different extracellular matrix molecules (ECMM) and to the intestinal epithelial cell line Caco-2. C. perfringens strains were able to bind to ECMMs and there was strain variation. Strains of C. perfringens that produced severe disease, were capable of binding to collagen type III, IV and V, fibrinogen, laminin and vitronectin at higher levels than less severe disease producing strains, suggesting that the ability to adhere to ECMMs might enhance virulence with respect to induction of necrotic enteritis. In addition, severe disease producing strains also bound better to collagen type III and IV and fibrinogen, than non-disease producing strains. The present study also showed that some strains of C. perfringens possessed the ability to adhere to Caco-2 cells; however no relationship was found between the ability to adhere to Caco-2 cells and disease producing ability.     

The role of surface structures of Streptococcus agalactiae in adhesion to epithelial cells

Induced mutants of S. agalactiae which differed in surface structures were used for the study. The aim of using them was to try to correlate the presence of defined structures or surface properties with the ability of group B streptococci to attach to epithelial cells. The presence of protein antigen R conditioned strong binding of S. agalactiae cells to hydrophobic gel. Strains bearing clumping factor (CF) showed high surface hydrophobicity and presented compact growth in serum soft agar. However, there was no correlation between high surface hydrophobicity and the ability to adhere. Fibrinogen binding decreased the attachment to epithelial cells of CF-positive strains. Preincubation of bacterial cells with lectin (ConA) did not influence the attachment of S. agalactiae strains with protein surface antigen but increased the adhesion of the strains with polysaccharide antigen or untypable.     

Novel effects of the prototype translocating Escherichia coli, strain C25 on intestinal epithelial structure and barrier function

Intestinal bacteria play an etiologic role in triggering and perpetuating chronic inflammatory bowel disorders. However, the precise mechanisms whereby the gut microflora influences intestinal cell function remain undefined. Therefore, the effects of the non-pathogenic prototype translocating Escherichia coli, strain C25 on the barrier properties of human T84 and Madine-Darby canine kidney type 1 epithelial cells were examined. T-84 cells were also infected with commensal E. coil, strains F18 and HB101, and enterohaemorrhagic E. coli, serotype O157:H7. Strains F18 and HB101 had no effect on transepithelial electrical resistance (TER) of T84 monolayers. By contrast, epithelial cells infected with strain C25 displayed a time-dependent decrease in TER, preceded by an altered distribution of the cytoskeletal protein alpha-actinin, comparable to infection with E. coli O157:H7. E. coli C25 infection also led to activation of nuclear factor kappaB (NF-kappaB), interleukin-8 secretion and alterations in localization of claudin-1, but not zona occludens-1 or claudin-4, in T84 cells. There were adherent C25 bacteria on the intact apical surface of infected T84 cells, while mitochondria appeared swollen and vacuolated. These novel findings demonstrate the ability of a translocating commensal bacterium to adhere to and modulate intestinal epithelial barrier function and to induce morphological changes in a manner distinct from the known enteric pathogen, E. coli O157:H7.     

Transfection of lung cells in vitro and in vivo: effect of antioxidants and intraliposomal bFGF

We hypothesized that constitutive formation of reactive oxygen species by respiratory cells is a barrier to gene transfer when liposome-DNA complexes are used, by contributing to rapid degradation of plasmid DNA. When plasmid DNA is complexed to liposomes it is protected against H(2)O(2)-mediated degradation but not that mediated by the hydroxyl radical. Treatment of distal rat fetal lung epithelial cells (RFL(19)Ep) with the vitamin E analog Trolox (50 microM) reduced intracellular plasmid degradation. Both Trolox (50 microM) and an iron chelator, phenanthroline (0.1 microM), significantly increased transgene expression in RFL(19)Ep approximately twofold, consistent with a hydroxyl radical-mediated inhibition of transgene expression. When basic fibroblast growth factor (bFGF; 20 ng/ml), a growth factor with antioxidant properties, was included within liposomes, we observed a significantly greater enhancement of RFL(19)Ep transgene expression (approximately 2-fold) over that seen with Trolox or phenanthroline. Inclusion of bFGF within liposomes also significantly enhanced (approximately 4-fold) transgene expression in mice following intratracheal instillation.     

Quantitation of specific binding of erythropoietin to human erythroid colony-forming cells

Highly purified human erythroid colony-forming cells (ECFC), which consist predominately of colony-forming units-erythroid (CFU-E), were prepared from human blood and used to study the binding and processing of erythropoietin (Ep). When radioiodinated human recombinant Ep (125I-rEp) was incubated with these cells, binding was specific and saturable. Specific binding was directly proportional to cell concentration and did not occur with other human cells. Saturation of specific binding at 3 degrees C occurred at 1 nM (3.9/U/ml), and Scatchard analysis revealed two classes of binding sites on the cell surface. Of a total of 1,050 binding sites per ECFC, one-fifth had a Kd of 0.10 nM, while the remainder had a Kd of 0.57 nM. Specific binding was twofold greater at 37 degrees C than at 3 degrees C, and removal of surface-bound Ep with acid indicated that 125I-rEp was internalized into the cells after incubation at 37 degrees C. Further incubation at this temperature showed a decline of cellular radioactivity, with a release of small molecular weight degradation fragments into the medium. These studies demonstrate two classes of receptors for Ep on normal human ECFC. Internalization and degradation of EP occur, and the biologic effect of the hormone is produced by a small number of Ep molecules, as demonstrated in murine erythroid progenitor cells.     

Effects of reactive oxygen metabolites on erythropoietin production in renal carcinoma cells

The present studies were undertaken to determine the effects of reactive oxygen metabolites on erythropoietin (Ep) biosynthesis in Ep-producing renal carcinoma (RC) cells using a sensitive radioimmunoassay for Ep. Xanthine (10-5M) and increasing concentrations of xanthine oxidase (8 x 10(-7) to 5 x 10(-4) units/ml) produced a significant dose-related increase in Ep production at a concentration of greater than or equal to 4 x 10(-6) units/ml, whereas xanthine alone had no effect. Catalase, a scavenger of hydrogen peroxide (H2O2), in concentrations of 50 to 500 micrograms/ml produced a significant inhibition of the increase in Ep production induced by xanthine-xanthine oxidase; while no effect was seen on basal levels of Ep production and the growth of RC cells. Glucose oxidase (greater than or equal to 0.032 mU/ml), a direct H2O2 generator, and exogenous H2O2 (greater than or equal to 4 x 10(-6)M) added to the incubation mixture, caused a significant enhancement of Ep production in a dose-dependent manner. Xanthine-xanthine oxidase, glucose oxidase, and H2O2 in the above concentrations did not produce significant cytotoxicity (51Cr release or trypan blue dye exclusion). The present data suggests that H2O2, a reactive oxygen metabolite may play a significant role in Ep production.     

The Role of Lipid Raft Aggregation in the Infection of Type II Pneumocytes by Mycobacterium tuberculosis

Dynamic, cholesterol-dense regions of the plasma membrane, known as lipid rafts (LR), have been observed to develop during and may be directly involved in infection of host cells by various pathogens. This study focuses on LR aggregation induced in alveolar epithelial cells during infection with Mycobacterium tuberculosis (Mtb) bacilli. We report dose- and time-dependent increases in LR aggregation after infection with three different strains at multiplicities of infection of 1, 10 and 100 from 2–24 hr post infection (hpi). Specific strain-dependent variations were noted among H37Rv, HN878 and CDC1551 with H37Rv producing the most significant increase from 15 aggregates per cell (APC) to 27 APC at MOI 100 during the 24 hour infection period. Treatment of epithelial cells with Culture Filtrate Protein, Total Lipids and gamma-irradiated whole cells from each strain failed to induce the level of LR aggregation observed during infection with any of the live strains. However, filtered supernatants from infected epithelial cells did produce comparable LR aggregation, suggesting a secreted mycobacterial product produced during infection of host cells is responsible for LR aggregation. Disruption of lipid raft formation prior to infection indicates that Mtb bacilli utilize LR aggregates for internalization and survival in epithelial cells. Treatment of host cells with the LR-disruption agent Filipin III produced a nearly 22% reduction in viable bacteria for strains H37Rv and HN878, and a 7% reduction for strain CDC1551 after 6 hpi. This study provides evidence for significant mycobacterial-induced changes in the plasma membrane of alveolar epithelial cells and that Mtb strains vary in their ability to facilitate aggregation and utilization of LR.     

Killing of EMT-6 cells by decays from isotopes incorporated on sensitizer adducts.

EMT-6 tumor cell killing by decays from 3H and 125I incorporated by adduct formation of radiolabeled sensitizers was studied in vitro. Hypoxic radiosensitizers become covalently bound to cellular molecules after metabolic reduction, and EMT-6 tumor cells can tolerate over 10(9) adducts/cell of misonidazole without loss of colony-forming ability. Cells were incubated under hypoxic conditions in the presence of [3H]misonidazole or [125I]iodoazomycinriboside for various times and the amounts of bound 3H and 125I were determined. Cells were stored as monolayers at 22 degrees C, in suspension culture at 4 degrees C, and frozen in complete medium plus 8% DMSO at -196 degrees C for various times to facilitate the accumulation of radioactive decays before plating in vitro for colony-forming assays at 37 degrees C. At 22 degrees C in monolayer culture, EMT-6 tumor cells tolerated 950 and 1720 decays/cell of 3H and 125I, respectively, without evidence of radiotoxicity. This number of decays/cell over the exposure times used represents 1.54 x 10(6) 3H/cell and 8.4 x 10(4) 125I/cell, respectively. Significant cell killing was detected after similar amounts of isotope decay when cells were held at 4 degrees C. When cells were frozen in the presence of 8% DMSO, they were more resistant to inactivation by isotope decays or by gamma rays than cells in liquid phase at 4 degrees C. These data suggest that selective hypoxic tumor cell suicide by 3H or 125I decays from bound sensitizer at 37 degrees C will be an inefficient process, at least for drugs with specific activities as tested. These data are consistent with data on cell inactivation by isotopes incorporated into cells by other procedures.     

Degradation of asialoglycoproteins mediated by the galactosyl receptor system in isolated hepatocytes. Evidence for two parallel pathways

The ability of rat hepatocytes to degrade internalized surface-bound 125I-asialoorosomucoid (ASOR) was determined by measuring the appearance of acid-soluble radioactivity at 37 degrees C. The degradation kinetics were biphasic in cells previously equilibrated at 37 degrees C for 1 h or cultured for 24 h. Degradation began immediately and was linear for at least 20 min after which the rate increased to a steady state value 3-4 times greater than the initial rate. We previously showed that hepatocytes have two functionally distinct populations of galactosyl receptors that mediate ligand dissociation by two kinetically different pathways (Weigel, P. H., Clarke, B. L., and Oka, J. A. (1986) Biochem. Biophys. Res. Commun. 140, 43-50). The activity of one receptor population, designated State 2 galactosyl receptors, can be reversibly modulated by incubating cells between 22 and 37 degrees C and is not expressed on the surface of freshly isolated cells. When 125I-ASOR was prebound to freshly isolated cells at 4 degrees C and degradation was assessed subsequently at 37 degrees C, the kinetics were monophasic, not biphasic. Degradation of the surface-bound 125I-ASOR began immediately and was greater than 90% complete by 6 h. Freshly isolated cells were incubated at temperatures between 22 and 37 degrees C, chilled to 4 degrees C, allowed to pre-bind 125I-ASOR, and then incubated at 37 degrees C. As the State 2 galactosyl receptor population increased, the kinetics of degradation became progressively more biphasic and the rate of the delayed degradation process increased. This effect could be reversed in cells in culture or in suspension by down-modulating surface receptor activity at temperatures below 37 degrees C; only the degradation process appearing after a 20-min lag was affected. Degradation in both pathways is an apparent first order process with identical rate constants (kappa = 0.006 min-1, t1/2 = 116 min). We conclude that there are two separate pathways by which asialoglycoproteins are degraded. The major "classic" pathway mediated by State 2 galactosyl receptors occurs after a 20-min lag and the minor pathway mediated by State 1 galactosyl receptors begins immediately with no detectable lag.     

Cryptococcus neoformans mitochondrial superoxide dismutase: an essential link between antioxidant function and high-temperature growth

Manganese superoxide dismutase is an essential component of the mitochondrial antioxidant defense system of most eukaryotes. In the present study, we used a reverse-genetics approach to assess the contribution of the Cryptococcus neoformans manganese superoxide dismutase (Sod2) for antioxidant defense. Strains with mutations in the SOD2 gene exhibited increased susceptibility to oxidative stress as well as poor growth at elevated temperatures compared to isogenic wild-type strains. The sod2Delta mutants were also avirulent in a murine model of inhaled cryptococcosis. Reconstitution of a sod2Delta mutant restored Sod2 activity, eliminated the oxidative stress and temperature-sensitive (ts) phenotypes, and complemented the virulence phenotype. Characterization of the ts phenotype revealed a dependency between Sod2 antioxidant activity and the ability of C. neoformans cells to adapt to growth at elevated temperatures. The ts phenotype could be suppressed by the addition of either ascorbic acid (10 mM) or Mn salen (200 muM) at 30 degrees C, but not at 37 degrees C. Furthermore, sod2Delta mutant cells that were incubated for 24 h at 37 degrees C under anaerobic, but not aerobic, conditions were viable when shifted to the permissive conditions of 25 degrees C in the presence of air. These data suggest that the C. neoformans Sod2 is a major component of the antioxidant defense system in this human fungal pathogen and that adaptation to growth at elevated temperatures is also dependent on Sod2 activity.     

Effects of temperature acclimation on Neurospora phospholipids. Fatty acid desaturation appears to be a key element in modifying phospholipid fluid properties

Experiments were conducted on the effect of growth temperature on phospholipids of Neurospora. Strains grown at high (37 degrees C) and low (15 degrees C) temperatures show large differences in the proportions of phospholipid fatty acid alpha-linolenate (18 : 3) which can vary by 10-fold over this temperature range. Changes in the phospholipid base composition are less dramatic; the most significant is an increase in phosphatidylethanolamines at low temperatures accompanied by a concomitant decrease in phosphatidylcholine. It appears that phospholipid fatty acid desaturation is closely regulated with respect to growth temperature. Over the 37 to 15 degrees C growth temperature range there appear to be at least two desaturase systems in Neurospora which are under different controls. Production of 18 : 1 and 18 : 2 species appears to occur at high levels over the entire temperature range, whereas the production of 18 : 3 seems to be inversely related to growth temperature. Shifting 37 degrees C-acclimated cultures to 15 degrees C produces a growth lag period of approximately 3 h, during which the level of 18 : 3 increases markedly. Differential scanning calorimetry of phospholipids from 37 degrees C cells shows a phase transition at -22 degrees C while lipids from 15 degrees C cultures exhibit a phase transition with reduced enthalpy at about -41 degrees C. The data are consistent with the idea that phospholipid composition in Neurospora is under strict control and suggest that membrane fluidity is regulated with respect to growth temperature through changes in membrane lipid composition.     

Relationship between secretion of the Anton blood group antigen in saliva and adherence of Haemophilus influenzae to oropharynx epithelial cells

Inhibition of adherence of bacteria to epithelial cells contributes to a reduction of infections by these bacteria. We have shown that the Anton blood group antigen, the erythrocyte receptor for Haemophilus influenzae (van Alphen et al. 1986, FEMS Microbiol. Lett. 37, 69-71), occurs in saliva, that the occurrence is not related to the secretor state of the donor of the saliva and that saliva containing Anton antigen could not inhibit the adherence of H. influenzae to oropharynx epithelial cells. Anton antigen was detected in saliva samples of 14 donors by immunoblotting with two different anti-Anton sera. The amount of Anton antigen correlated with the ability of H. influenzae to adhere to the epithelial cells of the donor of the saliva: 4.1 +/- 0.1 Anton antigen units for donors with more than 50 H. influenzae per cell and 1.6 +/- 0.5 units for donors with less adhering epithelial cells. No correlation between the amount of Anton antigen in saliva and secretor status of the donor was observed. Adherence of H. influenzae to epithelial cells was not inhibited by saliva of secretors (N = 11) or non-secretors (N = 3). The same saliva did not inhibit the interaction of the bacteria with Anton antigen bearing erythrocytes as measured by haemagglutination inhibition. This indicates that the amount of Anton antigen in saliva is probably too low to interfere with the interaction of H. influenzae with oropharynx epithelial cells and erythrocytes.     

Relationship between secretion of the Anton blood group antigen in saliva and adherence of Haemophilus influenzae to oropharynx epithelial cells

Abstract Inhibition of adherence of bacteria to epithelial cells contributes to a reduction of infections by these bacteria. We have shown that the Anton blood group antigen, the erythrocyte receptor for Haemophilus influenzae (van Alphen et al. 1986, FEMS Microbiol. Lett. 37, 69–71), occurs in saliva, that the occurrence is not related to the secretor state of the donor of the saliva and that saliva containing Anton antigen could not inhibit the adherence of H. influenzae to oropharynx epithelial cells.
Anton antigen was detected in saliva samples of 14 donors by immunoblotting with two different anti-Anton sera. The amount of Anton antigen correlated with the ability of H. influenzae to adhere to the epithelial cells of the donor of the saliva: 4.1 ± 0.1 Anton antigen units for donors with more than 50 H. influenzae per cell and 1.6 ± 0.5 units for donors with less adhering epithelial cells. No correlation between the amount of Anton antigen in saliva and secretor status of the donor was observed. Adherence of H. influenzae to epithelial cells was not inhibited by saliva of secretors ( N = 11) or non-secretors ( N = 3). The same saliva did not inhibit the interaction of the bacteria with Anton antigen bearing erythrocytes as measured by haemagglutination inhibition. This indicates that the amount of Anton antigen in saliva is probably too low to interfere with the interaction of H. influenzae with oropharynx epithelial cells and erythrocytes.     

Relationship between variations in pathogenicity and lag phase at 37°C of Listeria monocytogenes previously stored at 4°C

s. BUNCIC AND S.M. AVERY. 1996. Three haemolytic, pathogenic strains of Listeria monocytogenes (a reference strain, a food-derived strain and a human strain) were held at 4°C for 4 weeks in phosphate-buffered saline pH 5.5 or 7.0, with and without 0.2% potassium sorbate or 0.3% sodium acetate. The number of viable cells did not change significantly during this storage. Pathogenicity of non-growing L. monocytogenes cells for 14-d-old chick embryos was determined before and after storage. Storage at 4°C resulted in decreased pathogenicity, but effects were strain-, pH- and substrate-dependent. After 4 weeks storage at 4°C non-growing bacterial cells were transferred to Brain Heart Infusion broth and growth characteristics were determined during incubation at 37°C. Strains that showed decreased pathogenicity had significantly longer lag phases at 37°C than strains that maintained pathogenicity. It is concluded that decreased pathogenicity of L. monocytogenes stored without growth at 4°C for 4 weeks and subsequent long lag phase at 37°C are correlated.     

Laser cytophotometric detection of variations in spatial distribution of concanavalin-A cell surface receptors following viral infection.

Human cells in culture (H.Ep. 2) were infected with herpes simplex virus type 2 at a multiplicity of infection (m.o.i.) of 3 for 3, 18 and 36 hr. Spatial redistribution of concanavalin (Con-A) cell surface receptor sites was detected by an indirect double-antibody (peroxidase-conjugated goat anti-rabbit to rabbit anti-Con-A) immunoenzymatic staining reaction which rendered the Con-A sites visible to light microscopy and to flow laser cytophotometry. Significant spatial redistribution of cell surface Con-A receptor sites occurred within the first 3 hr after infection with herpes simplex virus type 2. The infected cells must be in the presence of Con-A for the redistribution to occur, and significant redistribution occurs only at 37 degrees C. Fixation of infected cells prior to application of Con-A prevented this spatial redistribution of Con-A receptor sites.     

Haemagglutinins and Fimbriae in Different Serotypes and Biotypes of Yersinia enterocolitica

When cultured in static broth at 20°C, 46 of 115 strains of Yersinia enterocolitica , diverse in biotype and serotype, produced a broad-spectrum mannose-resistant (MR) adhesin that agglutinated the erythrocytes of all of 10 animal species examined. The production of haemagglutinin (HA) was associated with the presence of fimbriae of S nm diameter. Culture of HA+ strains at 37° resulted in the disappearance of haemagglutinating ability and loss of fimbrial production. Strains of Y. enterocolitica with K1 antigen produced an MR adhesin that agglutinated only fowl erythrocytes and was associated with fimbriae of 4–4.5 nm diameter. None of 14 strains of Y. pseudotuberculosis was haemagglutinating.     

Survival of Escherichia coli O157:H7 in broth and processed salami as influenced by pH, water activity, and temperature and suitability of media for its recovery.

The survival of unheated and heat-stressed (52 degrees C, 30 min) cells of Escherichia coli O157:H7 inoculated into tryptic soy broth (TSB) adjusted to various pHs (6.0, 5.4, and 4.8) with lactic acid and various water activities (a(w)s) (0.99, 0.95, and 0.90) with NaCl and incubated at 5, 20, 30, and 37 degrees C was studied. The performance of tryptic soy agar (TSA), modified sorbitol MacConkey agar (MSMA), and modified eosin methylene blue agar in supporting colony development of incubated cells was determined. Unheated cells of E. coli O157:H7 grew to population densities of 10(8) to 10(9) CFU ml-1 in TSB (pHs 6.0 and 5.4) at an a(w) of 0.99. Regardless of the pH and a(w) of TSB, survival of E. coli O157:H7 was better at 5 degrees C than at 20 or 30 degrees C. At 30 degrees C, inactivation or inhibition of growth was enhanced by reduction of the a(w) and pH. A decrease in the a(w) (0.99 to 0.90) of TSB in which the cells were heated at 52 degrees C for 30 min resulted in a 1.5-log10 reduction in the number of E. coli O157:H7 cells recovered on TSA; pH did not significantly affect the viability of cells. Recovery was significantly reduced on MSMA when cells were heated in TSB with reduced pH or a(w) for an increased length of time. With the exception of TSB (a(w), 0.90) incubated at 37 degrees C, heat-stressed cells survived for 24 h in recovery broth. TSB (a(w), 0.99) at pH 6.0 or 5.4 supported growth of E. coli O157:H7 cells at 20 or 37 degrees C, but higher numbers of heated cells survived at 5 or 20 degrees C than at 37 degrees C. The ability of unheated and heat-stressed E. coli O157:H7 cells to survive or grow as affected by the a(w) of processed salami was investigated. Decreases of about 1 to 2 log10 CFU g-1 occurred soon after inoculation of salami (pHs 4.86 and 4.63 at a(w)s of 0.95 and 0.90, respectively). Regardless of the physiological condition of the cells before inoculation into processed salami at an a(w) of either 0.95 or 0.90, decreases in populations occurred during storage at 5 or 20 degrees C for 32 days. If present at < or = 100 CFU g-1, E. coli O157:H7 would unlikely survive storage at 5 degrees C for 32 days. However, contamination of salami with E. coli O157:H7 at 10(4) to 10(5) CFU g-1 after processing would pose a health risk to consumers for more than 32 days if storage were at 5 degrees C. Regardless of the treatment conditions, performance of the media tested for the recovery of E. coli O157:H7 cells followed the order TSA > modified eosin methylene blue agar > MSMA.     

Selective adhesion of mast cells to tracheal epithelial cells in vitro

In allergic and nonallergic lung diseases, if intraluminal mast cells adhere to airway epithelium, inflammatory mediators released from activated mast cells may reach high local concentrations and thus greatly affect airway function. To determine whether mast cells adhere to airway epithelial cells, radiolabeled or unlabeled dog mastocytoma cells were incubated with cultured dog tracheal epithelial cells, with extracellular matrix substrates, and with cryostat-cut sections of dog trachea. Mast cells adhered well to cultured epithelial cells (35 +/- 13% adhesion, mean +/- 1 SD, n = 23) but adhered poorly to types I and IV collagen or to fibronectin (less than 7.5% mean adhesion in all cases). Similarly, in tracheal tissue sections, mast cells adhered preferentially to epithelial cells in surface epithelium or in submucosal glands but not to basal membrane or connective tissue. Adhesion to cultured epithelial cells was a characteristics of a subpopulation of mast cells, could persist for more than 48 h, did not require energy or the presence of divalent cations, and was not mediated by a known family of leukocyte-associated adhesion glycoproteins. Adhesion was completely abolished by pretreatment of mast cells with pronase E or proteinase K but not with trypsin (up to 10 micrograms/ml at 37 degrees C for 20 min each). In contrast, pretreatment of cultured epithelial cells with any of these proteinases had no effect on adhesion. It is concluded that dog mastocytoma mast cells adhere to dog tracheal epithelial cells and do so selectively. It is suggested that mast cell adhesion to airway epithelium may play a role in the effectiveness of mast cell-epithelial cell interactions, and thus, in certain lung diseases, airway function may be affected by intraluminal mast cells more than is currently appreciated.