Biofilm dispersal of Neisseria subflava and other phylogenetically diverse oral bacteria

Polystyrene petri dishes containing liquid medium were inoculated with single-cell suspensions of a fresh clinical isolate of Neisseria subflava and were incubated under conditions of low vibration. N. subflava colonies grew firmly attached to the surface of the dish, while the broth remained clear. Growing colonies released cells into the medium, resulting in the appearance of 10(2) to 10(4) small satellite colonies attached to the surface of the dish in an area adjacent to each mature colony after 24 h. Satellite colonies grew in patterns of streamers shaped like jets and flares emanating from mature colonies and pointing toward the center of the dish. This dispersal pattern evidently resulted from the surface translocation of detached biofilm cells by buoyancy-driven convection currents that were generated due to slight temperature gradients in the medium. Streamers of satellite colonies ranged from 2 to >40 mm in length. Satellite colonies in very long streamers were relatively uniform in size regardless of their distance from the mature colony, suggesting that mature colonies released single cells or small clusters of cells into the medium and that the detachment, surface translocation, and subsequent surface reattachment of released cells were a transitory process. Incubation of N. subflava single cells in a perfused biofilm fermentor resulted in a large spike of the number of CFU in the perfusate after 9.5 h of growth, consistent with a rapid release of cells into the medium. Biofilm colonies of several other phylogenetically diverse oral bacteria, including Actinobacillus actinomycetemcomitans, Haemophilus aphrophilus, Streptococcus mitis, and a prevalent but previously uncultured oral Streptococcus sp., exhibited similar temperature-dependent dispersal patterns in broth culture. This in vitro spreading phenotype could be a useful tool for studying biofilm dispersal in these and other nonflagellated bacteria and may have physiological relevance to biofilm dispersal in the oral cavity.     

Biofilm Dispersal of Neisseria subflava and Other Phylogenetically Diverse Oral Bacteria

Polystyrene petri dishes containing liquid medium were inoculated with single-cell suspensions of a fresh clinical isolate of Neisseria subflava and were incubated under conditions of low vibration. N. subflava colonies grew firmly attached to the surface of the dish, while the broth remained clear. Growing colonies released cells into the medium, resulting in the appearance of 10² to 10⁴ small satellite colonies attached to the surface of the dish in an area adjacent to each mature colony after 24 h. Satellite colonies grew in patterns of streamers shaped like jets and flares emanating from mature colonies and pointing toward the center of the dish. This dispersal pattern evidently resulted from the surface translocation of detached biofilm cells by buoyancy-driven convection currents that were generated due to slight temperature gradients in the medium. Streamers of satellite colonies ranged from 2 to >40 mm in length. Satellite colonies in very long streamers were relatively uniform in size regardless of their distance from the mature colony, suggesting that mature colonies released single cells or small clusters of cells into the medium and that the detachment, surface translocation, and subsequent surface reattachment of released cells were a transitory process. Incubation of N. subflava single cells in a perfused biofilm fermentor resulted in a large spike of the number of CFU in the perfusate after 9.5 h of growth, consistent with a rapid release of cells into the medium. Biofilm colonies of several other phylogenetically diverse oral bacteria, including Actinobacillus actinomycetemcomitans, Haemophilus aphrophilus, Streptococcus mitis, and a prevalent but previously uncultured oral Streptococcus sp., exhibited similar temperature-dependent dispersal patterns in broth culture. This in vitro spreading phenotype could be a useful tool for studying biofilm dispersal in these and other nonflagellated bacteria and may have physiological relevance to biofilm dispersal in the oral cavity.     

Methylene blue-fast green staining of hemopoietic colonies in agar cultures

A simple technique is described for the routine in situ identification of the cellular composition of colonies and clusters in agar cultures of hemopoietic cells. The entire culture, dried and formalin vapor fixed within a Petri dish, is stained with a mixture of methylene blue and fast green. By this method cellular ribonucleoproteins (RNP), deoxyribonucleoproteins (DNP) and some cationic (arginine and lysine containing) proteins are detected. Different maturation stages of neutrophils, eosinophils, basophils, monocytes, and macrophages can be easily identified with colonies and clusters on the basis of the cytoplasmic and nuclear staining.     

Cell fusion between temperature-sensitive mutants of a Drosophila melanogaster cell line.

Temperature-sensitive (ts) mutants were isolated in a cell line of Drosophila melanogaster, GM1, by ethyl methanesulfate treatment. Two of them, ts15 and ts58, formed colonies at 23 degrees C but not at 30 degrees when inoculated at densities of/or less than 10(5) cells per 60 X 15-mm dish. By using these ts mutants, cell fusion was attempted with polyethylene glycol (PEG) 6000. Several colonies per dish developed at 30 degrees C when different ts mutants were mixed, treated with PEG, and inoculated at a density of 10(4) cells per dish. Cells in some of the colonies thus developed were propagated and their temperature-sensitive character and karyotypes were studied. The results indicated that cell fusion could be induced with PEG and that the cells which formed colonies at 30 degrees C after PEG treatment were the hybrids in which the temperature-sensitive lesions in the mutants were complemented.     

Control of normal differentiation of myeloid leukemic cells. XII. Isolation of normal myeloid colony-forming cells from bone marrow and the sequence of differentiation to mature granulocytes in normal and D+ myeloid leukemic cells

An enriched population of early myeloid cells has been obtained from normal mouse bone marrow by injection of mice with sodium caseinate and the removal of cells with C3 (EAC) rosettes by Ficoll-Hypaque density centrifugation. This enriched population had no EAC or Fc (EA) rosettes and contained 87% early myeloid cells stained for myeloperoxidase and/or AS-D-chloroacetate esterase, 7% cells in later stages (ring forms) of myeloid differentiation and 6% unstained cells, 2% of which were small lymphocytes. After seeding in agar with the macrophage and granulocyte inducer MGI, the enriched population showed a cloning efficiency of 14% when removed from the animal and of 24% after one day in mass culture. Both the enriched and the unfractionated bone marrow cells gave the same proportion of macrophage and granulocyte colonies. The normal early myeloid cells were induced to differentiate by MGI in mass culture in liquid medium to mature granulocytes and macrophages. The sequence of granulocyte differentiation was the formation of EA and EAC rosettes followed by the synthesis and secretion of lysozyme and morphological differentiation to mature cells. D⁺ myeloid leukemic cells with no EA or EAC rosettes had a similar morphology to normal early myeloid cells and showed the same sequence of differentiation. The induction of EA and EAC rosettes occurred at the same time in both the normal and D⁺ leukemic cells, but lysozyme synthesis and the formation of mature granulocytes was induced later in the leukemic than in the normal cells. The results indicate that selection for non-rosette-forming normal early myeloid cells also selected for myeloid colony forming cells, that these normal early myeloid cells can form colonies with differentiation to macrophages and granulocytes, that normal and D⁺ myeloid leukemic cells have a similar sequence of differentiation and that the normal cells had a greater sensitivity for the formation of mature cells by MGI.     

Characterization of the human granulocyte-macrophage colony-stimulating factor receptor

Human granulocyte-macrophage colony-stimulating factor (GM-CSF) is a cytokine derived from activated T cells, endothelial cells, fibroblasts, and macrophages. It stimulates myeloid and erythroid progenitors to form colonies in semisolid medium in vitro, as well as enhancing multiple differentiated functions of mature neutrophils, macrophages, and eosinophils. We have examined the binding of human GM-CSF to a variety of responsive human cells and cell lines. The most mature myelomonocytic cells, specifically human neutrophils, macrophages, and eosinophils, express the highest numbers of a single class of high affinity receptors (Kd approximately 37 pM, 293-1000 sites/cell). HL-60 and KG-1 cells exhibit an increase in specific binding at high concentrations of GM-CSF; computer analysis of the data is nonetheless consistent with a single class of high affinity binding sites with a Kd approximately 43 pM and 20-450 sites/cell. Dimethyl sulfoxide induces a 3-10-fold increase in high affinity receptors expressed in HL-60 cells, coincident with terminal neutrophilic differentiation. Finally, binding of 125I-GM-CSF to fresh peripheral blood cells from six patients with chronic myelogenous leukemia was analyzed. In three of six cases, binding was similar to the nonsaturable binding observed with HL-60 and KG-1 cells. GM-CSF binding was low, or in some cases, undetectable on myeloblasts obtained from eight patients with acute myelogenous leukemia. The observed affinities of the receptor for GM-CSF are consistent with all known biological activities. Affinity labeling of both normal neutrophils and dimethyl sulfoxide-induced HL-60 cells with unglycosylated 125I-GM-CSF yielded a band of 98 kDa, implying a molecular weight of approximately 84,000 for the human GM-CSF receptor.     

An Apparatus (Georgiou-Petri Dish) for Growing Fungi and other Microorganisms on Liquid Media in a Petri Dish

This work describes a new apparatus for growing fungi and other microorganisms on liquid nutrient media in a Petri dish. The apparatus is composed of a net supporting a cellophane membrane stretched between an outer and an inner ring that is placed inside a Petri dish. This modification of the standard Petri dish offers many advantages for studying growth, metabolism, differentiation, and other aspects of fungi in liquid cultures with minimal waste of expensive chemicals. Monitoring of excreted or absorbed substances by the fungi, the aseptic transfer of undisturbed fungal colonies from dish to dish, and harvesting are made easier, using this apparatus.     

B cell deficiency progresses with lineage maturation in nude.X-linked immunodeficient mice B cell deficiency progresses with lineage maturation.

Previously we showed that unlike normal, nude, or X-linked immune deficient (xid) mice, nude.xid mice are deficient in bone marrow pre-B cell targets for Abelson murine leukemia virus transformation. We show that nude.xid bone marrow is deficient in both CD45(B220)+ and CD45(B220)- surface (s)IgM- progenitors that give rise to B cell colonies in Whitlock-Witte cultures. CD45(B220)+ precursors had normal differentiation potential in vitro. CD45(B220)- precursors differentiated into CD45(B220)+ cells at the same rate as normal controls, but acquired sIgM at a much slower rate. These results correlated with the observation that in nude.xid mice the severity of B lineage defects correlates with maturity: a profound (ninefold) deficit of sIgM+, CD45(B220)+ mature B cells, a fivefold deficit in the sIgM-, CD45(B220)+ precursors of short term B cell colonies (colonies forming within 4-5 days in Whitlock-Witte cultures), and a moderate (twofold) decrease in the frequency of sIgM-, CD45(B220)- (less mature) precursors of long term B cell colonies (colonies forming after 14 days of Whitlock-Witte culture. Thus the combination of the nude and xid mutations produces a deficiency in early B cell progenitors and the deficiency becomes more profound with further maturation. Therefore the lack of mature B cells is the result of a cascade effect. Inasmuch as bone marrow progenitors are affected, and these are the source of the vast majority of B cells, most B cells are affected by the xid mutation and the xid defect cannot be attributed to a loss of a fetal lineage of B cells. These results suggest that xid affected cells lack the capacity to progress efficiently through differentiation in the absence of an exogenous factor(s) that is dependent on the product of a normal allele at the nude locus. This product might be supplied in vivo by a T cell or T cell-dependent source and/or epithelial elements such as bone marrow stromal cells all of which are known to be affected by the nude mutation.     

Cell kinetic study on GM colonies using autoradiography and collagen gel culture with special reference to unique proliferation of eosinophils

Using a newly developed technique of autoradiography and collagen gel culture, a kinetic study on human GM colonies was attempted. Colonies of immature cells appeared first on day 5. The number of mixed colonies (mixture of immature cells, neutrophils, and/or monocyte-macrophages) and neutrophil colonies attained a maximum on days 8 to 10 and a broad peak of monocyte-macrophage colonies was observed on days 11 to 16. Eosinophil colonies appeared first on day 12, reached a maximum on day 18, and then gradually decreased. A detailed analysis of the order of appearance of the colonies suggests that mixed, neutrophil and monocyte-macrophage colonies originate from immature cell colonies or clusters, while eosinophil colonies do not. An autoradiographic study was designed to study the proliferation characteristics of each colony. Labeling indices (LI) with 3H-TdR of the cells in immature cell colonies were always high. LI of the cells in differentiated colonies such as neutrophil, monocyte-macrophage, and mixed colonies were low throughout the observation period. In contrast, LI of the cells in eosinophil colonies were constantly high regardless of the size of cell aggregates and the duration of the culture period. Both mitotic indices and mean grain counts on the nuclei of eosinophils were similar to those of immature cells. These results suggest that eosinophil colonies develop from their own small clusters and that eosinophils retain a fairly good proliferative capacity even when differentiated to the level in which specific granules appear in the cytoplasm.     

In vitro studies to prove the effect of sera of eosinophilia in colony formation

Serum samples from four patients with reactive eosinophilia and two patients with eosinophilic leukaemia were compared with normal sera with respect to formation of eosinophil colonies after addition of the sera to mononuclear cells from peripheral blood of healthy subjects. Supernatants from ConA stimulated guinea-pig spleen cells and human lymphocytes were tested in a similar way. Grown colonies were placed on glass slides and after staining with luxol fast blue the percentage of eosinophils was counted. The serum samples of the patients with reactive eosinophilia produced the greatest number of eosinophil colonies while supernatants of spleen and lymphocytes produced the greatest number of eosinophilic granulocytes. Our findings suggest the existence of a factor stimulating eosinophil colonies in the tested serum fractions. Beyond that an indication is given for a substance in the supernatants of spleen and lymphocyte suspensions which stimulates more intensively the maturing into eosinophilic granulocytes than the formation of colonies.     

Hybridoma cell lines secreting monoclonal antibodies against foot-and-mouth disease virus (FMDV). II. Cloning conditions

Three methods of cloning hybridoma cells--picking colonies from the masterplate, limit dilution cloning, and cloning in semi-solid medium over macrophage (m phi) feeder layers--were compared. Cloning in semi-solid medium was found to be the most efficient and reliable, especially with our relatively slow growing anti-foot-and-mouth disease virus (FMDV) antibody secreting hybridoma cells. The optimum culture dish for this cloning was the 6-well (6W) dish (well diameter 1.5 cm), while the optimum cloning procedure was 10 to 10(2) hybridoma cells in 1% (w/v) methylcellulose in Dulbecco's minimal essential medium (DMEM) supplemented with 50% (v/v) conditioned medium, 10% (v/v) foetal or donor calf serum and 2 mM glutamine, over a 24-48 h old culture of syngeneic m phi in each well of the 6W plate. This could, however, produce problems in that colony formation was sometimes 'loose', and confident picking of individual colonies was impaired. Such a problem could be avoided by using a solid agar interface of 1% (w/v) agar Noble in DMEM or RPMI 1640 medium between the feeder cells and the hybridoma cells in semi-solid medium.     

Schistosoma mansoni: control of extramedullar eosinophil myelopoiesis in chronically infected mice by inflammatory macrophages

Extramedullar proliferation of eosinophil granulocytes can be induced in mice chronically infected with Schistosoma mansoni, by intraperitoneal implants of glass coverslips. Immature eosinophils are located in discrete foci on glass implants; they are not correlated with the eosinophil population of the peritoneal cavity, where only mature eosinophils can be observed. The same induction of eosinophil proliferation can be obtained in normal mice, by the transfer of macrophages elicited by glass implants in mice with chronic schistosomiasis. This induction could not be done with cells mobilized in normal mice, either after transplant into normal mice or into schistosome infected ones. Stimulated macrophages of mice with chronic schistosomiasis have a capacity to induce peripherical proliferation of eosinophil granulocytes. This capacity is independent of the quality of the intraperitoneal environment. It can be expressed after transferring macrophages elicited in schistosome infected mice into normal mice.     

Giant eosinophil colonies from cultures of bone marrow cells

Summary To date, the small size and slow growth of eosinophil colonies in vitro has hampered study of cloned eosinophils. We found enhanced eosinophil colony size and numbers in methylcellulose cultures of bone marrow cells utilizing defined supplemented bovine calf serum (DSBCS) in combination with EL4 conditioned medium (EL4-CM). At days 9, 16 and 23 significantly more eosinophil colonies and more cells/colony were present in cultures incubated with DSBCS/EL4-CM than in cultures incubated with fetal calf serum/EL4-CM. The ability to generate large numbers of eosinophils in vitro should facilitate study of cloned eosinophils. Supported in part by a grant from the National Institutes of Health, AI 20416, and by the Mayo Foundation. Editor's statement Previous approaches to in vitro culture of eosinophils generally have achieved, at best, mixed cultures of colonies of these cells and granulocyte-macrophage colonies. The improved culture methods described in this report produce more homogeneous eosinophil cultures and larger colonies of these cells. The procedure employs EL4 murine thymoma-conditioned medium, which apparently contains eosinophil colony-stimulating activity in the absence of granulocyte-macrophage colony-stimulating activity. David W. Barnes     

Effect of a neutrophilia-inducing tumor on hemopoietic stem cells in mice

The influence of neutrophilic stimulation on hemopoietic stem cells was studied in mice with tumor-induced neutrophilia. Transfusions of marrow cells from normal and neutrophilic tumor-bearing mice into lethally irradiated normal and tumor-bearing mice were performed. The number and the erythroid:granuloid (E:G) ratio of day 7 colonies in the recipient spleens and bones as well as the size of spleen colonies of recipient animals were determined. The E:G ratio of spleen and bone marrow colonies between normal and tumor-bearing mouse recipients and the number of spleen colonies did not differ significantly in either experiment. However, spleen colonies which developed in tumor-bearing irradiated mice were significantly larger than those which developed in normal recipients in both experiments. These studies indicated that while the line of differentiation taken by hemopoietic stem cells was not affected by the neutrophilic influence of the tumor, the tumor-bearing host environment appeared to enhance proliferation of transfused stem cells and/or their descendants. The stimulators of granulocytopoiesis in this model of neutrophilia appear to act on a population of progenitor cells more mature than the stem cells capable of forming 7-day colonies in the spleen and bone marrow of irradiated recipient mice.     

Conditional instability of induced variants of CHO : Transient sensitivity to contact with wild-type cells

The persistence of individual hypoxanthine phosphoribosyltransferase (HPRT)-deficient cells in small populations of mutagenized CHO was examined. Most of these variants were unstable with progressive cultivation in non-selective medium (α) before exposure to the selective agent, thioguanine (TG), but after selection virtually all resistant colonies were stable. The role of cell density in this effect was assessed by shifting sister cultures of low-density populations to high and then back to low density in α-medium and measuring cloning efficiency (CE) in TG after each shift. The high density cells almost always had a lower CE in TG than their low density siblings, indicating a relative loss of TG resistance. When they were passed again at low density, the higher CE of the sister culture was usually not reacquired. These variants therefore appeared to be sensitive to a density-dependent reversal of phenotype. This interpretation was verified by growing sister cultures of biochemically marked, mutagenized CHO cells in TG for 3 days. The resistant colonies were then grown in α-medium and challenged by co-incubating colonies of one dish with wild-type (WT) unmarked cells immediately and those of the sister dish with WT after various periods in α-medium. Most TG-resistant colonies underwent some degree of stable reversal to the HPRT⁺ phenotype when challenged immediately, but their sister colonies, tested at later times, became insensitive to this effect over periods ranging up to 30 days or more after mutagenesis.     

Requirement for Cell Dispersion Prior to Selection of Induced Azaguanine-Resistant Colonies of Chinese Hamster Cells

With V79 Chinese hamster cell cultures treated with a mutagen, the maximum frequency of colonies resistant to 8-azaguanine (AZG) was attained when the cells were dispersed after a suitable expression time before adding the selection medium. V79–4 cells were exposed to 500 µM MMS, 7 µM AFAA, or 10 µM MNNG and allowed to multiply before being reseeded at 4 x 10⁴ cells/60 mm dish and selected with 10 µg/ml AZG. Maximum frequencies of 4 x 10^-5, 4 x 10^-4, and 2.4 x 10^-3 were obtained about 100, 130, and 200 hrs after exposure to MMS, AFAA, and MNNG, respectively. The maximum frequencies following MMS or MNNG treatments were about 10-fold greater than those obtained when induction and selection of AZG-resistant colonies were performed in the same culture dish. The reseeding of treated cells eliminated the possibility of metabolic cooperation within mosaic colonies of wild-type and mutant cells and achieved expression of the induced changes before intercolony crossfeeding reduced the frequency of resistant colonies.—AZG-resistant colonies were selected in medium containing dialyzed fetal bovine serum, and the selection medium was replaced at least twice. Both serum dialysis and selection medium replacement were necessary for consistent achievement of background frequencies of resistant colonies near 10^-6. Reconstruction experiments with AZG-resistant V79 lines showed that the efficiency of recovery of resistant cells in the selection medium was constant over a range of 0–20 colonies observed/dish. A mixed population of V79 and AZG-resistant cells was also correctly analyzed by the procedure used in mutagenesis studies.     

Differentiation from precursors in normal bone marrow of spontaneously cytotoxic cells showing anti-self-MHC specificity

Colonies containing spontaneously cytotoxic effector cells with specificity for target cells carrying self-MHC can be grown from normal mouse bone marrow (BM). BM was first depleted of nylon wool-adherent cells and was then cultured at low cell number (1 to 300 cells/culture) in multiple replicate microcultures in liquid culture medium containing supernatant from EL4 thymoma cells stimulated with PMA. Frequency of colony growth followed one-hit limiting dilution kinetics. Colonies contained lymphoid, myeloid, or both kinds of cells. About 5% of colonies contained self-specific cytotoxic effector cells. Analysis using the X chromosome-linked isoenzyme PGK-1 confirmed that colonies containing autoreactivity could be clonal. A factor other than IL 2, IL 3, or PMA appears to be required for the growth of autoreactive colonies. Similar colonies, both with and without autoreactive effector cells, could also be grown from the BM of athymic nude mice with frequencies and cytotoxic activities directly comparable to those found for normal BM. C.B-17 scid mice lack both B and T cells, apparently due to a block in the development of lymphoid stem cells. Colonies could be grown with comparable frequency from their BM, but these colonies lacked both lymphoid cells and spontaneous cytotoxic activity. Evidence is presented against the self-reactive effector cells being NK cells, macrophages, or mature T cells. It is speculated that they represent an early stage of the T cell differentiation pathway.     

A comparison of stem cell assays using early or late spleen colonies

The distribution of spleen colony diameters was determined 5.5, 8.0, 10.5 and 13.0 days after injection of normal bone marrow cells to lethally irradiated recipients. A relative lack of small colonies on day 8.0, as compared with days 5.5, 10.5 and 13.0, argued against a time continuum in colony appearance. The spleen colonies observed after 10 days or more probably represented a mixture of colonies which developed from the originally transplanted CFU-S and those arising from secondary CFU-S. Thus, late appearing spleen colonies may not necessarily identify a different, less mature, population of CFU-S. Administration of increasing amounts of bone marrow cells was used for comparing the linearity of the CFU-S assay for colonies observed after 8 days or after 12 to 13 days. The influence of overlapping colonies on the results was considerably augmented if large spleen colonies were observed after 12 or 13 days. Subsequently the CFU-S assay lost much of its quantitative character. We believe that some previously published data might have been misinterpreted by neglecting the important differences between 'early' and 'late' CFU-S assays.     

A comparison of stem cell assays using early or late spleen colonies

Abstract The distribution of spleen colony diameters was determined 5.5, 8.0, 10.5 and 13.0 days after injection of normal bone marrow cells to lethally irradiated recipients. A relative lack of small colonies on day 8.0, as compared with days 5.5, 10.5 and 13.0, argued against a time continuum in colony appearance. The spleen colonies observed after 10 days or more probably represented a mixture of colonies which developed from the originally transplanted CFU-S and those arising from secondary CFU-S. Thus, late appearing spleen colonies may not necessarily identify a different, less mature, population of CFU-S. Administration of increasing amounts of bone marrow cells was used for comparing the linearity of the CFU-S assay for colonies observed after 8 days or after 12 to 13 days. The influence of overlapping colonies on the results was considerably augmented if large spleen colonies were observed after 12 or 13 days. Subsequently the CFU-S assay lost much of its quantitative character. We believe that some previously published data might have been misinterpreted by neglecting the important differences between 'early'and 'late'CFU-S assays.     

Alveolar type II-like cell colonies: effect of alveolar macrophages and macrophage-conditioned media

Alveolar type II-like colonies were obtained after a low density plating (5 X 10(3)/60 mm tissue culture dish) of primary type II cells. These colonies were formed only when type II cells were either cocultured with alveolar macrophages or with conditioned media generated by alveolar macrophages. Cells in the colonies appeared homogeneous and kept their lamellar bodies over a period of 8 weeks and more, as observed by electron microscopy. These cells reacted immunocytochemically with antibodies directed against the 32-38 kDa protein fractions of rat surfactant.