Macrophage spreading in vitro : II. Manganese and other metals as inducers or as co-factors for induced spreading

The cation requirement for the spreading of macrophages on glass and in simple media was examined. Several divalents allowed spreading induced by glass-bound immune-complexes. Their rank was MnCo > Ni, Zn > Cd > Mg > Fe in bicarbonate-buffered saline (SBK). Concentrations of Mn of 3μM allowed for extensive spreading in SBK while 10 μM were required for full spreading in Tris- or imidazole-buffered saline. Similar concentrations of Mn permitted spreading induced by dithiothreitol. Ca²⁺, Al³⁺ or Th⁴⁺, among other metals, were ineffective in immune-complex triggered spreading. Spreading in the presence of Mg was inhibited by EDTA but not by EGTA, giving further support for lack of a Ca requirement. At higher concentrations, Mn and several other metals induced macrophage spreading in the absence of other inducers. Features of the spreading promoted by 1 mM Mn were similar to those previously found for other inducers [23], and cells induced to spread by Mn were fully capable of phagocytosis. The specificity and the low concentrations needed for co-factor activity are incompatible with a charge reduction role of divalent cations and are consistent with a metal activated enzymatic reaction step. The similarity between macrophage spreading and cell to substrate adhesion in regard to Mg requirements and other features, suggests that cell ‘adhesion’, as usually measured, may be dependent on the extent of cell spreading.     

The effect of cytochalasin B,colchicine and vinblastine on the adhesion of Trichomonas vaginalis to glass surfaces

The attachment of Trichomonas vaginalis to glass surfaces was studied in the presence of cytochalasin B, colchicine and vinblastine. Marked inhibition of adhesion was noted with high concentrations of cytochalasin B. Colchicine and vinblastine were without effect. These findings suggest that Trichomonas vaginalis adhesion is at least partially mediated by the extension of cellular probes, due to the action of cytochalasin-sensitive microfilaments.     

Effect of cytochalasin D on the adhesion of a neuroblastoma x glioma cell line (NG108-15) to laminin and plastic substrates

Summary Adhesion of the neuronal cell surface to its underlying substrate plays an important role in neurite outgrowth in vitro. I have investigated the adhesive basis for neurite outgrowth in the presence of cytochalasin D, a disruptor of actin-containing microfilaments, and in the presence of vinblastine, a depolymerizer of microtubules. Scanning electron microscopy shows that cytochalasin D does not alter the branching configuration of filopodia on a laminin substrate, although processes are shorter and tapered distally in the presence of the drug. Using a standard attachment assay for the neuroblastoma x glioma cell line (NG108-15) I show that vinblastine does not influence attachment of NG108-15 cells to either plastic or laminin. Cytochalasin D-treated cells normally attach to high concentrations of a laminin substrate (20 g/ml). However, when cell are seeded on a laminin substrate at lower concentrations (0.001–10 g/ml), or on YIGSR, a fragment of laminin, cytochalasin D increases cell attachment. Cytochalasin D increases attachment in a dose-dependent manner when cells are seeded on plain polystyrene plastic, so that the number of cells attached to plastic in 1 M cytochalasin D is similar to the number attached to laminin (20 g/ml). Combining low concentrations of cytochalasin D and laminin results in greater attachment than with either agent alone. Mild trypsinization of the cell surface reduces the CD-enhanced attachment to plastic, indicating that a protein on the cell surface may be involved. The effect of cytochalasin D appears to be cell specific since cytochalasin D does not affect the attachment of a fibroblast cell line (NIH 3T3) to laminin and plastic. I hypothesize that a molecular mechanism is involved in which cytochalasin D promotes attachment by interacting with the cell surface via the actin microfilament system.     

Requirement for RhoA kinase activation in leukocyte de-adhesion

Leukocyte migration from bloodstream to tissue requires rapid coordinated regulation of integrin-dependent adhesion and de-adhesion. Whether de-adhesion is an active process mediated by a distinct signaling pathway(s) or a passive decay of initial adhesion remains undetermined. We found that blockade of RhoA with C3 exoenzyme or inhibition of RhoA kinase by the specific inhibitor Y-27632 enhanced phorbol ester-stimulated alpha(4)beta(1)-dependent adhesion of Jurkat cells at 30 min. Similarly, Y-27632 treatment increased stimulated beta(2) integrin-dependent neutrophil adhesion at 30 min but not at 5 min. Because reduced de-adhesion could mimic augmentation of adhesion at later time points, we developed an assay to measure de-adhesion specifically. Treatment of phorbol ester-or bacterial chemoattractant peptide-but not Mn(2+)-stimulated neutrophils adherent to serum-coated plastic or endothelial cells with Y-27632 or C3 exoenzyme markedly reduced the rate of de-adhesion, while markedly increasing their spreading. RhoA kinase inhibitor effects on de-adhesion and spreading were reversed by treatment with the cytoskeletal-disrupting agent cytochalasin D. Treatment with Y-27632 influenced neither integrin activation epitope nor integrin clustering. We conclude that activation of RhoA kinase promotes leukocyte de-adhesion by inhibiting cytoskeletal-dependent spreading, and that these effects of RhoA kinase constitute a new mechanism for regulation of integrin receptor avidity.     

Macrophage spreading in vitro. III. The effect of metabolic inhibitors, anesthetics and other drugs on spreading induced by subtilisin

The effect of certain drugs on macrophage spreading induced by the proteolytic enzyme sub-tilisin was quantitatively examined and the 50 and 90 % inhibitory concentrations of the drugs were determined. In most instances the viability of the macrophages was preserved, as shown by phagocytic tests and by experiments in which cells pretreated with the drugs and washed were shown to spread when exposed to subtilisin. Inhibitors of electron transport, oxidative phosphorylation or uncouplers at rather small concentrations all effectively blocked macrophage spreading, indicating an ATP requirement. Spreading was also inhibited by neutral or cationic anesthetics and the reciprocal of their 50 % inhibitory concentrations was linearly related to their octanol-water partition coefficients. Inhibition by the anesthetics paralleled their effects on other membrane phenomena, such as nerve conduction, osmotic lysis of erythrocytes, viral induced cell fusion, or Sarcoma I cell to substrate adhesion, also suggesting a membrane target. Spreading was reduced by the anti-inflammatories indomethacin, or phenylbutazone, by high doses of colchicine or vinblastine, by the putative microfilament-acting drug cytochalasin B or by the SH- reagent n-ethyl maleimide. Colchicine and vinblastine effects may involve mechanisms other than their microtubular actions. Several other drugs, including inhibitors of protein synthesis, did not inhibit the spreading of macrophages. Spreading induced by substrate-bound immune complexes was also inhibited by representative metabolic inhibitors or anesthetics.     

The effect of a collagen tripeptide fragment (GER) on fibroblast adhesion and spreading depends on properties of an adhesive surface

The effect of collagen tripeptide fragment GER on the adhesion and spreading of mouse embryonic fibroblasts STO to different substrates (polystyrene plastic, poly-L-lysine, fibronectin, gelatin) has been studied. It was found that tripeptide GER was involved in fibroblast adhesion and spreading. The cell response depended both on the mode of tripeptide addition to culture medium and the substrate type. Coincubation of fibroblasts with tripeptide stimulated the cell attachment and spreading to untreated plastic and plastic coated with fibronectin or gelatin but did not change cell adhesion to immobilized poly-L-lysine. Preincubation of cells with tripeptide resulted in partial inhibition of fibroblast adhesion and spreading on fibronectin- and gelatin-coated substrata. It was shown that activation and inhibition of adhesive processes after tripeptide treating was higher on fibronectin than gelatin. The data obtained support the assumption about concerted action of tripeptide GER (activity was dependent both on the used concentration of the tripeptide and the mode of tripeptide addition to culture medium) and chemical characteristics of substrate (polymers of styrene and L-lysine, ECM proteins in native (fibronectin) or partly denatured (gelatin) form) on the cell adhesion and spreading. The main targets that GER peptide may affect during the formation of cell-substrate interactions are discussed.     

Use of a modified Robbins device to directly compare the adhesion of Staphylococcus epidermidis RP62A to surfaces

Staphylococcus epidermidis is a frequent cause of infection associated with the use of biomedical devices. Flow cell studies of the interaction between bacteria and surfaces do not generally allow direct comparison of different materials using the same bacterial suspension. The use of a modified Robbins Device (MRD) to compare the adhesion to different surfaces of Staph. epidermidis RP62A grown in continuous culture was investigated. Adhesion to glass was compared with siliconized glass, plasma-conditioned glass, titanium, stainless steel and Teflon. Attachment to siliconized glass was also compared with glass under differing ionic strength, and divalent cation concentrations. Both the differences in numbers adhering and changes in adhesion (slope) through the MRD were compared. There was a trend towards higher numbers adhering to the discs at the in-flow end of the MRD than at the outflow end, probably reflecting depletion of adherent bacteria in the interacting stream. Adhesion of Staph. epidermidis RP62A to siliconized glass and Teflon was reduced when compared to glass with increasing flow rates. Adhesion to stainless steel was not affected by flow rate and titanium gave a different slope of adhesion through the MRD when compared with glass, suggesting an interaction with different sub-populations within the interacting stream. Differences between siliconized glass and glass at flow rates of 300 ml h-1 were abolished by the addition of calcium or EDTA and reduced by the addition of magnesium. Increasing ionic strength reduced the statistical significance of the differences between glass and siliconized glass. Pre-conditioning of glass with pooled human plasma reduced adhesion compared with untreated glass and again gave a different slope to glass. The MRD linked to a chemostat can be used to compare directly bacterial adhesion to potential biomaterials. Variable depletion of the interacting stream should be taken into account in the interpretation of results. Divalent cation concentration, substrate properties and flow rate were important determinants of the comparative adhesion of Staph. epidermidis RP62A to surfaces.     

Multiple elevations of cytosolic-free Ca2+ in human neutrophils: initiation by adherence receptors of the integrin family

Multiple spontaneous transient elevations of cytosolic-free calcium ([Ca2+]i) are observed in single human neutrophils during adherence. The interrelation between adherence and spontaneous [Ca2+]i transients was analyzed by simultaneous monitoring of [Ca2+]i and cell morphology. Fluorescent images of fura 2-loaded neutrophils attached to albumin-coated glass were recorded with a high sensitivity CCD camera while [Ca2+]i was assessed with a dual excitation microfluorimetry. The majority of the initially round cells studied showed changes in shape which started either before or at the same time as the onset of the [Ca2+]i transients. These data suggested that a rise in [Ca2+]i is not a prerequisite for shape change. This conclusion was confirmed by observation of movement and spreading in cells whose [Ca2+]i transients were abolished by chelation of extracellular Ca2+. Instead, our data suggest that spreading or adhesion itself initiates the [Ca2+]i activity. In keeping with this hypothesis, cytochalasin B, which prevents both cell movement and adhesion, completely inhibited generation of [Ca2+]i transients. To determine if the movement alone or adhesion alone is responsible for [Ca2+]i activity, we treated cells with antibodies against the beta chain (CD18, beta 2) or the alpha subunit (CD11b, alpha m) of the dominant leukocyte integrin (CR3). Antibody-treated cells showed normal extension of pseudopods but impaired ability to adhere. Inhibition of adhesion in this way inhibited [Ca2+]i activity. Taken together these results suggest that following sequence of events after contact of neutrophils with surfaces: (a) cell movement and shape change lead to enhanced contact of integrins with the surface; and (b) integrins-mediated adhesion generates multiple [Ca2+]i transients. The [Ca2+]i transients may then control exocytic events associated with movement and may provide a link between adherence and activation or priming of neutrophils to other stimuli.     

Identification of sequences required for the efficient localization of the focal adhesion kinase, pp125FAK, to cellular focal adhesions

The integrin family of heterodimeric cell surface receptors play critical roles in multiple biological processes by mediating cellular adhesion to the extracellular matrix (ECM). Adhesion triggers intracellular signaling cascades, including tyrosine phosphorylation and elevation of [Ca2+]i. The Focal Adhesion Kinase (FAK or pp125FAK), a protein tyrosine kinase that colocalizes with integrins in cellular focal adhesions, is a prime candidate for a mediator of integrin signaling events. Here we report an analysis of the domain structure of FAK in which we have identified a contiguous stretch of 159 amino acids within the COOH terminus essential for correct subcellular localization. When placed in the context of an unrelated cytosolic protein, this Focal Adhesion Targeting (FAT) sequence functions to efficiently mediate the focal adhesion localization of this fusion protein. Furthermore, this analysis suggests that pp125FAK cannot be activated oncogenically by mutation. This result could be explained if pp125FK either exhibits a narrow substrate specificity or is diametrically opposed by cellular phosphatases or other cellular processes.     

Effects of temperature,metabolic and cytoskeletal inhibitors on the rate of BHK cell adhesion to polystyrene

Adhesion of baby hamster kidney fibroblasts (BHK cells) to a Falcon tissue culture flask was measured under various physiological conditions. While 75–80% of the fibroblasts adhere at temperatures from 19–50°, cellular adhesion decreased dramatically below 19°. Less than 10% of the cells adhere to the substratum even after prolonged incubations at temperatures of 8° or below. This lack of adhesion at low temperatures cannot be overcome by the application of increased gravitational force to the cells. No correlation exists between cellular ATP concentrations or respiration rates and the rate of cell adhesion to the substratum. One millimolar Na F and 1 mM 2,4 dinitrophenol together lower cellular ATP concentration by 95% but adhesion is reduced by only 50%. NaN₃ and KCN greatly lower cellular ATP concentrations without a corresponding inhibition of adhesion. Inhibition of cellular respiration by these compounds occurs at lower concentrations than does the inhibition of adhesion. Two micrograms/milliliters of cytochalasin B inhibits adhesion by 90%, 0.1 mM vinblastine sulphate or colchicine by less than 50% and 50 μg/ml colcemid by less than 30%. Fixing the cells with formaldehyde, hardening their membranes with ZnCl₂ or treating the cells with toluene, all cause an inhibition in adhesion. Again, application of increased gravitational force cannot overcome these latter inhibitions of BHK cell adhesion to the surface of the flasks.     

Facile platelet adhesion to collagen requires metabolic energy and actin polymerization and evokes intracellular free calcium mobilization

The attachment of platelets to collagen-coated microtiter plates at 20 degrees C was inhibited strongly by depletion of metabolic energy or by addition of cytochalasins and was slightly inhibited by the intracellular Ca2+ chelator BAPTA. In keeping with their respective potencies as inhibitors of actin polymerization, cytochalasins D and H were the most potent inhibitors of adhesion, while cytochalasin B was the least potent. Energy depletion, cytochalasin D or, to a much lesser extent, BAPTA also inhibited platelet adhesion to collagen in a suspension assay system at 37 degrees C. Collagen-induced platelet cytosolic Ca2+ mobilization was inhibited up to 70% by cytochalasin D and abolished by energy depletion or BAPTA. Elevation of intracellular platelet calcium by treatment with ionomycin had little effect on platelet adhesion to collagen. We propose that rapid platelet spreading along collagen fibers is both energy- and actin-dependent and necessary to produce maximal adhesion needed to elicit Ca2+ mobilization required for subsequent responses.     

Initial studies of the molecular organization of the cell-substrate adhesion site

Using selective extraction reagents and non-penetrating probes, studies have been initiated on the molecular organization of substrate-attached material, adhesion sites which pinch off from the cell surface of normal Balb/c 3T3 or SV40-transformed Balb/c 3T3 (SVT2) cells and which remain bound to the serum-coated substrate during EGTA-mediated detachment of cells. Extraction of SVT2 adhesion sites with non-ionic detergents resulted in (a) only small amounts of leucine-radiolabeled protein and glucosamine-radiolabeled polysaccharide being solubilized; (b) selective solubilization of 80% of the adhesion site actin, and (c) solubilization of 95% of the phospholipid from these membranous pools. ATP in combination with potassium chloride extracted 60% of the actin. The 3T3 and SVT2 adhesion site proteins which are accessible to lactoperoxidase-catalyzed iodination were also determined. Many of the serum-derived proteins, bound to the substrate, were iodinated during iodination treatment of serum-coated or substrate-attached material-coated substrates, whereas the cellular proteins in the adhesion sites were not iodinated even though they were present in larger quantity as revealed by Coomassie blue staining. Iodination of cells, followed by their EGTA-mediated detachment and reattachment to fresh serum-coated substrates, indicated that the principal iodinated cell surface component deposited in new adhesion sites is the large external transformation-sensitive glycoprotein (even though large external transformation-sensitive glycoprotein is not the only principal iodinated cell surface component of these cells). These studies further establish the selective enrichment in this adhesive material of specific cell surface components and indicate that they are tenaciously bound at the interface between the serum coating and the undersurface of the adhesion site membranous pools.     

Light-induced Adhesion of Spirogyra Cells to Glass

Adhesion of Spirogyra (tentatively, Spirogyra fluviatilis) cells to glass is described. The cells of an algal filament can adhere to a substrate only when they are located at the end of the filament. Rapid adhesion is induced by blue-violet light (blue adhesion) as well as by temperature shift (about 6 C → about 22 C) or shaking (dark adhesion). Adherent cells detach in 1 hour in the absence of one of these stimuli. Slow adhesion is induced by red light (red adhesion) 1 hour after irradiation, and may be controlled by phytochrome. A cell once caused to adhere by red light does not release from the glass.     

Role of the cytoskeleton in the spreading process of epithelial cells

The role of microtubules and actin filaments in spreading of the IAR-2 cells isolated from the rat liver was studied. At the glass surface in the standard medium the cells rapidly assumed a discoidal form soon after inoculation. In the colcemid-containing medium the spreading is disturbed and delayed. In the cytochalasin D-containing medium the cells form two or more long processes. The effects of these drugs are reversible. It is supposed that microtubules are essential for sending cytoplasmic processes and stabilizing those processes and lamellae which have no numerous and stable contacts with the substrate, e.g., the processes which form at the early stages of spreading or the elongated processes of polarized cells. Bundles of actin microfilaments are essential, in particular, to ensure the discoidal form of epithelial cells. Microtubules appear to prevent the actin cytoskeleton contraction.     

Studies on the mechanism of cell attachment to a substratum with serum in the medium: further evidence supporting a requirement for two biochemically distinct processes

Treatment of baby hamster kidney cells with cytochalasin B or omission of divalent cations from the culture medium are conditions resulting in an inhibition of cell attachment at rest; however, these conditions do not result in inhibition of cell attachment in a centrifugal field. In marked contrast, treatment of cells with trypsin or with tranquilizers such as fluphenazine results in an inhibition of cell attachment at rest or in a centrifugal field. The evidence is interpreted to indicate that cell adhesion involves at least two biochemical processes: formation of the adhesive bond per se (inhibited by tranquilizers or trypsin) and a mechanical process of cell-to-substratum contact and/or spreading (inhibited by cytochalasin B or omission of divalent cations from the medium).     

Influence of polylysine on adhesion of fibroblasts to glass substrates visualized by total internal reflection microscopy

The cell adhesion topography of mouse fibroblasts growing on glass substrates has been investigated. In order to compare cell adhesion on covered and uncovered glass, substrates were partly exposed to a solution with 0.1 mg/ml polylysine (300 kDa) for 15 min before incubation with cell suspension. After cultivation for 1, 3, 6, and 24 h their adhesion was visualised by total internal reflection microscopy. In the presence of polylysine, cells incubated for 1 h were strongly attracted to the substrate, leading to a typical cell adhesion topography characterised by round concavities under the ventral cell membrane with an approximate diameter of 1 μm. The cavity-surrounding rims were tightly bound to the glass surface. During further cell cultivation, the topography changed into a well-organised adhesion pattern with focal contact areas on the periphery of the cells. In contrast to the polylysine-mediated adhesion, cells growing on untreated surfaces did not exhibit the cavity-like topography at any stage of cultivation, but a more point spread adhesion with a dense clustering of contact-forming areas.     

Effects of basic fibroblast growth factor on human microvessel endothelial cell migration on collagen I correlates inversely with adhesion and is cell density dependent

Angiogenesis, new vessel growth from existing vessels, is critical to tissue development and healing. Much is known about the molecular and cellular elements of angiogenesis, such as the effects of growth factors and matrix molecules on proliferation and migration. However, it is not clear how these elements are coordinated to produce specific microvascular beds. To address this, the effects of basic fibroblast growth factor (bFGF) on β1 integrin-mediated adhesion relative to migration in human microvessel endothelial cells (HMVEC) was examined. Using two assays of migration that differ in the density of cells being examined, bFGF stimulated single cell migration and reduced cell migration from a confluent monolayer on collagen I. Adhesion to collagen I of HMVEC treated at low density (2−4 × 10⁴ cells/cm²) with bFGF for 22 h was reduced, while bFGF increased cell adhesion of HMVEC treated at high density (6−8 × 10⁴ cells/cm²). Adhesion of both bFGF-treated and untreated HMVEC was mediated by the β1 integrin matrix receptor. Basic FGF treatment did not significantly alter surface expression of the β1 integrin subunit. Reduction in bFGF-mediated adhesion correlated with delayed cell spreading and altered organization of β1 integrin into substrate contacts. Thus, integrin-mediated cell adhesion in microvessel endothelial cells is sensitive to regulation by a growth factor. Furthermore, the nature of the response to this signal depends on another cell regulator, cell density. In addition, modulation of cell adhesion by a growth factor may be a central regulatory feature in controlling endothelial cell migration. © 1996 Wiley-Liss, Inc.     

The influence of cytochalasin B, colchicine, and vinblastine on the attachment of Entamoeba histolytica to glass surfaces (author's transl)]

The attachment of E. histolytica trophozoites from monoxenic TPS-medium to glass surfaces was studied at different temperatures and pH values and in the presence of cytochalasin B, colchicine, and vinblastine. At pH 7.0 and at 36 degrees C optimal adhesion rates of the amebae were observed in the range from 80% to 95%. Marked inhibition of adhesion was noted at higher concentrations of cytochalasin B. The adhesion rate was reduced to 50% by 50 micrograms/ml CB. Higher dosages successively prevented nearly all adhesion. Colchicine was without any effect. Vinblastine had a certain low effect but only at very high dosage. The observations are consistent with the assumption that the adhesion process is at least partially mediated by cytochalasin-sensitive contractile microfilaments, whereas microtubuli are obviously not involved in the cell-substrate adhesion.     

Effect of Colchicine,Vinblastine, and Cytochalasin B on Cell Surface Anionic Sites of Tritrichomonas foetus1

ABSTRACT. Drugs that interact with microtubules (colchicine and vinblastine) and microfilaments (cytochalasin B) partially inhibited cell growth and motility of Tritrichomonas foetus. Parasites incubated with these substances became rounded and cell division was blocked. Neither colchicine nor vinblastine disrupted the microtubules that form the peltar-axostylar system. Any one of these drugs interfered with the net negative surface charge of T. foetus as evaluated by determination of the cellular electrophoretic mobility (EPM). The decrease in the EPM of cytochalasin B-treated cells was caused by dimethylsulfoxide, which was used as solvent. Untreated cells as well as cytochalasin B-treated cells showed a uniform distribution of anionic sites on the plasma membrane as seen with cationized ferritin particles. In cells treated with colchicine or vinblastine the anionic sites were distributed in patches. These results are discussed in terms of participation of labile cytoplasmic microtubules and microfilaments in the control of the distribution of anionic sitecontaining macromolecules located on the cell surface of T. foetus.     

Early events in fibroblast adhesion to glass : An electron microscopic study

Electron micrographs of trypsinized fibroblasts settling on glass in protein-free buffer show, after 15 min, areas of cell/substrate relationship characterized by obliteration of the gap between cell and substrate. The thickness of the plasma membrane at these points of adhesion is reduced from 7–8 to 3–5 nm the trilaminar structure being reduced to a single electron-dense layer. After 15 min, cells spreading in the presence of serum have small areas of cell/substrate specialization, which are characterized by an electron-transparent gap of 7–8 nm and by increased density of the cortical cytoplasm. The addition of manganese to the media results in an increase in spreading, but has little effect on the ultrastructure of adhesion. The possibility of introduction of artefacts by the technique used for removal of the glass substrate during processing is discussed.