Concanavalin A-mediated attachment and ingestion of yeast cells by macrophages

The ConA-mediated interaction of yeast cells with macrophages was brought about in two steps. The first step involved the interaction of either macrophages or yeast cells with ConA, MConA or YConA in brief, respectively. The second step consisted of interacting the ConA-coated cells with their non-coated counterpart, yielding MConA-Y or M-YConA. The extent of yeast cell attachment to macrophages depends on the degree of saturation of ConA binding sites on the cell coated with ConA in the first step and on the temperature at which the two cell types interact. The temperature dependence in the range of 10–25 °C implies that cell-cell attachment is sensitive to the physical state of membrane lipids as reflected in increased lateral mobility of ConA receptors in the membrane plane. The extent of ConA-mediated cell association is not influenced significantly by colchicine, cytochalasin B (CB) or hydrocortisone. A mild treatment of macrophages with glutaraldehyde reduces, however, the association of yeast cells, further indicating a need for lateral mobility of ConA receptors. ConA-mediated yeast cell attachment could be totally reversed by α-methyl mannoside in the case of MConA-Y and only partially in the case of M-YConA. Yeast cell ingestion is highly temperature-dependent; in MConA-Y a 50% interiorization of the associated yeast cells is reached at 32 °C and detectable interiorization starts only above 19 °C, while in M-YConA a 50% value of interiorization is reached at 18 °C and about 15% of yeast cells are interiorized already at 5 °C. Interiorization of attached yeast cells is not affected by colchicine. Cytochalasin B (CB) (10 μg/ml) inhibits 82% of yeast interiorization in MConA-Y and only 12% in M-YConA. Hydrocortisone has a similar differential effect of inhibition of ingestion; at 25 °C inhibition in MConA-Y amounts to 78% and in M-YConA to 22%. Sodium azide inhibits 90% of interiorization of yeast cells in both MConA-Y and M-YConA. The following working hypothesis was proposed to explain both the characteristics of attachment and the remarkable difference in ingestion pattern of yeast cells in MConA-Y and M-YConA. ConA-mediated yeast cell attachment to macrophages involves multipoint interaction between the two cells achieved by a certain clustering of ConA receptors in the membrane plane. To achieve interiorization a higher extent of bridge formation between the cells is required, and a higher number of ConA-membrane receptors have to be recruited to the area of apposition of the two membranes. This requires lateral mobility of either ConA receptors conjugates (in the case of MConA) or of mobile non-crosslinked ConA receptors in macrophages interacting with YConA). Mobility of ConA receptor conjugates is more sensitive to membrane fluidity than that of non-crosslinked receptors and hence the differential temperature-dependence of ingestion. The effect of CB suggests an involvement of the cytoskeleton in the reorganization of ConA receptors at the membrane level.     

Differential effects of lectins mediating erythrocyte attachment and ingestion by macrophages

Lectin-mediated interaction of erythrocytes and macrophages was brought about in two steps. Step I involved macrophage treatment with lectin, and step II is the incubation of lectin-treated macrophages with mouse erythrocytes. The extent and nature of lectin-mediated macrophage erythrocyte interaction was studied using concanavalin A (ConA), wheat germ (WGA), soybean (SBA) and waxbean (WBA) agglutinins. The parameters affecting the interaction were studied in detail with the first two lectins.Under comparable conditions of lectin interaction with macrophages (step I), WGA mediates rosette formation involving interaction with several times the number of erythrocytes than those interacting with ConA-treated macrophages. The interaction mediated by WGA reaches, at 37 °C, a saturation value after 30 min of step II, whereas that mediated by ConA is still linear and exhibits half the amount of attached erythrocytes at 60 min. ConA-mediated attachment of erythrocytes is highly temperature-dependent being at 37 °C twice that observed at 24 °C. The temperature dependence of attachment is not affected by changes of either ConA concentration (5–40 μg/ml) or the temperature in step I. An optimum is observed, however, when the temperature of incubation in step I ranges between 14–18 °C. WGA-mediated attachment of erythrocytes is markedly less temperature-sensitive, exhibiting 70% of optimal attachment already at 8 °C. Only when the attachment phase follows incubation with a low concentration of WGA (2 μg/ml) high temperature sensitivity is exhibited. At 37 °C, however, the number of attached erythrocytes is the same for macrophages treated with WGA at concentrations of 2, 5, 10 and 40 μg/ml.ConA-mediated erythrocyte-macrophage interaction does not lead to erythrophagocytosis. When mediated by WGA, the attachment step is followed by a temperature-dependent ingestion step, i.e. 10% and 50% of the erythrocytes that attach to macrophages during the 60 min incubation at 24 °C and 37 °C, respectively, are ingested. There is a lag period of 10–20 min between attachment and ingestion implicating involvement of additional cellular processes preceding engulfment. Electron microscope images of areas of interaction of attached erythrocytes with macrophages indicate a significantly tighter binding (a thinner gap at membrane-membrane apposition areas) in the case of WGA-mediated rosette formation as compared with that established in ConA-mediated rosettes. Attachment via WGA is followed by a rapid change in the relative position of the attached erythrocytes on the macrophage, from a primary attachment at the distal peripheral regions of the cell, to a perinuclear position. In contrast, erythrocytes attached via ConA remain at the primary attachment point (at 37 °C) for extended periods. This differential behaviour does not stem from effects of ConA on macrophages, since when yeast cells were attached to ConA treated macrophages, the yeast cells showed the same movement as that exhibited by erythrocyte when attached via WGA.The different interaction patterns of erythrocytes with macrophages coated with ConA and WGA can be fitted into the following working hypothesis: the number of WGA-binding sites on the plasma membrane of macrophages is at least three times that of ConA-binding sites. Stable cell-cell interactions involve multibridge formation at the contact area of the two cells and this involves a delicate balance between number of lectin-receptor conjugates and their aggregation state within the membrane phase. A certain amount of clustering is a prerequisite for attachment, while a high degree of clustering reduces the chance of fruitful interactions. The engulfment step depends on the ability of membrane areas adjacent to primary contact area to establish additional stable bridges in the entire circumference of the attached cell. ConA-receptor conjugates appear to be less abundant and more aggregated within the membrane plane, preventing the completion of fruitful circumferential interaction of the adjacent membrane. WGA-receptor conjugates, being more abundant and apparently less aggregated are available at membrane areas needed for cell enclosure and provide the additional bridging without which engulfment does not take place. Change in relative position of attached erythrocytes seems to be a step in the manifold events occurring from attachment to ingestion.     

Binding of I-Concanavalin a and agglutination of embryonic neural retina cells : Age-dependent and experimental changes

Embryonic chick neural retina cells dissociated from retina tissue by treatment with EGTA (a calcium chelator) show an age-dependent decline in ability to agglutinate with concanavalin A (ConA). This developmental change in cell surface properties is not due to loss of ConA-binding sites, since mature retina cells can be rendered agglutinable by mild trypsinization. It is also not due to masking of ConA receptors, or to a decrease in their amount, since retina cells from late embryos (19 days) bind four times as much ¹²⁵I-ConA as cells from early embryos (8 days). Our findings lead us to suggest that, as the retina differentiates the lateral mobility of ConA receptors in the cell membrane decreases resulting in a reduction of cell agglutinability; trypsinization of late embryo retina cells increases the mobility of the receptors and thereby facilitates their clustering by the lectin into a configuration conducive to cell agglutination.The ability of late embryo (19 day) retina cells dispersed with EGTA to agglutinate with ConA could be increased by still other treatments: by pre-incubation of the cell suspension in Tyrode's balanced salt solution (1 h, 37 °C); and by brief pre-exposure to glutaraldehyde. These two treatments did not enhance cell agglutination with wheat germ agglutinin (WGA). Glutaraldehyde treatment of trypsinized cells made them agglutinable with ConA also at 4 °C; cells treated otherwise agglutinated only at higher temperature. Surface-saturation of monodispersed retina cells with ConA at 37 °C—but not at 4 °C—prevented their agglutination with this lectin, but not with WGA; this inhibition was reversible by methyl a-D-glucopyranoside (αMG).     

Analysis of alpha 1 beta 1, alpha 2 beta 1 and alpha 3 beta 1 integrins in cell--collagen interactions: identification of conformation dependent alpha 1 beta 1 binding sites in collagen type I.

Integrins can mediate the attachment of cells to collagen type I. In the present study we have investigated the possible differences in collagen type I recognition sites for the alpha 1 beta 1 and alpha 2 beta 1 integrins. Different cyanogen bromide (CB) fragments of the alpha 1 (I) collagen chain were used in cell attachment experiments with three rat cell types, defined with regard to expression of collagen binding integrins. Primary rat hepatocytes expressed alpha 1 beta 1, primary rat cardiac fibroblasts alpha 1 beta 1 and alpha 2 beta 1, and Rat-1 cells only alpha 2 beta 1. All three cell types expressed alpha 3 beta 1 but this integrin did not bind to collagen--Sepharose or to immobilized collagen type I in a radioreceptor assay. Hepatocytes and cardiac fibroblasts attached to substrata coated with alpha 1(I)CB3 and alpha 1(I)CB8; Rat-1 cells attached to alpha 1(I)CB3 but only poorly to alpha 1(I)CB8-coated substrata. Cardiac fibroblasts and Rat-1 cells spread and formed beta 1-integrin-containing focal adhesions when grown on substrata coated with native collagen or alpha 1(I)CB3; focal adhesions were also detected in cardiac fibroblasts cultured on alpha 1(I)CB8. The rat alpha 1 specific monoclonal antibody 3A3 completely inhibited hepatocyte attachment to alpha 1(I)CB3 and alpha 1(I)CB8, as well as the attachment of cardiac fibroblasts to alpha 1(I)CB8, but only partially inhibited the attachment of cardiac fibroblasts to alpha 1(I)CB3. 3A3 IgG did not inhibit the attachment of Rat-1 cells to collagen type I or to alpha 1(I)CB3.(ABSTRACT TRUNCATED AT 250 WORDS)     

Concanavalin A mediated attachment and ingestion of red blood cells by macrophages.

The interaction of red blood cells and macrophages mediated by Concanavalin A (ConA) was studied using mouse peritoneal macrophages and fresh, homologous red cells. Erythrocytes exposed to ConA at 0.5 μg/ml, a condition that leads to a saturation of 3% of the ConA sites, were bound by macrophages at 22 °C. The ConA inhibitor, α-methylmannoside, prevented this attachment of red cells and largely reversed it when added to preformed macrophage-red cell rosettes up to 90 min. However, red cell attachment was essentially irreversible by 3 h. Electron microscopy showed a progressive increase in the degree of contiguity between red cells and macrophages with time, some macrophage projections distorting and partially encircling red cells at 3 h. Macrophages pretreated with high concentrations of ConA (25 μg/ml) also bound red cells. However, phagocytosis of adherent red cells did not occur at either 22 or 37 °C, even when both red cells and macrophages were pretreated with ConA. In contrast, phagocytosis of attached red cells was observed when preformed rosettes were exposed to ConA at a concentration of 5 μg/ml, and it was complete with ConA at a concentration of 25 μg/ml. These studies demonstrate that ConA in low concentration on red cells is detected by macrophages which form a progressively tighter bond with the red cell surface. However, it appears that phagocytosis can occur only under conditions in which a high density of ConA is established on the surface of the red cell.     

Cell surface mobility of a bacterial R-form glycolipid, mR595, after binding to rat cells, and its effect on the mobility of concanavalin A receptors

Binding of small amounts of glycolipid mR595 to rat cells, followed by sequential incubation of cells at 37 °C with rabbit anti-glycolipid mR595 and fluorescein-conjugated sheep anti-rabbit γ-globulin antisera results in the localization of fluorescence at one pole of the cell surface (capping). Binding of higher amounts of glycolipid mR595 to cells not only inhibits formation of glycolipid caps but those of the ConA receptor-fluorescent ConA complex as well. Glycolipid mR595 binding does not alter [³H]ConA binding to cells but cell agglutination by ConA is inhibited in a competitive fashion. Binding of small amounts of ConA to cells does not affect glycolipid capping. Colchicine and cytochalasin B (CB) treatment of cells inhibits glycolipid cap formation.     

Cell surface changes accompanying aging in human diploid fibroblasts : II. Two types of age-related changes revealed by concanavalin A-mediated red blood cell adsorption

Age-related changes in cell surfaces of human diploid fibroblasts (TIG-1) were investigated using the concanavalin A (ConA)-mediated red blood cell (RBC) adsorption assay. When ConA-coated RBCs were adsorbed to fibroblasts (RBC coating method), the amount of RBCs adsorbed per mg of fibroblast protein increased continuously from the early phases of cell passage up through cell senescence. On the other hand, when RBCs were adsorbed to ConA-coated fibroblasts (fibroblast coating method), RBC adsorption did not occur throughout phase II and increased with the advance of phase III. [³H]ConA binding to fibroblasts, however, did not change with aging to the extent that could explain the observed changes in RBC adsorption. These age-related characteristics in RBC adsorption and [³H]ConA binding were also observed for WI38 and IMR-90 cells. In addition, SV40- and ⁶⁰Co-transformed WI38 cells showed a close resemblance in their RBC adsorption capacity to early phase III cells.RBC adsorption with both the RBC and fibroblast coating methods was not a function of cell cycle phase and time spent in culture (metabolic time). Co-culturing of young cells with old or transformed cells did not affect the RBC adsorption capacity of respective cells. These results suggest that RBC adsorption with the RBC and fibroblast coating methods may represent cell surface markers for division age and senescence of aging human diploid cells.     

Cell surface changes accompanying aging in human diploid fibroblasts : III. Division age and senescence revealed by concanavalin A-mediated red blood cell adsorption

The relationship between cell size, [³H]thymidine incorporation capacity, and cell surface property of human diploid fibroblasts was investigated using the concanavalin A (ConA)-mediated red blood cell (RBC) adsorption assay. Small cells in late passage populations adsorbed RBCs well with the RBC coating method (in which ConA-coated RBCs are adsorbed to fibroblasts) as did large cells of this population, while small cells in early passage populations did not. The RBC adsorption capacity of rapidly dividing cells with this method differed among young, middle-aged and old cell populations. The results suggest that temporal cell size and [³H]thymidine incorporating capacity is not a measure of the division age of human diploid cells at the individual cell level. On the other hand, RBC adsorption with the fibroblast coating method (in which RBCs are adsorbed to ConA-coated fibroblasts) occurred to non-dividing cells of the populations. Thus, the increase in RBC adsorption with this method is considered to be a reflection of the increase in non-dividing cells at phase III. Our results support the hypothesis that RBC adsorption with the RBC and fibroblast-coating methods represents a cell surface marker for division age and senescence of human diploid cells, respectively, at the individual cell level.     

Fibronectin-mediated binding and phagocytosis of polystyrene latex beads by baby hamster kidney cells

The binding and phagocytosis of fibronectin (pFN)-coated latex beads by baby hamster kidney (BHK) cells was studied as a function of fibronectin concentration and bead diameter. Cells were incubated with radioactive pFN-coated beads, and total bead binding (cell surface or ingested) was measured as total radioactivity associated with the cells. Of the bound beads, those that also were phagocytosed were distinguished by their insensitivity to release from the cells by trypsin treatment. In continuous incubations, binding of pFN-coated beads to cells occurred at 4 degrees C or 37 degrees C, but phagocytosis was observed only at 37 degrees C. In addition, degradation of 3H-pFN from ingested beads occurred at 37 degrees C, as shown by the release of trichloroacetic acid-soluble radioactivity into the incubation medium. When the fibronectin density on the beads was varied, binding at 4 degrees C and ingestion at 37 degrees C were found to have the same dose-response dependencies, which indicated that pFN densities that permitted bead binding were sufficient for phagocytosis to occur. The fibronectin density for maximal binding of ingestion was approximately 250 ng pFN/cm2. When various sized beads (0.085-1.091 micron), coated with similar densities of pFN, were incubated with cells at 4 degrees C, no variation in binding as a function of bead size was observed. Under these conditions, the absolute amount of pFN ranged from less than 100 molecules on the 0.085-micron beads to greater than 15,000 molecules on the 1.091-micron beads. Based upon these results it can be concluded that the critical parameter controlling fibronectin-mediated binding of latex beads by BHK cells is the spacing of the pFN molecules on the beads. Correspondingly, it can be suggested that the spacing between pFN receptors on the cell surface that is optimal for multivalent interactions to occur is approximately 18 nM. When phagocytosis of various sized beads was compared, it was found that the largest beads were phagocytosed slightly better (two fold) than the smallest beads. This occurred both in continuous incubations of cells with beads and when the beads were prebound to the cells. Finally, the kinetic constants for the binding of 0.085 microM pFN-coated beads to the cells were analyzed. There appeared to be approximately 62,000 binding sites and the KD was 4.03 X 10(-9) M. Assuming a bivalent interaction, it was calculated that BHK cells have approximately 120,000 pFN receptors/cell and the binding affinity between pFN and its receptor is approximately 6 X 10(-5) M.     

Lipid peroxidation and morphological changes in mammalian cells treated with the glutathione oxidant, diamide

Chinese hamster ovary cells treated with the glutathione oxidant diamide formed large amounts of lipid peroxide. This effect was greater at 18 °C than at 0 °C and was apparently not a direct consequence of glutathione oxidation because it occurred at concentrations well above those needed to oxidize cellular glutathione. The reagent was toxic at 18 °C but not at 0 °C and caused extensive blebbing in 50% of the treated cells at this temperature. Electron microscopic examination of rabbit polymorphonuclear neutrophils disclosed that diamide caused formation of a large, organelle-free bleb and a band of fibrogranular material. It also inhibited phagocytosis of yeast particles by these cells. These effects were reversed when the cells were incubated at 37 °C in the absence of diamide. The results indicate that, although diamide is relatively specific for glutathione under some circumstances, effects observed with intact cells under most experimental conditions may reflect processes other than oxidation of endogenous glutathione.     

Adaptation to different growth temperatures modifies some mammalian cell survival responses

Chinese hamster (HA-1) cells that have been grown at 37 °C since explant several years ago can adapt themselves to grow at temperatures ranging from 32 to 41 °C. This growth adaptation is accompanied by major phenotypic changes in, for exampie, the cellular responses to 43 and 45 °C heat challenges and to ethanol challenges (0–10% in concentration). Cells grown at 39.5 °C are seen to acquire substantial heat resistance when compared with cells grown at 37 °C; resistance is even more pronounced if the growth temperature is at 41 °C. On the other hand, cells grown at 32 °C become more sensitive to heat than controls. Our results also indicate an increased resistance to ethanol of the 41 °C grown cells. By contrast the cells' X-ray survival response is affected only minimally. The changes seen are phenotypic; upon being returned to 37 °C, HA-1 cells within 34 h regain their ‘normal’ heat responses.     

Kinetic and morphological evidence for endocytosis of mammalian cell integrin receptors by using an anti-fibronectin receptor β subunit monoclonal antibody

Monoclonal antibody (mAb) 7E2.2, which recognizes the β subunit of the hamster fibronectin receptor (FnR) (Brown, P. J. and Juliano, R. L. (1988) Exp. Cell Res. 177, 303), was used to examine the distribution of and to quantify the internalization of the FnR and possibly related integrins on adherent fibroblasts. Purified 7E2.2 IgG was iodinated and used in binding and internalization studies. Binding to Chinese hamster ovary cells was saturable with a K_m of 0.3 nM and an estimated total number of cell surface β subunits at 2 × 10⁵ per cell. The FnR colocalized with fibronectin at cell adhesion contact sites and also was distributed evenly over the dorsal cell surface as discrete clusters. By using a direct immunocolloidal gold approach, the FnR was not associated with coated pits at 4 °C until internalization followed warming of the labeled cells to 37 °C. A proportion of the FnRs were endocytosed with a half-time of 6.5 min and, consistent with clathrin-mediated uptake, this was sensitive to hypertonic conditions. Receptor-immunocomplexes rapidly became localized within coated pits, small diameter tubules, and peripheral endosomes but the majority remained at the cell surface. At subsaturating concentrations of bound 7E2.2, approximately one-fourth of the total cell receptor population resided intracellularly at any one moment following steady-state; however, appreciable degradation of the iodinated mAb was not detected following accumulation for 4 h at 37 °C. These data showed that at least a portion of the FnR are endocytosed via a receptor-mediated pathway and suggested that these receptors do not immediately enter a degradative compartment.     

Interactions of concanavalin A with chick embryo fibroblasts transformed by rous sarcoma virus Study with an RSV mutant thermosensitive for transformation

The interactions between concanvalin A and chick embryo fibroblasts, normal and infected with Rous sarcoma virus (RSV-BH) or its thermosensitive mutant RSV-BH-Ta, have been studied. Normal chick embryo cells and RSV-BH transformed cells showed at 4 and 25 °C a similar number of concanavalin A receptors per cell. Analysis of the binding data by the Scatchard relation showed that apparent changes in binding as a function of temperature are due to the thermodynamic properties of the process and and not to endocytosis. The lectin receptors on the cell surface of normal and RSV-BH infected cells showed homogeneity in their binding properties. Chick cells infected with RSV-BH-Ta showed a lectin binding behavior that was dependent on the temperature at which the cells were grown. At the permissive temperature for transformation (37 °C), the binding process was similar to that observed for normal and RSV-BH infected cells. At the nonpermissive temperature (41 °C), the cells showed at least two sets of concanavalin A receptors. The new set of receptors on the cell surface had a lower lectin affinity than those observed in the same cells at 37 °C.Chick cells infected with RSV-BH showed an enhanced agglutinability by concanavalin A, as compared with normal cells. Cells infected with RSV-BH-Ta showed a reversal of the correlation between increased concanavalin A agglutinability and the transformed state. At the permissive temperature for transformation, the cells were not agglutinable, whereas at the nonpermissive temperature they presented agglutinability indexes as high as those observed with RSV-BH infected cells. This enhanced agglutinability observed with cells maintained at the nonpermissive temperature for transformation may be related to the new set of low affinity receptors present at 41 °C.     

Density, distribution and mobility of surface anions on a normal/transformed cell pair

The distribution and mobility of cell surface anions was investigated on low passage cultures of secondary BALB/c embryonic fibroblasts and their SV40-transformed counterparts (VLM cells) using polycationized ferritin (PCF) as a label. While the absolute number of anions/nm² of membrane was equivalent on the two cell types, the topographical distribution and mobility of these anions was strikingly different. After pulse-labeling with PCF at 37 °C, anions on BALB/c fibroblasts occurred in large piled-up clusters separated by extensive areas of membrane ( = 0.47 μm) free of negative charges. Labeling at 4 °C reduced the degree of “piling up” within the clusters, but the intercluster spacing was maintained indicating that the anions have short-range mobility in the membrane and can be cross-linked into a tight lattice at 37 °C. These anions do not, however, demonstrate any long-range mobility during a 20 min post-label incubation in PBS. In contrast, anions on VLM cells are inherently present in a random configuration of microclusters and single anions with relatively small ( = 0.09 μm) intervening areas of low charge density. Short-range mobility of surface anions is not displayed, presumably as a result of the inter-site distance, but long-range mobility is indicated by the formation of large site clusters following a 20 min incubation in PBS after pulse-labeling. Very mild proteolysis of BALB/c fibroblasts induces a change in the topography of surface anions toward the random configuration typical of VLM cells. These data are discussed in relation to altered social interactions between tumor cells which may be influenced by cell-cell adhesion characteristics.     

Factors affecting the adhesion and uptake of an oculo-genital strain of Chlamydia trachomatis to McCoy cells

Abstract We have studied adhesion and uptake of C. trachomatis serovar E in McCoy cells under various infection conditions. Adhesion and uptake of chlamydiae was completed about 3 h after the initiation of stationary infection at 37°C, but ingestion of cell membrane-attached organisms was finished within 0.5 h at 37°C. Reincubated chlamydiae, not attached after 3 h at 37°C, attached readily to fresh McCoy cell monolayers, but to a lesser extent than the original inoculum. Our results indicate that the lack of further attachment after 3 h incubation at 37°C under stationary infection conditions has complex causes, involving both host cell and parasite. Centrifugation did not affect the uptake of chlamydiae already bound to the cell membrane, suggesting that the uptake phase of C. trachomatis serovar E by McCoy cells is unaffected by centrifugation.     

Binding of plasma fibronectin to the surfaces of BHK cells in suspension at 4 °C

Plasma fibronectin is shown by several different criteria to bind to suspended BHK cells if the binding incubations are carried out at 4 °C. In indirect immunofluorescence experiments, fibronectin bound to suspended BHK cells at 4 °C in a punctate distribution over the entire cell surfaces. Little binding, however, was detected on cells incubated with fibronectin at 37 °C. The fibronectin bound to the cells at 4 °C was functionally active, since these cells subsequently were able to spread on tissue culture dishes in protein-free medium, unlike cells preincubated with fibronectin at 37 °C or in the absence of fibronectin. Also, the cell surface receptors for soluble fibronectin and fibronectin-coated beads appeared to be similar, since cells preincubated with fibronectin at 4 °C subsequently bound fewer fibronectin-coated beads than control cells. In biochemical studies with radiolabeled fibronectin, binding of fibronectin to the cells was shown to increase with incubation time up to 4 h. In competition experiments with unlabeled fibronectin, 30% of the binding of radiolabeled fibronectin could be inhibited.     

Freezing damage of bovine erythrocytes: Simulation using glycerol concentration changes at subzero temperatures

When a cell is frozen and thawed, it is exposed to (i) lowered temperature, (ii) increased solute concentration during freezing, and (iii) decreased solute concentration during thawing. Without actually freezing the cells, an attempt has been made to simulate physical-chemical changes to which bovine erythrocytes are exposed when frozen and thawed in glycerol solutions. Experimentally, the study consisted of suspending erythrocytes in 1, 2, or 3 glycerol at 20 °C for various times and then exposing them to each of several dilution sequences. The dilution sequences were: (i) transfer from the initial glycerol concentration at 20 °C into the same concentration at −5 °C, (ii) transfer into an increased glycerol concentration at 20 °C, (iii) transfer into an increased followed by a decreased glycerol concentration at 20 °C, (iv) transfer into an increased glycerol concentration at −5 °C, and (v) transfer into an increased followed by a decreased glycerol concentration at −5 °C. This last sequence is analogous to the exposure that cells undergo at subzero temperatures to increased solute concentration during freezing and decreased solute concentration during thawing. This dilution sequence yielded a survival pattern very similar to that obtained when bovine erythrocytes are frozen and thawed, and thus does appear to mimic freezing damage. It is concluded that a major factor in freezing damage is the extent to which a cell must shrink or swell to achieve osmotic equilibrium at subzero temperatures in partially frozen or thawed solutions.     

Quantitative evaluation of macrophage phagocytosing capacity by a fluorometric assay

This paper reviews sensitive and simple quantitative evaluation of macrophage phagocytosing capacity by applying fluoresecin-labeled Sacharomyces cerevisiae cells. Yeast cells were conjugated with fluoresceinisothiocyanate (FITC) and used as fluorescent particles. A time course analysis within this method showed that phagocytosis of yeast cells was temperature dependent and that the number of that ones ingested by macrophages increased rapidly during the initial 60 min of incubation at 37 degrees C. Free fluorescent cells can be effectively removed by aspiration from the well. Furthermore, yeast cells required preopsonization with serum to achieve optimal uptake of the cells. The uptake of nonopsonized yeast cells by macrophages was significantly lower than that of opsonized cells (P < 0.05). We propose that about 50% of mouse macrophages can carry functionally active FcR responsible for phagocytosis.     

Uptake and inactivation of a-type prostaglandins by human red cells

Incubation of A type prostaglandins with whole blood or washed red cells at 37°C converted them to more polar products with negligible vasodepressor and smooth muscle-contracting activities. This conversion did not occur in platelet-rich plasma. Uptake of the prostaglandins by red cells was demonstrated at both 4°C and 37°C. The data suggest 1) that if PGA is released from tissues into the blood stream or is administered for therapeutic purposes, its biological activity would be diminished by human red cells, and 2) that development of an assay for PGA in blood should take into account its uptake and metabolism by human red cells.     

Experimental and calculated parameters on particle phagocytosis by alveolar macrophages.

Phagocytosis of three types of fluorescein-labeled test particles by rat alveolar macrophages (AM) were studied: spherical silica (3.2 microm), heat-killed Candida albicans (3.8 microm), and heat-killed Cryptococcus neoformans (6.1 microm) opsonized with specific IgG. These particles should attach to scavenger, mannose, and Fc receptors, respectively. Both control AM and AM pretreated for 20 h with interferon-gamma (12.5 or 50 U/ml) were studied. The sum of the number of attached and ingested particles per AM (accumulated attachment) was used as a measure of the attachment process, and the number of ingested particles per AM divided by the accumulated attachment (ingested fraction) was used as a measure of the ingestion process. The average ingestion time (IT), which is also a measure of the ingestion process, was calculated from the experimental data. The ingestion process was independent of the attachment process. IT increased with the time of observation. This is explained by the fact that IT determined from observation times shorter than the whole distribution of IT for a certain particle results in a shorter IT than the real average IT. C. albicans (mannose receptor) had the fastest ingestion process, C. neoformans opsonized with specific IgG (Fc receptor) had ingestion that was nearly as fast, and the silica particles (scavenger receptors) had the slowest ingestion process. Treatment with interferon-gamma markedly impaired the attachment process for all three types of particles (and three types of receptors) but clearly impaired the ingestion process only for silica particles (scavenger receptors).