Countercurrent distribution in a 2-phase polymer system of cultured cells following their exposure to trypsin, versen, dimethyl sulfoxide and suboptimal temperature

A study was made of the effects of trypsin (0.25%) EDTA (0.02%), DMSO (10%) and suboptimal temperatures (16-18 degrees C) on the line L cells of monolayer and suspension cultures by the method of counter-current distribution in two-phase polymer system Dextran-500/poly (ethylene) glycol-6000. It has been shown that these agents cause the increase in number of cells with low partition coefficient, which is most expressed in the population of monolayer subline cells.     

Surface properties of L cells studied by countercurrent distribution in a 2-phase polymer system before and after cyochalasin B and colcemid exposure

A study was made of the effect of cytochalazin B and cocemid on the line L cells of monolayer and suspension culture studied by the method of counter-current distribution in two-phase polymer system dextran-500 - polyethylenglycol-6000. It has been shown that cytochalazin B caused a decrease in the partition coefficient of both the subline cells irrespective of the growth phase of cell population. Colcemid decreases the partition coefficient in the log-phase of cell culture but increases it in the stationary phase. Effect of colcemid is not associated with the accumulation of metaphase cells in the cell population.     

The partitioning behavior of K-562 cells associated with different stages of culture growth

Partitioning behavior of cells in dextran-poly(ethylene glycol) aqueous phase systems is a sensitive reflection of the cells' surface properties. A decrease in partition ratio, in charge-sensitive phases, of a variety of cell lines as a function of culture growth has been reported by a number of investigators. The basis for this phenomenon remains unclear. We have now studied the surface properties of K-562 cells (a human cell line originally derived from a patient with chronic myelogenous leukemia in blast crisis) during suspension culture growth by countercurrent distribution. The mean partition ratio of viable cells remained constant during 220 h of culture (i.e., well into stationary phase). The decrease in mean partition ratio of the cell population as a whole during culture, previously observed and reported by others, is attributed to the lower partition ratio of non-viable cells which increase with time of culture.     

Degree of cell spreading on a substrate as the factor determining the nature of cell microrelief in suspension

Quantitative ratio of various types of cell surface microrelief was determined in suspensions prepared from mouse monolayer cultures of embryo fibroblasts grown on different solid substrates: with high (Falcon) or low poly(2-hydroxyethylmethacrylate) adhesiveness; with flat or cylindrical (53-mu curvature radius) surfaces (polyvinylchloride). The electron microscopy revealed that poorly spread cells (on low adhesive or cylindrical substrata) in suspensions had the microvillous surface relief much more often than the cells brought to suspension from highly adhesive or flat substrata. Thus, the lower the degree of cell spreading on the substratum, the higher the probability for the cell to acquire the microvillous relief in suspended state. The microvillous relief of transformed cells in suspensions is, probably, due to their poor spreading on substrata in the monolayer cultures.     

Tumorsphere assay provides more accurate prediction of in vivo responses to chemotherapeutics

Although the sphere culture system has been widely used in stem cell biology, its application for drug screening is limited due to lack of standardized, rapid analytical tools. To optimize sphere cultures for in vitro screening of drugs, we evaluated the properties of primary tumor cells growing as tumorspheres and compared their chemosensitivity to those of cells growing in monolayer. Most cells in tumorsphere cultures were quiescent whereas cells in monolayer culture had a high mitotic index. Moreover, doxorubicin showed better cytotoxicity than paclitaxel in the sphere cultures, but their efficacy was reversed in the monolayer cultures. Importantly, the response of cytotoxic outcomes for suspension cultures matched the in vivo response better than monolayer cultures, providing support for the use of short term suspension cultures of primary cells as a model for drug testing.     

The Effect of Colchicine on the Induction of the Stellate Configuration in Dorsal Iris Epithelial Cells of the Newt Notophthalmus viridescens, in vitro

Neuroblastoma cells, grown in monolayer, transform, emit cytoplasmic processes, and acquire morphological and functional properties resembling those of mature neurons, whereas in suspension culture they remain in the undifferentiated anaplastic form. The appearance of intermediate (10 nm) filamentous structures in neuroblastoma cells is generally considered to indicate a state of cellular differentiation, one of a progressive sequence of maturing phases which lead the cell to the final differentiated state.
We have examined by electron microscope murine C 1300 neuroblastoma cloned cells, grown in suspension or in monolayer cultures in the presence or absence of BrdU as an inducing agent and have compared the expression of intermediate filaments. These filaments were present in five clones of cells grown in suspension still in undifferentiated anaplastic form. One clone in particular showed a massive expression of filaments, particularly visible in the perinuclear region. One hundred per cent of the cells observed presented filaments whose number apparently increased when cells were grown in the presence of BrdU in suspension or in monolayer. One clone never showed intermediate filaments under any circumstances. The original line from which clones were derived showed poor expression of filaments which were visible only in cells grown in monolayer. These results suggest that the expression of intermediate filaments in neuroblastoma cells should be viewed as the result of a positive genetic control of phenotype expression rather than the result of a progressive sequence of differentiating events.     

Mismatch in mechanical and adhesive properties induces pulsating cancer cell migration in epithelial monolayer

The mechanical and adhesive properties of cancer cells significantly change during tumor progression. Here we assess the functional consequences of mismatched stiffness and adhesive properties between neighboring normal cells on cancer cell migration in an epithelial-like cell monolayer. Using an in vitro coculture system and live-cell imaging, we find that the speed of single, mechanically soft breast carcinoma cells is dramatically enhanced by surrounding stiff nontransformed cells compared with single cells or a monolayer of carcinoma cells. Soft tumor cells undergo a mode of pulsating migration that is distinct from conventional mesenchymal and amoeboid migration, whereby long-lived episodes of slow, random migration are interlaced with short-lived episodes of extremely fast, directed migration, whereas the surrounding stiff cells show little net migration. This bursty migration is induced by the intermittent, myosin II-mediated deformation of the soft nucleus of the cancer cell, which is induced by the transient crowding of the stiff nuclei of the surrounding nontransformed cells, whose movements depend directly on the cadherin-mediated mismatched adhesion between normal and cancer cells as well as α-catenin-based intercellular adhesion of the normal cells. These results suggest that a mechanical and adhesive mismatch between transformed and nontransformed cells in a cell monolayer can trigger enhanced pulsating migration. These results shed light on the role of stiff epithelial cells that neighbor individual cancer cells in early steps of cancer dissemination.     

Role of fibronectin in the adhesion of Friend erythroleukemia cells

Friend Erythroleukemia Cells (FLC) (745 A and FW clones), normally growing in suspension, tend to adhere to fibroblast monolayers, but not to epithelial cells. Co-cultivation of FLC with Human Embryo Fibroblasts (HEF) resulted in the selection of adhesive Friend Cells. After 16 subcultures, we were able to isolate clones of adhesive FLC that grow in monolayer on plastic tissue culture plates. Both the binding of FLC to fibroblasts and of the adhesive clones to the plastic surfaces is completely suppressed by fibronectin antiserum, thus suggesting that fibronectin is responsible for FLC adhesion. Adhesive FLC clones maintain the ability to differentiate upon induction by DMSO.     

Abnormal phenotype of in vitro dermal fibroblasts from patients with Pseudoxanthoma elasticum (PXE)

Pseudoxanthoma elasticum (PXE) is a genetic connective tissue disease, whose gene and pathogenesis are still unknown. Dermal fibroblasts from patients affected by PXE have been compared in vitro with fibroblasts taken from sex and age-matched normal individuals. Cells were grown and investigated in monolayer, into three-dimensional collagen gels and in suspension. Compared with normal cells, PXE fibroblasts cultured in monolayer entered more rapidly within the S phase and exhibited an increased proliferation index; on the contrary, similarly to normal fibroblasts, PXE cells did not grow in suspension. Furthermore, compared with normal fibroblasts, PXE cells exhibited lower efficiency in retracting collagen type I lattices and lower adhesion properties to collagen type I and to plasma fibronectin. This behavior was associated with higher expression of integrin subunits alpha2, alpha5, alphav, whereas beta1 subunit as well as alpha2beta1 and alpha5beta1 integrin expression was lower than in controls. Compared to controls, PXE fibroblasts had higher CAM protein expression in accordance with their high tendency to form cellular aggregates, when kept in suspension. The demonstration that PXE fibroblasts have altered cell-cell and cell-matrix interactions, associated with modified proliferation capabilities, is consistent with the hypothesis that the gene responsible for PXE might have a broad regulatory role on the cellular machinery.     

Growth of the IB-RS-2 Pig Kidney Cell Line in Suspension Culture and Its Susceptibility to Foot-and-Mouth Disease Virus

The adaptation of the pig kidney cell line IB-RS-2, clone 60, to growth in suspension culture is described. When fully adapted, an approximate threefold increase in viable cells was obtained within 72 hr from initial cell concentrations of 5 x 10(5) per ml in culture volumes up to 1,500 ml. The monolayer cells (99th passage level) used to initiate the suspension cultures and the fully adapted suspension cells were shown to have an aneuploid chromosome karyotype, whereas earlier monolayer cultures (32nd passage level) had a pseudodiploid karyotype. Replicate virus titrations in monolayers prepared from suspension-adapted cells, IB-RS-2 monolayer cells, BHK monolayer cells, and in suckling mice showed that the suspension cells had retained sensitivity to foot-and-mouth disease virus. The geometric mean peak infectivity of seven strains of foot-and-mouth disease virus grown in IB-RS-2 suspension cells was 10(8.2) plaque-forming units per ml, with a mean complement-fixing activity of approximately 135 complement-fixing units per ml. These preliminary results indicate that submerged cultures of these cells on an industrial scale may be useful for commercial foot-and-mouth disease vaccine production.     

A Mechanical Instability in Planar Epithelial Monolayers Leads to Cell Extrusion

In cell extrusion, a cell embedded in an epithelial monolayer loses its apical or basal surface and is subsequently squeezed out of the monolayer by neighboring cells. Cell extrusions occur during apoptosis, epithelial-mesenchymal transition, or precancerous cell invasion. They play important roles in embryogenesis, homeostasis, carcinogenesis, and many other biological processes. Although many of the molecular factors involved in cell extrusion are known, little is known about the mechanical basis of cell extrusion. We used a three-dimensional (3D) vertex model to investigate the mechanical stability of cells arranged in a monolayer with 3D foam geometry. We found that when the cells composing the monolayer have homogeneous mechanical properties, cells are extruded from the monolayer when the symmetry of the 3D geometry is broken because of an increase in cell density or a decrease in the number of topological neighbors around single cells. Those results suggest that mechanical instability inherent in the 3D foam geometry of epithelial monolayers is sufficient to drive epithelial cell extrusion. In the situation in which cells in the monolayer actively generate contractile or adhesive forces under the control of intrinsic genetic programs, the forces act to break the symmetry of the monolayer, leading to cell extrusion that is directed to the apical or basal side of the monolayer by the balance of contractile and adhesive forces on the apical and basal sides. Although our analyses are based on a simple mechanical model, our results are in accordance with observations of epithelial monolayers in vivo and consistently explain cell extrusions under a wide range of physiological and pathophysiological conditions. Our results illustrate the importance of a mechanical understanding of cell extrusion and provide a basis by which to link molecular regulation to physical processes.     

Comparison of different culture modes for long-term expansion of neural stem cells

Neural stem cells (NSCs) can be cultured in two modes of suspension and monolayer in vitro. The cultured cells are different in both the ability to proliferate and heterogeneity. In order to find the appropriate methods for large-scale expansion of NSCs, we systematically compared the NSCs cultured in suspension with those cultured in monolayer. The forebrain tissue was removed from embryonic day 14 (E14) mice, then the tissue was dissociated into single-cell suspension by Accutase and mechanical trituration. The cells were cultured in both suspension and monolayer. The NSCs cultured in suspension and in monolayer were compared on viability, ability to proliferate and heterogeneity by fluorescent dyes, immunofluorescence and flow cytometry on DIV21 (21 days in vitro), DIV56 and DIV112, respectively. The results indicated that the NSCs cultured in both suspension and monolayer represented good viability in long-term cultures. But they displayed a distinct ability to proliferate in long-term cultures. The NSCs cultured in monolayer preceded those cultured in suspension on the ability to proliferate on DIV21 and DIV56, but no obvious difference on DIV112. The NSCs population cultured in suspension displayed more nestin-positive cells than those in monolayer during the whole process of culture. The NSCs population cultured in monolayer, however, displayed more βIII tubulin-positive cells than those in suspension in the same period. The suspension culture mode excels the monolayer culture mode for large-scale expansion of NSCs.     

Selective migration of terminally differentiating cells from the basal layer of cultured human epidermis

How terminally differentiating cells are selectively expelled from the basal layer of epidermis has been a source of interest and speculation for many years. The problem can now be studied in culture, using involucrin synthesis as an early marker of terminal differentiation in human keratinocytes. When keratinocytes are forced to grow as a monolayer by reducing the calcium ion concentration of the culture medium, they still begin to synthesize involucrin. Raising the level of calcium ions induces stratification, and cells that are synthesizing involucrin are selectively expelled from the basal layer. I have found that during calcium-induced stratification no new proteins or glycoproteins are synthesized, and the rate of cell division does not change. Movement of involucrin-positive cells out of the basal layer was found to be unaffected by cycloheximide, tunicamycin, or cytosine arabinoside. These results suggest that keratinocytes growing as a monolayer already have the necessary properties to determine their position when stratification is induced. Addition of calcium simply allows formation of desmosomes and other intimate cell contacts required for stratification. The properties of involucrin-positive cells that determine their suprabasal position include a reduced affinity for the culture substrate and preferential adhesion to other cells at the same stage of terminal differentiation. The molecular basis of these adhesive changes is discussed.     

Study of the interaction between germ cells and Sertoli cells in vitro

The nature of membrane components involved in the binding between Sertoli cells and pachytene spermatocytes in culture and the metabolic requirements for the binding to occur have been studied. Mild proteolytic digestion of germ cells by trypsin completely inhibited adhesion of germ cells to somatic monolayer. Protein synthesis and glycosylation were required to restore the adhesive properties of trypsin-treated germ cells, showing that surface molecules involved in the binding are glycoproteins. Trypsinization of germ cells after labelling causes a great reduction of several bands which become detectable again after 12 h of recovery from trypsin digestion. Among these, two bands with apparent molecular weight (MW) of 78 000 and 51 000 could be candidate components in cell adhesion.     

Countercurrent distribution and multiple sedimentation of Chlorella pyrenoidosa during its life cycle

Synchronously and normally grown Chlorella pyrenoidosa cell populations were analysed by countercurrent distribution in aqueous two-polymer phase systems and by a multiple sedimentatation technique. Partition of cells in aqueous phases reflects the surface properties of cells (primarily surface charge) and multiple sedimentation reflects the cells' size-density parameters. It was found that:

1. 1. Synchronized cells that have just divided have the lowest partition of any in the population. Surface charge (as reflected by partition) increases with time after cell division. Cells have the highest partition just prior to division.

2. 2. Synchronized cells that have just divided are the smallest of any in the population. Since size and sedimentation rate increase with time after cell division multiple sedimentation permits the separation of cells of different ages.

3. 3. Both countercurrent distribution and multiple sedimentation studies reveal considerable heterogeneity of synchronized Chlorella populations. The increase in both surface charge and size with cell age does not appear to proceed in a continuous fashion. Rather, it seems to go in a stepwise manner.

4. 4. Non-synchronized cells examined by either countercurrent distribution or multiple sedimentation show two distinct sub-populations. One of these corresponds to the youngest, just divided cells; and the other to cells just prior to cell division. It is suggested that a lag time just prior to cell division and just after cell division explains these results.

5. 5. Countercurrent distribution in two-polymer phases and multiple sedimentation at unit gravity in a suspension medium best suited for the cell under investigation seem to be methods of choice for tracing cell changes during division, maturation and aging and for sub-fractionating such cell populations.

     

An in vitro model giving access to adhesion plaques

Summary A new approach was investigated to study the interaction between integrins and actin via intracytoplasmic proteins. Because intracellular processes are hampered by the limiting plasma membrane, we developed an in vitro model with cells perforated by a bacterial toxin, streptolysin O. The specific conditions for the use of permeabilized cells to study the intramolecular associations occurring at adhesion plaques are described. The two cell types used, HUVEC and CHO, showed that the choice of the perforation method is of great importance. After perforation of cells in a monolayer, 75±10% of the cells remained adherent to a fibronectin substrate; after perforation of cells in suspension, only 25±10% of the cells readhered. Specific conditions were required however to maintain these adhesive properties up to 4 h: the presence of 1 mM Mg⁺⁺ in the medium was crucial, and it was necessary to layer the cells on a specific coat rather than a substitute such as gelatin. Immunofluorescence investigations of actin, talin and vinculin, and Normarsky differential interference contrast microscopy showed retention of focal adhesion plaques in perforated cells. Moreover, in perforated cells antibodies directed against actin led to actin disorganization, showing that our model of perforated cells in a monolayer can give new insight to adhesion study.     

Proteus adhesion to intestinal epithelium

The adhesive properties of Proteus strains isolated from different sources have been studied under conditions similar to the real interaction of microorganisms with the epithelial cells of intestine. A comparison of the adhesive properties of Proteus and of colon Bacillus has shown that the value of the strong adhesion to the mucosa of Proteus isolated under enterocolitis at the same bulk concentrations of the infectious suspension is 2-3 order less than that of E. coli. The adhesion of Proteus to the surface of epithelial cells begins at bulk concentrations exceeding those for the colon Bacillus by 3-4 orders. Besides, a toxic effect of number of freshly isolated Proteus strains on the epithelial cells of intestine mucosa is observed. Strains isolated from patients with diarrhea and from environment differed from each other in the studied criteria. A conclusion is drawn that at the initial stage of the interaction with the intestine mucosa the Proteus strains differ considerably from the indigenous strain of the colon Bacillus in the ability to colonize the epithelial surface.     

DNA conformation of Chinese hamster V79 cells and sensitivity to ionizing radiation

Chinese hamster V79 cells grown for 20 h in suspension culture form small clusters of cells (spheroids) which are more resistant to killing by ionizing radiation than V79 cells grown as monolayers. This resistance appears to be due to the greater capacity of cells grown in contact to repair radiation damage. Attempts to relate this "contact effect" to differences in DNA susceptibility or DNA repair capacity have provided conflicting results. Two techniques, alkaline sucrose gradient sedimentation and alkaline elution, show no difference in the amounts of radiation-induced DNA single-strand breakage or its repair between suspension or monolayer cells. However, using the alkali-unwinding assay, the rate of DNA unwinding is much slower for suspension cells than for monolayer cells. Interestingly, a decrease in salt concentration or in pH of the unwinding solution eliminates these differences in DNA unwinding kinetics. A fourth assay, sedimentation of nucleoids on neutral sucrose gradients, also shows a significant decrease in radiation damage produced in suspension compared to monolayer cultures. It is believed that this assay measures differences in DNA conformation (supercoiling) as well as differences in DNA strand breakage. We conclude from these four assays that the same number of DNA strand breaks/Gy is produced in monolayer and spheroid cells. However, changes in DNA conformation or packaging occur when cells are grown as spheroids, and these changes are responsible for reducing DNA damage by ionizing radiation.     

Control of rat C6 glioma cell proliferation: uncoupling of the inhibitory effects of hydrocortisone hormone in suspension and monolayer cultures

We undertook a comparative study of the effects of the hormone hydrocortisone (Hy) on C6 glioma cells grown in monolayer and in suspension in cultures. We found Hy reversibly renders C6 cells anchorage- and serum-dependent for their growth. In monolayer cultures, Hy was found to inhibit cell cycle traversing exclusively at G1 phase. In agarose suspension, Hy was found to block colony development. Hy-resistant variants were selected and isolated in agarose suspension. Examination of these variants showed that cells selected for Hy-resistance in suspension can be Hy sensitive when anchored to a solid substrate. We conclude that resistance to Hy in suspension and resistance to it in monolayer culture are two independent phenotypes.     

A comparison of cAMP phosphodiesterases in normal,malignant, and somatic cell hybrids

Hybrids (PCM) between a malignant mouse lymphoma suspension cell line (P388F-36) and a normal Chinese hamster fibroblastic cell line (Ch23) have already been isolated in this laboratory. Investigations were carried out on the cAMP phospodiesterases of the parents and two of these hybrids--PCM2 and PCM3. PCM3 shows a rather unusual growth characteristic in that a considerable proportion of the cells exist at any one time either in suspension or only loosely attached to the substratum, the remaining cell population existing in a monolayer form. It was found that each cell line exhibited multiple forms of the enzyme with varying affinities for cAMP. Both parents, although different, contained high-, low-, and extra-high apparent Km forms of the enzyme. The hybrids exhibited characteristics of both parental systems but were different from each other. Neither hybrid exhibited a high-Km enzyme, but both exhibited two low-Km forms. There was also a slight variation between monolayer and suspension cells of PCM3 hybrid. An attempt has been made to explain these phenomena with respect to hybridization and the growth characteristics of the cells.