Cytophotometric measurement of the cellular DNA content of [3H]thymidine-labelled spheroids. Demonstration that some non-labelled cells have S and G2 DNA content

Spheroids from the V279-171b and MCa-11 cell lines were incubated continuously for 24 hr in [3H]thymidine for labelling of the outer cells of the viable rim. The spheroids were dispersed into single cells, and the DNA content of photomapped cells was measured by absorption cytophotometry. Autoradiographs were then prepared from which we ascertained cellular labelling. For spheroids of both cell lines, we found a larger proportion of cells with a G0/G1 DNA content among the non-labelled inner spheroid cells than among the labelled outer cells (P less than 0.001). This block of non-labelled spheroid cells in G0/G1 was not a cell cycle perturbation caused by the isotope for the MCa-11 spheroids. Approximately 8% of non labelled MCa-11 spheroid cells had S/G2 DNA content, suggesting that non-cycling cells in spheroids may be blocked in S and G2 as well as in the G0/G1 phase of the cell cycle.     

Penetration of anti-melanoma immunotoxin into multicellular tumor spheroids and cell kill effects

Summary In order to gain a better understanding of the interaction between immunotoxins and tumor cells at the level of three-dimensional tumor mass, we evaluated the cell kill effects of monoclonal antimelanoma-antibody/ricin-A-chain immunotoxin (ITN) on melanoma cells in multicellular tumor spheroids (MTS) as well as the penetration of ITN into MTS. For Minor melanoma cells in monolayer the ITN exerted cytotoxic effects after as little as 1 h of exposure. Increasing exposure time resulted in progressive increases in cytotoxic activity. In contrast, the cell kill effects of ITN were markedly delayed and reduced when Minor cells were in MTS. The ITN cytotoxic effects on the melanoma MTS were more than 100 fold less than those in monolayer. Patterns of ITN-induced cytotoxicities for Minor and for another melanoma cell line, DND-1A, were comparable. The native ricin A was more active against PC-10 squamous lung cancer cells than Minor cells, whereas the ITN was more cytotoxic against Minor cells than PC-10 cells, thus exhibiting selectivity. An autoradiographic study revealed time-dependent penetration of radiolabeled ITN from the surface of Minor MTS into the core. Incubation for 1 h resulted in the penetration of ITN into only the two or three outer layers of the Minor MTS, and low grain counts. Prolonged exposure resulted in inhomogeneous penetration of ITN into almost the entire melanoma MTS. Penetration of ITN into PC-10 MTS was extremely poor. The reduced cytotoxicity of ITN on melanoma cells in MTS as compared to cells grown in monolayer appears to correlate with its inhomogeneous distribution in the MTS. The delayed cytotoxicity of ITN is also consistent with its slow penetration into the core of the MTS.     

Growth kinetics of 2- and 3-D cell models as influenced by the microenvironment

The noncontact cocultivation system was developed for the study of the paracrine interactions between MCF-7 (breast carcinoma cells) and MT-4 (a line of human T-cell leukemia). Viability and proliferation rates were determined in the adhesion and suspension fractions of MCF-7 cells sampled from two model systems: monolayer culture and multicellular tumor spheroids (MTS). Cocultivation with MT-4 reduced the number of MCF-7 cells in the adhesion fraction and had no effect upon the suspension fraction, despite an increase in the total population of MCF-7 cells. The two model systems displayed a substantial difference in cell viability, alone and in the presence of MT-4 cells — the fraction of viable cells in the monolayers was greater than in the spheroids. It is suggested that cocultivation with MT-4 stimulates proliferation of MCF-7 cells via a paracrine mechanism, reduces adhesion to the substrate, and leads to MTS formation.     

Non-random distribution of abnormal mitoses in heteroploid cell lines.

We have performed absorption-cytometric DNA measurements of the DNA contents of the G0/G1, G2, metaphase, and telophase cells of the heteroploid MCa-11 and HL-60 lines, as well as the WCHE-5 line which has a narrowly restricted number of chromosomes. We found that morphologically unbalanced mitoses occurred much more frequently in telophase-cell pairs of the heteroploid MCa-11 and HL-60 lines than in those of the chromosomally stable WCHE-5 line. Furthermore, the morphologically unbalanced mitoses represented unequal segregation of DNA into each of the daughter telophase nuclei. Such mitotic segregation errors (MSE) occurred almost exclusively in telophase cells with DNA contents which were above, or below, the DNA content of the modal telophase population. The net effect of these non-random, unblanced divisions of heteroploid cells with non-modal DNA contents is to produce one daughter cell with a DNA content that tends to return to the modal DNA content peak.     

Fibroblast α11β1 Integrin Regulates Tensional Homeostasis in Fibroblast/A549 Carcinoma Heterospheroids

We have previously shown that fibroblast expression of α11β1 integrin stimulates A549 carcinoma cell growth in a xenograft tumor model. To understand the molecular mechanisms whereby a collagen receptor on fibroblast can regulate tumor growth we have used a 3D heterospheroid system composed of A549 tumor cells and fibroblasts without (α11^+/+) or with a deletion (α11^-/-) in integrin α11 gene. Our data show that α11^-/-/A549 spheroids are larger than α11^+/+/A549 spheroids, and that A549 cell number, cell migration and cell invasion in a collagen I gel are decreased in α11^-/-/A549 spheroids. Gene expression profiling of differentially expressed genes in fibroblast/A549 spheroids identified CXCL5 as one molecule down-regulated in A549 cells in the absence of α11 on the fibroblasts. Blocking CXCL5 function with the CXCR2 inhibitor SB225002 reduced cell proliferation and cell migration of A549 cells within spheroids, demonstrating that the fibroblast integrin α11β1 in a 3D heterospheroid context affects carcinoma cell growth and invasion by stimulating autocrine secretion of CXCL5. We furthermore suggest that fibroblast α11β1 in fibroblast/A549 spheroids regulates interstitial fluid pressure by compacting the collagen matrix, in turn implying a role for stromal collagen receptors in regulating tensional hemostasis in tumors. In summary, blocking stromal α11β1 integrin function might thus be a stroma-targeted therapeutic strategy to increase the efficacy of chemotherapy.     

Effects of beta-all-trans retinoic acid on growth, proliferation, and cell death in a multicellular tumor spheroid model for squamous carcinomas

The growth of multicellular tumor spheroids, MTSs, from squamous carcinoma line MDA 886Ln was inhibited by beta-all-trans retinoic acid (RA). Inhibition occurred within 3 to 5 days of treatment, and MTS size then remained static for up to 2 weeks. Although their growth stopped, 10-day-treated MTSs incorporated [3H]thymidine into trichloroacetic acid-precipitable material, and the [3H]thymidine labeling index, determined by autoradiography, was equivalent between control and RA-treated MTSs. Bivariate flow cytometric analysis of bromodeoxyuridine-labeled MTSs showed equivalent S phase progression of labeled cells over an 8-hour chase. MTS growth stasis was not related to RA-induced cell cycle effects. Monitoring of MTSs for cell sloughing showed no significant cell shedding that could account for stasis. Quantitation of cell number and DNA content per MTS showed an RA-induced decrease. This was confirmed by histological analysis, which demonstrated the temporal appearance of acellular areas. MTS growth statis is thus related to an RA-induced cell loss in this MTS model for squamous carcinomas.     

Evidence for altered cell-cycle traverse of the non-modal cells of the heteroploid MCa-11 line

Classic stem cell theory states that the growth of heteroploid cell populations is due to the proliferation of 'main stemline'cells with modal DNA content and chromosome number. Cells with non-modal DNA content and chromosome number are thought to be blocked and/or destroyed at mitosis. To test this, we studied two chromo-somally stable cell populations (mouse bone marrow and WCHE-5 cells) and one heteroploid, chromosomally diverse cell line (MCa-11). The heteroploid MCa-11 cells showed significant [³H]dT labelling for cells with DNA contents below the modal G_o/G₁ peak and above the modal G₂ peaks ( P <0.001). This was consistent with the presence of cells with the non-modal DNA content that were engaged in replicative DNA synthesis. A percentage labelled mitosis analysis showed that MCa-11 cells with non-modal DNA content and chromosome number were able to complete mitosis, although with prolonged pre-karyokinetic time. These results suggest that many non-modal cells present in heteroploid cell populations are capable of continued proliferation.     

Oscillating growth patterns of multicellular tumour spheroids

The growth kinetics of 9L (rat glioblastoma cell line) and U118 (human glioblastoma cell line) multicellular tumour spheroids (MTS) have been investigated by non-linear least square fitting of individual growth curves with the Gompertz growth equation and power spectrum analysis of residuals. Residuals were not randomly distributed around calculated growth trajectories. At least one main frequency was found for all analysed MTS growth curves, demonstrating the existence of time-dependent periodic fluctuations of MTS volume dimensions. Similar periodic oscillations of MTS volume dimensions were also observed for MTS generated using cloned 9L cells. However, we found significant differences in the growth kinetics of MTS obtained with cloned cells if compared to the growth kinetics of MTS obtained with polyclonal cells. Our findings demonstrate that the growth patterns of three-dimensional tumour cell cultures are more complex than has been previously predicted using traditional continuous growth models.     

Microencapsulated multicellular tumor spheroids as a novel in vitro model for drug screening

To generate multicellular tumor spheroids (MTS) based on human breast adenocarcinoma MCF-7 cells and to study them as a novel in vitro model for anticancer drug screening, a technique for cell microencapsulation in biocompatible alginate-chitosan microcapsules has been used in this study. Using the MTS based on the MCF-7 cells methotrexate (MTX) cytotoxicity has been investigated. A set of MTS with an average size of 150, 200 and 300 μm was prepared as a function of cultivation time. Cell viability was evaluated after MTS incubation in cultivation medium containing various MTX concentrations (1, 2, 10, 50 and 100 nM) for 48 h. MTS were shown to be markedly more resistant to MTX than the monolayer culture. The increase of the spheroid size was in correlation with the enhanced MTS resistance to MTX. Thus, at 100 nM MTX a number of viable cells in MTS with the size of 300 μm was 2.5-fold higher than that in the monolayer culture. It is suggested that the cells microencapsulated into MTS can better mimic cell behavior in small solid tumors compared to the monolayer culture. In the future MTS could be proposed as a novel in vitro model for anticancer drug screening.     

Glycolytic pyruvate regulates P‐Glycoprotein expression in multicellular tumor spheroids via modulation of the intracellular redox state

ABC transporters like P‐glycoprotein (P‐gp/ABCB1) are membrane proteins responsible for the transport of toxic compounds out of non‐malignant cells and tumor tissue. Aim: To investigate the effect of glycolysis and the tissue redox state on P‐gp expression in multicellular tumor spheroids derived from prostate adenocarcinoma cells (DU‐145), glioma cells (Gli36), and the human cervix carcinoma cell line KB‐3‐1 transfected with a P‐gp–EGFP fusion gene that allows monitoring of P‐gp expression in living cells. During cell culture of DU‐145, Gli36, and KB‐3‐1 tumor spheroids P‐gp expression was observed as well as increased lactate and decreased pyruvate levels and expression of glycolytic enzymes. Inhibition of glycolysis for 24 h by either iodoacetate (IA) or 2‐deoxy‐D ‐glucose (2‐DDG) downregulated P‐gp expression which was reversed upon coincubation with the radical scavenger ebselen as shown by semi‐quantitative immunohistochemisty in DU‐145 and Gli36 tumor spheroids, and by EGFP fluorescence in KB‐3‐1 tumor spheroids. Consequently endogenous ROS generation in DU‐145 tumor spheroids was increased in the presence of either IA or 2‐DDG, which was abolished upon coincubation with ebselen. Exogenous addition of pyruvate significantly reduced ROS generation, increased P‐gp expression as well as efflux of the P‐gp substrate doxorubicin. Doxorubicin transport was significantly blunted by 2‐DDG and IA, indicating that inhibition of glycolysis reversed the multidrug resistance phenotype. In summary our data demonstrate that P‐gp expression in tumor spheroids is closely related to the glycolytic metabolism of tumor cells and can be downregulated by glycolysis inhibitors via mechanisms that involve changes in the cellular redox state. J. Cell. Biochem. 109: 434–446, 2010. © 2009 Wiley‐Liss, Inc.     

The process of macrophage migration promotes matrix metalloproteinase-independent invasion by tumor cells

Tumor-associated macrophages are known to amplify the malignant potential of tumors by secreting a variety of cytokines and proteases involved in tumor cell invasion and metastasis, but how these macrophages infiltrate tumors and whether the macrophage migration process facilitates tumor cell invasion remain poorly documented. To address these questions, we used cell spheroids of breast carcinoma SUM159PT cells as an in vitro model of solid tumors. We found that macrophages used both the mesenchymal mode requiring matrix metalloproteinases (MMPs) and the amoeboid migration mode to infiltrate tumor cell spheroids. Whereas individual SUM159PT cells invaded Matrigel using an MMP-dependent mesenchymal mode, when they were grown as spheroids, tumor cells were unable to invade the Matrigel surrounding spheroids. When spheroids were infiltrated or in contact with macrophages, tumor cell invasiveness was restored. It was dependent on the capacity of macrophages to remodel the matrix and migrate in an MMP-independent mesenchymal mode. This effect of macrophages was much reduced when spheroids were infiltrated by Matrigel migration-defective Hck(-/-) macrophages. In the presence of macrophages, SUM159PT migrated into Matrigel in the proximity of macrophages and switched from an MMP-dependent mesenchymal migration to an amoeboid mode resistant to protease inhibitors.Thus, in addition to the well-described paracrine loop between macrophages and tumor cells, macrophages can also contribute to the invasiveness of tumor cells by remodeling the extracellular matrix and by opening the way to exit the tumor and colonize the surrounding tissues in an MMP-dispensable manner.     

Assessment of the number of local cytotoxic T lymphocytes required for degradation of micrometer-size tumor spheroids

Adoptive immunotherapy with human cytotoxic T lymphocytes (CTL) is a promising cancer treatment. Previously we showed that human CTLs against various types of tumors can be efficiently produced by coculturing peripheral blood cells with target cells. The aims of this study were to simulate the interaction of CTLs and micrometer-size tumor tissues in vitro and to assess the required number of CTLs at local tumor sites for degradation of a tumor. Allogeneic CTLs against a human transitional cell carcinoma cell line and autologous CTLs against a renal cell carcinoma cell derived from a surgical specimen were generated. The cytotoxic activities of CTLs against tumor cells in monolayer culture and tumor spheroids formed in U-bottom 96-well culture plates were assessed. Both allogeneic and autologous CTLs showed greater destructive activity than lymphokine activated killer (LAK) cells against target tumor spheroids. CTLs inoculated at E/T ratios of 0.1 to 1 coexisted with the tumor spheroid for 5 to 6 days and then increased in number with apparently lethal activity against the tumor spheroid. In contrast to CTLs, the increase in LAK cell numbers was scarcely observed, and the proliferated LAK cells did not show cytotoxicity against the tumor spheroid. These observations suggest that, when a small number of CTLs reach a local tumor site, they can destroy micrometer-size tumors after considerable local proliferation. This revised version was published online in August 2006 with corrections to the Cover Date.     

Establishment and characterization of a human papillary thyroid carcinoma cell line with oxyphilic differentiation (ONCO-DG 1).

In the present study the establishment and characterization of a new oxyphilic papillary thyroid carcinoma cell line--ONCO-DG1- is given. With immunohistological, histochemical and flow cytometric methods, ONCO-DG 1 cells revealed features of epithelial differentiation. Furthermore the cells formed von Kossa-positive deposits resembling psammoma bodies in monolayer and spheroid culture until late passages. The tumor cell line is now in the 40th subculture. Because of the ability to form multicellular tumor spheroids (MCTS), this cell line is a good model for examining the interaction between thyroid tumor cells and confluent human endothelial cells on extracellular matrix in vitro. It is also suitable for xenotransplantation studies, because it is tumorigenic in NMRI nude mice in vivo.     

Tumor-Endothelial Cell Three-dimensional Spheroids: New Aspects to Enhance Radiation and Drug Therapeutics

Classic cancer research for several decades has focused on understanding the biology of tumor cells in vitro. However, extending these findings to in vivo settings has been impeded owing to limited insights on the impact of microenvironment on tumor cells. We hypothesized that tumor cell biology and treatment response would be more informative when done in the presence of stromal components, like endothelial cells, which exist in the tumor microenvironment. To that end, we have developed a system to grow three-dimensional cultures of GFP-4T1 mouse mammary tumor and 2H11 murine endothelial cells in hanging drops of medium in vitro. The presence of 2H11 endothelial cells in these three-dimensional cocultures was found to sensitize 4T1-GFP tumor cells to chemotherapy (Taxol) and, at the same time, protect cells from ionizing radiation. These spheroidal cultures can also be implanted into the dorsal skinfold window chamber of mice for fluorescence imaging of vascularization and disease progression/treatment response. We observed rapid neovascularization of the tumor-endothelial spheroids in comparison to tumor spheroids grown in nude mice. Molecular analysis revealed pronounced up-regulation of several proangiogenic factors in the tumor tissue derived from the tumor-endothelial spheroids compared with tumor-only spheroids. Furthermore, the rate of tumor growth from tumor-endothelial spheroids in mice was faster than the tumor cell-only spheroids, resulting in greater metastasis to the lung. This three-dimensional coculture model presents an improved way to investigate more pertinent aspects of the therapeutic potential for radiation and/or chemotherapy alone and in combination with antiangiogenic agents.     

Coupled cellular trafficking and diffusional limitations in delivery of immunotoxins to multicell tumor spheroids

Immunotoxins have the potential to be powerful tools for selective cell killing, but their lack of clinical success against solid tumors indicates a need to better understand factors which limit immunotoxin transport in three-dimensional systems. In this work, a previously developed model which related immunotoxin toxicity to cellular trafficking in a single cell was coupled with a term accounting for diffusive transport of immunotoxin in a solid tumor sphere. This created a mathematical model which is capable of simulating the biological response of multicell tumor spheroids (MTS) to immunotoxin treatment. The model was used to predict the kinetics of protein synthesis inhibition in MTS treated with transferrin receptor-targeted immunotoxins as a function of immunotoxin concentration and toxin choice. HeLa cells were grown as MTS and treated with immunotoxins constructed from the anti-transferrin receptor antibody OKT9 and the toxins gelonin or CRM107, and the average protein synthesis inhibition and growth rates were measured. With no fitted parameters, the mathematical model quantitatively predicted the experimental observations. Immunotoxins were generally less effective against MTS than monolayer cells at equivalent conditions; for OKT9-gelonin at high concentrations this decrease in efficacy was attributed primarily to heterogeneous receptor distribution in MTS whereas for OKT9-CRM107 the decrease was caused primarily by a large barrier to penetration of the immunotoxin into the spheroid. The experimentally verified model was used to define the conditions which lead to large penetration barriers. In general, transport barriers in MTS become more important as immunotoxins become more effective against cells grown as monolayers. The proposed model is unique in its ability to predict toxicity in MTS directly, and is an important step toward understanding immunotoxin effect on tumors in vivo.     

Reactive oxygen species-linked regulation of the multidrug resistance transporter P-glycoprotein in Nox-1 overexpressing prostate tumor spheroids

Expression of the multidrug resistance (MDR) transporter P-glycoprotein (P-gp) has been demonstrated to be regulated by hypoxia-inducible factor-1alpha (HIF-1alpha) and inhibited by intracellular reactive oxygen species (ROS). Herein, P-gp and HIF-1alpha expression were investigated in multicellular prostate tumor spheroids overexpressing the ROS-generating enzyme Nox-1 in comparison to the mother cell line DU-145. In Nox-1-overexpressing tumor spheroids (DU-145Nox1) generation of ROS as well as expression of Nox-1 was significantly increased as compared to DU-145 tumor spheroids. ROS generation was significantly inhibited in the presence of the NADPH-oxidase antagonists diphenylen-iodonium chloride (DPI) and 4-(2-aminoethyl)benzenesulfonyl fluoride (AEBSF). Albeit growth kinetic of DU-145Nox1 tumor spheroids was decreased as compared to DU-145 spheroids, elevated expression of Ki-67 was observed indicating increased cell cycle activity. In DU-145Nox1 tumor spheroids, expression of HIF-1alpha as well as P-gp was significantly decreased as compared to DU-145 spheroids, which resulted in an increased retention of the anticancer agent doxorubicin. Pretreatment with the free radical scavengers vitamin E and vitamin C increased the expression of P-gp as well as HIF-1alpha in Nox-1-overexpressing cells, whereas no effect of free radical scavengers was observed on mdr-1 mRNA expression. In summary, the data of the present study demonstrate that the development of P-gp-mediated MDR is abolished under conditions of elevated ROS levels, suggesting that the MDR phenotype can be circumvented by modest increase of intracellular ROS generation.     

A more aggressive breast cancer spheroid model coupled to an electronic capillary sensor system for a high-content screening of cytotoxic agents in cancer therapy: 3-dimensional in vitro tumor spheroids as a screening model

One major problem in cancer therapy is the immortality of tumor cells showing an active telomerase, which is responsible for the elongation of the telomeres after each cellular division and the knocking down of apoptotic suppressors. A further phenomenon occurring during cancer therapies is the problem of multicellular resistance. To develop therapeutic anticancer approaches inducing cellular apoptosis, gene-modified biological in vitro systems were established and evaluated for drug screening in a capillary system for a real-time, impedimertic monitoring. Multicellular spheroids of the human breast cancer cell line T-47D clone 11 were transfected with 1) antisense caspase-3 cDNA expression vectors for knocking down the main cell death molecule and 2) sense Bcl-xl cDNA expression vectors for overexpressing the apoptotic suppressor, resulting in more aggressive tumor models. These gene-modified tumor spheroids less sensitive for apoptosis were developed for screening drugs such as methotrexate in tumor spheroid-based biosensor systems via impedance spectroscopy. In this report, it is demonstrated that this could successfully exhibit that this real-time monitoring system with tumor spheroids positioned in a capillary system with a 4-electrode configuration is the most efficient high-content screening module for impedimetric measurements of physiological alterations during gene modification and drug application.     

Discrepancies among the metaphase, telophase, and the G0/G1 and G2 DNA peaks of heteroploid cell lines

Heteroploid cell populations often show narrow peaks of G0/G1 and G2/M DNA content and broadly distributed chromosome numbers. This was originally explained by the selective metaphase arrest of the cells that have non-modal chromosome numbers. To test whether this explanation applies, we have measured the chromosome number distributions, as well as the G0/G1, G2, metaphase (M), and telophase (T) DNA distributions, of the cell lines WCHE-5, MCa-11, and HL-60. The WCHE-5 cells had narrowly distributed chromosome numbers and G0/G1 G2, M, and T DNA peaks. The MCa-11 and HL-60 cells also had narrowly distributed G0/G1 and G2 DNA peaks, but broadly distributed chromosome numbers and M and T DNA peaks. The widths of the MCa-11 and HL-60 M- and T-cell DNA peaks were similar to those of their chromosome number peaks, suggesting that all cells were completing mitosis, regardless of chromosome number or DNA content. Thus, selective metaphase arrest does not seem to be the cause of the narrow G0/G1 and G2 DNA peaks of heteroploid cell populations.     

Activity of the human metallothionein promoter (hMT-IIA) in cell populations isolated from varying depths in multicell spheroids following exposure to cadmium.

In order to evaluate whether tumor microenvironment might influence the response of the metallothionein promoter to heavy-metal exposure, we transfected HT-29 colon carcinoma cells with the vector phMTIIA-CAT-neo, containing a fusion gene consisting of 426 bp of the human metallothionein-IIa (hMT-IIA) promoter immediately upstream of the bacterial chloramphenicol acetyl transferase (CAT) gene. We grew one of the stable transfectants (clone 20) as three-dimensional multicell tumor spheroids, exposed them to CdCl2 and measured CAT expression in cells isolated from various depths into the spheroids. Cellular populations were isolated by flow cytometry on the basis of Hoescht 33342 fluorescence intensity, taking advantage of the dye's diffusion gradient to isolate cells from inner (dim) and outer (bright) regions of stained spheroids. When intact spheroids were incubated for 18 h in the presence of 5 microM CdCl2, CAT activity was induced in all cell fractions isolated from the spheroids, but induction was 10-fold greater in cells in the outermost fraction (fraction 10) than inner fraction (fraction 2). When spheroids were dissociated, sorted into individual fractions and then incubated with cadmium, CAT expression was maximized in all fractions. Exposure of intact spheroids to 30 microM CdCl2 resulted in increased CAT induction in cells isolated from the internal fractions of the spheroids. The data suggest that limited diffusion of cadmium through cells organized in a tissue-like arrangement may account for the lower levels of hMT-IIA promoter activity observed in cells collected from increasing depths into the spheroids.