Cell death evaluation in benzo[a]pyrene-transformed human breast epithelial cells after microcell-mediated transfer of chromosomes 11 and 17

The incidence of apoptosis and nuclear instability, including the incidence of catastrophic death, were investigated in benzo[a]pyrene (BP)-transformed human breast epithelial cells (BP1-E cell line) after microcell-mediated transfer of chromosomes 11 and 17. Since the introduction of normal chromosomes 11 and 17 into tumorigenic human breast BP1-E cells reverts some of these cells' characteristics (especially those affected by microsatellite instabilities and loss of heterozygosity) to those of parental non-transformed MCF-10F cells, it was expected that the cell death rates would also be affected by this treatment. The transfer of the mentioned chromosomes, especially chromosome 17, to tumorigenic BP1-E cells increased the apoptotic ratios and decreased the nuclear instability ratios, thus showing that the microsatellite instability and loss of heterozygosity induced by BP in these chromosomes of MCF-10F cells affect the control of cell death mechanisms.     

In vitro growth and differentiation of human kidney tubular cells on a basement membrane substrate

Summary Kidney cortical tubular cells, mainly proximal tubular cells, isolated from human kidney and grown either on a basement membrane substrate in chemically defined medium or on plastic in serum-supplemented medium, had substantial proliferative potential and could be propagated for more than 10 generations or 8 passages before senescence. Basement membrane produced on a plastic substrate by the HR-9 endodermal cell line could replace serum supplementation in promoting tubular cell growth. Tubular cells grown on an HR-9 basement membrane substrate exhibited stable epithelial morphology over an extended period of time; in the presence of 5% serum they differentiated into organized structures such as hemicysts and cell cords. Cells grown on plastic failed to differentiate and gradually degenerated. Tubular cells on HR-9 basement membrane were characterized by densely packed microvilli, abundant rough endoplasmic reticulum and free polysomes, basal cell membrane interdigitations, a well-developed endocytotic apparatus, and conspicuous junctional complexes—all features of the proximal tubular cell. Compared with cells on plastic substrate, there were higher levels of the brush border enzymes γ-glutamyl transpeptidase,l-leucine aminopeptidase, and alkaline phosphatase in cells maintained on an HR-9 basement membrane substrate, further supporting the conclusion that a basement membrane substrate promoted differentiation of tubular cells. These data and morphological observations indicate that a basement membrane substrate can promote growth and both functional and morphologic differentiation of human kidney tubular cells. This work was supported by the Veterans Administration.     

DNA content and chromatin texture of human breast epithelial cells transformed with 17-beta-estradiol and the estrogen antagonist ICI 182,780 as assessed by image analysis

The immortalized human breast epithelial MCF-10F cell line, although estrogen receptor alpha negative, develops cell proliferating activities and invasiveness indicative of neoplastic transformation, after treatment with 17-beta-estradiol (E-2). These effects are similar to those produced by benzo[a]pyrene (BP). Since we have previously reported changes in the nuclear parameters accompanying BP-induced tumorigenesis in MCF-10F cells, we have examined whether similar alterations occur in E-2-treated cells. We therefore studied DNA amounts and other nuclear parameters in Feulgen-stained MCF-10F cells after treatment with various concentrations of E-2, BP, the estrogen antagonist ICI 182,780, and E-2 in the presence of ICI 182,780. E-2 caused a certain loss of DNA and changes in the nuclear size and chromatin supraorganization of MCF-10F cells. Many of these changes were similar to those produced by BP and were indicative of neoplastic transformation. More intense chromatin remodelling was seen with 70 nM E-2. Since these changes were not abrogated totally or partially by ICI 182,780, the neoplastic transformation of MCF-10F cells stimulated by E-2 involved a process that was independent of estrogen alpha-receptors. The changes produced by ICI 182,780 alone were attributed to effects other than its well-known anti-estrogenic activity.     

Regulation of cytoskeletal structure in human mammary carcinoma cells MCF-7 by culture substrata

Three-dimensional cellular structures formed by MCF-7 human mammary carcinoma cells within collagen gels were isolated with collagenase and cultivated on plastic substratum to examine whether the cytoskeleton specific for cells forming cellular structures (S-type) changes to that specific for cells grown as monolayers (M-type). The cytoskeleton isolated as 0.05% Triton-insoluble fraction from the cellular structures after culture for 1 day on plastic was exclusively S-type. However, both types of cytoskeletons were observed in the cellular structures cultivated for 7 days on plastic as well as in the cells grown as monolayers for 2 days after dissociation of the cellular structures with trypsin. By use of an antibody raised against a 65-kD polypeptide that was specific for the M-type cytoskeleton, the presence of the polypeptide was found to be restricted to the cells grown out as monolayers from the edge of the cellular structures. In the cells grown for 2 days as monolayers, a mixture of cells both having and lacking the polypeptide was observed. After a 7-day culture of the dissociated cells as monolayers on plastic, however, most of the cells had M-type cytoskeletons. The present results show that the apparent change in the cytoskeleton of MCF-7 cells from S-type to M-type does not occur in cells involved in the three-dimensional cellular structures even in the absence of collagen gels, but that it occurs in cells which are grown as monolayers for at least 7 days on plastic substratum.     

Growth of three established cell lines on glass microcarriers

Three established cell lines were examined for growth on a newly developed microcarrier which consists of glass beads. The cells were simultaneously exmined for growth on commercially available microcarriers made from DEAE-dextran and from plastic. Cell yields on the glass microcarriers were comparble to the cell yields on the commercially available products. Cells grown on the glass microcarriers were easily separated from the substratum by trypsinization (as were the cells grown on the plastic substratum) while the cells grown on the DEAE-dextran particles were much more trypsin resistant. After removal of cells from the glass microcarriers, the cells reattached and spread out in plastic flasks as readily as cells harvested from monolayer. Scanning electron microscopy revealed dramatic differences in the appearence of the cell grown on the glass microcarriers and cells grown on the DEAE-dextran microcarriers. On the glass microcarriers, cells attached to the substratum through lond, slender filopodia while on the DEAE-dextran microcarriers, the entire edge of the cell appeared to be in contact with the substratum. This dissimilarity in attachment could underly the difference in sensitivity to trypsin-mediated detachment. Finally, the glass microcarriers were washed after being used once and retested for their ability to support cell growth a second time. Nearly identical results were obtained with the reprocessed beads as with previously unused ones.     

Effect of the extracellular matrix on plasminogen activator isozyme activities of human mammary epithelial cells in culture.

Multiple molecular forms of plasminogen activator were detected in normal human mammary epithelial cells in culture. Cells derived from (normal) breast mammoplasty specimens and grown on the surface of collagen gels exhibited three major classes of plasminogen activator isozymes (Mr = 100,000 [100K], 75,000 [75K], and 55,000 [55K]). The activity of the 100K and 75K isozymes was greatly reduced when the cells were grown on conventional tissue-culture-grade plastic surfaces. MCF-7, a human mammary carcinoma cell line, exhibited predominantly or exclusively the 55K isozyme, irrespective of the cell growth substratum. The activity of the 55K isozyme was more than twofold higher for MCF-7 cells grown on collagen gels than for cells grown on plastic. Progesterone, diethylstilbestrol, and estrogen stimulated the activity of the 55K isozyme of MCF-7 cells, but only when the cells were grown on a plastic surface. The plasminogen activator activities of the normal human mammary epithelial cells were not stimulated by these hormones, irrespective of the growth substratum. These results show that the expression of plasminogen activator isozymes by human mammary epithelial cells is subject to modulation by the extracellular matrix. Normal and malignant cells may differ in their responsiveness to these effects.     

Human osteoclasts express different CXC chemokines depending on cell culture substrate: molecular and immunocytochemical evidence of high levels of CXCL10 and CXCL12

Chemokines are important mediators of chemotaxis, cell adherence, and proliferation and exert specific functions in bone remodeling. Despite the potential intriguing role of chemokines in the regulation of osteoclast (OC) functions, little is known about the expression of chemokines and their receptors in human OCs at different stages of differentiation. Therefore, we analyzed the expression of CXC chemokine receptors (CXCR1, CXCR2, CXCR3, CXCR4 and CXCR5) and ligands (CXCL8, CXCL10, CXCL12 and CXCL13) both at molecular and protein levels, in human OCs grown on plastic or calcium phosphate-coated slides at different stages of differentiation. Real-time PCR showed that CXCR1, CXCR2, CXCR3, CXCR4, CXCR5 and CXCL8 were expressed in undifferentiated cells and significantly decreased during OC differentiation. By contrast, CXCL10 and CXCL12 were strongly upregulated from day 0 to day 8 in cells grown on calcium phosphate-coated slides. Immunocytochemistry showed that OCs grown on plastic expressed CXCR3, CXCR4, CXCR5, CXCL8 and CXCL12, while they were negative for CXCR1, CXCR2 and CXCL10. Interestingly, both at molecular and protein levels CXCL10 and CXCL12 significantly increased only when cells were differentiated on calcium phosphate-coated slides. These data suggest that the selection of a substrate that better mimics the tridimensional structure of bone tissue, thus favoring OC maturation and differentiation, may be necessary when studying osteoclastogenesis in vitro.     

An estradiol-responsive mouse endometrial cell strain with inducible aryl hydrocarbon hydroxylase activity

A mouse endometrial cell population has been isolated by mild tryptic digestion of the uterine lining. The cells were morphologically similar to endometrial gland cells in the intact mouse endometrial gland. The endometrial cells had a modal chromosome number of 66. The cells were adherent to glass as well as plastic and contained numerous large refractile, osmophilic, non-membrane-limited granules which stain with periodic acid-Schiff reagent but do not stain with oil red O, Sudan black, or Alcian blue. Cell growth was responsive to 17β-estradiol; cell number increased 1.34-fold in 4 days in the presence of 10^?8 M estradiol. The cells are not tumorigenic. The cells showed induction of aryl hydrocarbon hydroxylase (AHH) activity when 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) was added to the growth media for 24 h. AHH activity and its induction were investigated with cells grown in the presence and absence 10^?8 M estradiol. Cells grown in media containing estradiol exhibited a 6.2-fold induction by TCDD; cells grown without estradiol gave an 8.4-fold induction of AHH activity. AHH activity and its induction by TCDD were demonstrated in cells grown with fetal calf serum that had been pretreated with dextran-coated charcoal to remove endogenous steroids. Benzanthracene failed to induce AHH activity significantly.     

A non-IGF binding mutant of IGFBP-3 modulates cell function in breast epithelial cells

We demonstrated previously that IGFBP-3 alone had no effect on cell death, but dramatically modulated apoptosis in Hs578T IGF non-responsive cells. We investigated whether a non-IGF binding mutant of IGFBP-3 retained its intrinsic actions in this cell line, prior to investigating its actions in IGF-responsive cells (MCF-7 and MCF-10A). In the Hs578T cells, the ceramide analogue, C2-induced apoptosis, non-glycosylated, glycosylated or mutant IGFBP-3 alone had no effect but on co-incubation with C2, all forms of IGFBP-3 markedly accentuated triggered apoptosis. In MCF-7 cells, IGFBP-3 was unable to modulate C2-induced death. In the MCF-10A cells, IGFBP-3 acted as a potent survival factor. IGFBP-3 also affected cell growth in the MCF-10A cells (inhibiting at low doses but increasing growth at higher concentrations). These actions of IGFBP-3 in the MCF-10A cells were independent of IGF-1. IGFBP-3 has differential IGF-independent effects on cell death and growth in normal breast and breast cancer cells.     

Morphological and proliferative characteristics of human breast tumor cells cultured on plastic and in collagen matrix

Summary Collagen, a major component of the extracellular matrix, is important in maintaining the in vivo characteristics of epidermal cells in vitro. In the present study, the morphological and proliferative characteristics of two human mammary epithelial cell lines (T-47D and MCF-7) cultured in cowhide collagen (Vitrogen 100) were studied. When grown in collagen, the tumor cells displayed a spherical shape and formed multilayered, tumorlike aggregates; desmosomes were observed between cells. In contrast, both cell lines grew as monolayers on plastic substratum; cells were characteristically flat and polygonal. When grown in collagen matrix, the human breast cancer cells became more dependent on serum for growth: cells proliferated in the presence of 10% fetal bovine serum (FBS) but failed to grow in 1% serum. On the other hand, these cells proliferated rapidly in 1% serum when they were grown on plastic. Even in 10% serum the doubling time of cells cultured in collagen was longer than that of cells maintained on plastic. In addition, cells cultured in collagen proliferated rapidly in a serum-free medium containing insulin, epidermal growth factor (EGF), estrogen, and transferrin. The collagen gel system may be useful for characterizing physiologically important trophic factors that regulate the proliferation and other functions of human breast tumor cells. The advice of Drs. J. A. Paterson and B. Dronzek in the electron microscopy studies is appreciated. This research was supported by the Medical Research Council of Canada. Clement K. H. Leung was supported by a University of Manitoba graduate fellowship. Portions of this work were reported at the Twentieth Annual Meeting of the American Society for Cell Biology held in Cincinnati, Ohio, November 14–18, 1980.     

Cell substratum modulates responses of preosteoblasts to retinoic acid

The aim of this study was to determine the role of ECM components of bone in regulating the differentiation and function of cells of the osteoblast lineage. Rat UMR 201 cells, phenotypically preosteoblast, were plated onto plastic tissue culture dishes or dishes coated with gelled type I collagen or reconstituted basement membrane (matrigel). Acute cell attachment assays showed that cells adhered to substrates in the following order: collagen > matrigel ? plastic. Proliferation rate up to 96 hr were similar on each substrate. However, if cells were treated with 10^?6 M retinoic acid (RA), proliferation rates were reduced compared with control for cells grown on collagen and matrigel but not on plastic. Morphological changes were matrix-specific; in subconfluent cultures, long thin processes were seen with cells grown on collagen and a pattern of interconnecting cell processes formed when cells were plated on matrigel. Striking differences were observed in the constitutive or RA-induced gene expression of cells grown on the different substrates. When cells plated on collagen were treated with RA, induction of mRNA for alkaline phosphatase (ALP) as well as ALP enzyme activity were much less than with cells grown on plastic. In contrast, RA treatment induced osteopontin (OP) mRNA expression more strongly in cells plated on collagen compared with plastic within 24 hr and this was maintained for 72 hr. RA treatment produced a two fold increase of pro-α 1(I) collagen mRNA in cells grown on plastic and matrigel but not in cells grown on collagen. Growth on collagen produced changes in the way UMR 201 cells responded to RA from which they did not fully recover in subsequent 48-hr growth periods on plastic. These results indicate that ECM components regulate the function of and are capable of modulating RA-induced differentiation of preosteoblasts. © 1993 Wiley-Liss, Inc.     

Vacuolar ATPase driven potassium transport in highly metastatic breast cancer cells

Breast cancer is the second leading cause of death in women and thus has received a great deal of attention by researchers. Recent studies suggested decreased occurrence of cancer in patients treated with cardiac glycosides (CGs) for heart conditions. Because CGs induce their cellular effects via the Na⁺, K⁺ ATPase (Na–K), we treated four breast cancer cell lines (MCF-7, T47D, MDA-MB453, and MDA-MB231) and a non-cancerous breast ductal epithelial cell line (MCF-10A) with ouabain, a well-characterized CG, and measured cell proliferation by measuring bromodeoxyuridine incorporation. Ouabain (1 μM) decreased cell proliferation in all cell lines studied except MDA-MB453 cells. Western blot of Na–K α and β subunits showed α1, α3, and β1 expression in all cell lines except MDA-MB453 cells where Na–K protein and mRNA were absent. Potassium uptake, measured as rubidium (⁸⁶Rb) flux, and intracellular potassium were both significantly higher in MDA-MB453 cells compared to MCF-10A cells. RT-qPCR suggested a 7 fold increase in voltage-gated potassium channel (KCNQ2) expression in MDA-MB453 cells compared to MCF-10A cells. Inhibition of KCNQ2 prevented cell growth and ⁸⁶Rb uptake in MDA-MB453 cells but not in MCF-10A cells. All cancer cells had significantly higher vacuolar H-ATPase (V-ATPase) activity than MCF-10A cells. Inhibition of V-ATPase decreased ⁸⁶Rb uptake and intracellular potassium in MDA-MB453 cells but not in MCF-10A cells. The findings point to the absence of Na–K, high hERG and KCNQ2 expression, elevated V-ATPase activity and sensitivity to V-ATPase inhibitors in MDA-MB453. We conclude that cancer cells exhibit fundamentally different metabolic pathways for maintenance of intracellular ion homeostasis.     

Inhibition of biofilm populations of Nitrosomonas europaea

The influence of surface attachment and growth on inhibition of the ammonia oxidizing bacterium, Nitrosomonas europaea, by nitrapyrin was investigated in liquid culture in the presence and absence of glass slides. Significant attachment to glass slides occurred in the absence of ammonia, but the extent of attachment was not affected by nitrapyrin, nor by previous culture of cells in medium containing nitrapyrin. The presence of glass slides affected neither the specific growth rate of N. europaea, measured by changes in nitrite concentration, nor inhibition by nitrapyrin. Inhibitory effects of nitrapyrin on increases in nitrite concentration and in free cell concentration were similar, but greater effects were observed on changes in attached cell concentration. Established biofilms on glass slides grew at a lower specific growth rate than freely suspended cells. Both biofilm cells, and those detached from the biofilm, were protected from inhibition. A mechanism for protection of biofilm populations is proposed involving reduced sensitivity of slowly growing cells producing extracellular polymeric material. Offprint requests to.: J. I. Prosser.     

Apoptosis and catastrophic cell death in benzo[a]pyrene-transformed human breast epithelial cells

Apoptosis and mitotic death, bi- and multinucleation, giant cells and micronucleation were investigated in human breast epithelial cell lines transformed by benzo[a]pyrene (BP) (BP1, BP1-E and BP1-E1 cells) and in BP1 cells transfected with the c-Ha-ras oncogene (BP1-Tras cells). Since BP induces apoptosis and the abnormal expression of ras genes elicits catastrophic mitosis, both cell death phenomena were expected to occur in this system, especially in BP1-Tras cells. Regardless of the cell line considered, single-nucleate cells were found to be eliminated preferentially through apoptosis, while bi- and multinucleate cells were eliminated through catastrophic mitosis. Apoptosis and catastrophic mitosis were observed in all cell lines but were significantly more frequent in BP1-Tras cells. The abnormal expression of Ha-ras in the latter cells may enhance in this system the effects of the BP apoptosis path reported for BP-transformed Hepa 1c1c7 hepatoma cells. Transfection with the ras oncogene also enhanced the mitotic disturbances, which produced multi- and micronucleation and mitotic death, possibly because of the genomic instability promoted by this oncogene in the BP-transformed cell line.     

Effects of matrix components on aromatase activity in breast stromal cells in culture

Local estradiol production within breast tissue is maintained by the aromatase cytochrome P450_arom complex, which has been localized primarily to the stromal component of tumors but also has been detected in the breast epithelial cells. Paracrine interactions between stromal and epithelial components of the breast are critical to the sustained growth and progression of breast tumors. Maintenance of the differentiated state, including hormone and growth factor responsiveness, requires extracellular matrix proteins as substrata for cells. This research has focused on developing a cell culture system that more closely mimics in vivo interactions in order to dissect actual paracrine signaling between these two cell types. Human fibroblasts were isolated from breast tissue and were maintained in a cell culture system grown on plastic support or on a collagen I support matrix. The collagen I matrix model supports cell maintenance and subsequent differentiation on collagen rather than maximal proliferation, therefore allowing for a more accurate environment for the study of hormonal control and cellular communication. Initial experiments compared aromatase activity of patient fibroblasts grown on plastic versus collagen I using the tritiated water release method. Constitutive aromatase activity was found to be lower when cells were grown on a collagen gel for 4–7 days (7.7 fold lower) using DMEM/F12 containing 10% dextran coated charcoal stripped serum. However, fibroblasts grown on collagen I appeared to be significantly more responsive to stimulation by 100 nM dexamethasone (plastic: 6.0 fold induction, collagen: 33.2 fold induction) when pretreated for 12 h prior to measurement of aromatase activity. In an effort to examine paracrine interactions between the stromal and epithelial cells in breast tissue, experiments using conditioned media from fibroblast cultures were performed. Testosterone administration to fibroblasts results in the production of estradiol into the media in sufficient concentrations to elicit an increase in pS2 expression when the conditioned media is administered to MCF-7 cells. The addition of a potent aromatase inhibitor resulted in a complete suppression of fibroblast-derived estrogens and showed only a modest increase in pS2 expression. Culturing breast fibroblasts and epithelial cells on extracellular matrix allows for a more meaningful examination of the paracrine interactions between these cell types within the context of an appropriate extracellular environment. This study highlights the need for evaluation of gene expression in cell culture systems that accurately reflect the tissue microenvironment.     

Behaviour of neuroblasts in the presence of glial cells, fibroblasts and meningeal cells in culture

Dissociated nerve cells from 7-day-old chick embryo cerebral hemispheres were cultivated on plastic surfaces, astroblast layers, fibroblast layers and meningeal cell layers. The cell suspensions obtained by mechanical dissociation and plated on these layers contained primarily neuroblasts. The neuroblasts cultured on astroblast layers behaved differently from those cultured on fibroblast or on meningeal cell layers. They adhered within 2 h to the preformed astroblast monolayers and remained scattered over it. In contrast, in the two other cases, the neuroblasts formed floating aggregates which adhered to the layers only after 24 h. Neuroblasts behaved on monolayers made of fibroblasts or meningeal cells as on plastic surfaces.The neuronal cells grown on astroblast layers were much more differentiated than those plated on plastic or on the two other layers studied. After 2–3 weeks of culture the neurons were large and the fibres were longer, thicker and more ramified. However, the fibroblast and the meningeal cells enhanced slightly the growth of the neuroblasts relative to plastic surfaces. These results support the possibility of specific interactions between astroblasts and neuroblasts.     

Modulation of surface proteins by calcium in Chinese hamster lung cells

Investigations on the role of calcium in regulation of cell morphology of Chinese hamster lung cells (V79) revealed that cells grown with additional calcium (5 mM) in the growth medium (Ham's F12) adhere more tightly to the substratum than those grown in F12 alone. Additional calcium in the medium did not cause any changes in the structural membrane proteins or glycoproteins. Radioiodination of the surface membrane proteins of cells grown with or without additional calcium showed distinct differences in the labeling profile. The most striking change observed in cells grown with additional calcium was a very heavily labeled protein band at 70 K molecular weight. Two bands at approx. 100 K and 42 K were also heavily labeled. In contrast, the amount of radioactivity of a protein band at 52 K decreased in the cells grown in additional calcium. In general, cells grown with additional CaCl² were better iodinated than those grown in growth medium alone. The results demonstrate that calcium modulates surface proteins of V79 cells and this modulation may account for the changes observed in the cell morphology.     

The ultrastructure of MCF-10A acini

MCF-10A human mammary epithelial cells cultured inside reconstituted basement membrane form acini that resemble the acinar structures of mammary lobules. This three-dimensional culture system has been used for identifying and characterizing the signal transduction pathways controlling cell proliferation and death, and for studying their disregulation in malignant progression. We have compared the ultrastructure of MCF-10A acini, MCF-10A cells grown in monolayer, and the acinar structures of human breast lobules. The tissue architecture of MCF-10A acini was formed by hemidesmosomes connected to a basement membrane and by abundant desmosomes between acinar cells. Intermediate filaments that joined into large and abundant filament bundles connected hemidesmosomes and desmosomes to sites at the nuclear surface. Fewer and thinner bundles of filaments were observed in monolayer MCF-10A cells and even fewer in breast tissue. Tight junctions were observed between cells in breast tissue but missing in MCF-10A acini. The cytoplasm of MCF-10A acinar cells had a polar organization similar to that observed in breast tissue, with centrosomes and the Golgi apparatus on the apical side of the nucleus. MCF-10A acinar nuclei had an irregular, frequently invaginated surface and had a single nucleolus. The distribution of heterochromatin was similar to that in the epithelial cells of breast tissue. The nuclei of monolayer MCF-10A cells had multiple nucleoli, a more regular profile, and less heterochromatin. Electron microscopy has the resolution required to survey features of MCF-10A cell and acinus architecture that may change with manipulations designed to induce malignant phenotypes.     

Epidermal growth factor and insulin-like growth factor-1 preserve cell viability in the absence of protein synthesis

Summary Prolonged exposure of cells to the potent protein synthesis inhibitor cycloheximide (CHX) terminates in cell death. In the present study we investigated the effect of epidermal growth factor (EGF), insulin-like growth factor-1 (IGF-1), and insulin on cell death induced by CHX in the human cancerous cell lines MDA-231 and MCF-7 (breast), KB (oral epidermoid), HEP-2 (larynx epidermoid), and SW-480 (colon), and correlated this effect to the inhibition rate of protein synthesis. Cell death was evaluated by measuring either dead cells by trypan blue dye exclusion test or by the release of lactic dehydrogenase into the culture medium. CHX was shown to induce cell death in a concentration (1 to 60 μg/ml) and time (24 to 72 h)-dependent manner in each of the five cell lines. EGF at physiologic concentrations (2 to 40 ng/ml) reduced cell death close to control level (without CHX) in the cell lines HEP-2, KB, MDA-231, and SW-480, but had almost no effect on cell death in the MCF-7 cells. IGF-1 at physiologic concentrations (2 to 40 ng/ml) reduced cell death nearly to control level in the MCF-7 cells, but had only a partial effect in the other four cell lines. Insulin at supraphysiologic concentration (10 000 ng/ml) mimicked the effect of IGF-1 in each of the cell lines. CHX at concentrations that induced about 60% cell death, inhibited about 90% of protein synthesis as measured by [³H]leucine incorporation. Protein synthesis remained inhibited although cell viability was preserved by EGF or IGF-1. These results indicated that the mechanism by which EGF or IGF-1 preserve cell viability does not require new protein synthesis and may be mediated via a posttranslational modification effect.     

Distinct stress and cell destruction pathways are engaged by TNF and ceramide during apoptosis of MCF-7 cells

Ceramide has been proposed to be an important signaling intermediate in tumor necrosis factor (TNF)-induced apoptosis in human MCF-7 breast adenocarcinoma cells. We compared cell death and signal transduction pathways induced by TNF and ceramide in TNF-sensitive, parental MCF-7 cells to those in TNF-resistant, MCF-7 cells (3E9). TNF caused proteolysis of the caspase substrate, polyADP-ribose polymerase (PARP) in parental cells, but not in 3E9 cells. Both apoptosis and PARP cleavage were strongly prevented by co-incubation with caspase inhibitors. In contrast, ceramide-induced cell death was neither affected by TNF resistance nor was it associated with PARP cleavage, and death could not be prevented by co-incubation with caspase inhibitors in either cell line. TNF was able to activate JNK/SAPK approximately 30-fold and approximately 5-fold in parental MCF-7 and 3E9 cells, respectively; in contrast, cell-permeable ceramide only weakly stimulated JNK/SAPK activity in either cell type. Although JNK was activated by TNF, pharmacological blockade of the JNK pathway did not inhibit TNF- or ceramide-mediated cell death. Using mass spectroscopic analysis for ceramide, no increase, rather, a decrease in total ceramide content in TNF-treated parental cells was observed. These results suggest that the cell death signaling and execution pathways utilized by ceramide are distinct from those activated by TNF in MCF-7 cells.