Effect of 7 beta-hydroxycholesterol on astrocyte primary cultures and derived spontaneously transformed cell lines: cytotoxicity and metabolism

The lethal effect of 7 beta-hydroxycholesterol (7 beta-OHC) on neonatal rat astrocyte primary cultures and spontaneously transformed cell lines derived from them was investigated. Confluent astrocyte primary cultures were not affected by 30 microM 7 beta-OHC over a period of 72 h. In contrast, spontaneously transformed cells were killed by 20 microM 7 beta-OHC within the first 48 h. Further studies indicated that the cell lines metabolized 7 beta-OHC to a product the polarity of which was less than that of 7 beta-OHC. The metabolite was identified as 7 beta-OHC esterified on C-3 by naturally occurring fatty acids. Incubation of the cell lines with 0.5 microM metabolite markedly affected the cells within 24 h. These observations suggest that the 7 beta-OHC metabolite is implicated in the mechanism of action of 7 beta-OHC cytotoxicity on spontaneously transformed cells.     

Effect of dibutyryl cyclic AMP and isoproterenol on 7 beta-hydroxycholesterol cytotoxicity and esterification in spontaneous transformed cell lines derived from astrocyte primary cultures.

Incubation of spontaneous transformed cells derived from astrocyte primary cultures with 30 microM 7 beta-hydroxycholesterol (7 beta-OH-CH) which is lethal to the cells or with 150 microM isoproterenol reduces the intracellular level of cAMP (4- and 2-fold respectively). Treatment of the cultures with 0.5 mM dibutyryl (db)-cAMP and 7 beta-OH-CH increases 3-fold the intracellular level of cAMP and both, db-cAMP and isoproterenol, raise the lethal effect of 7 beta-OH-CH and its esterification on C-3-OH by naturally occurring fatty acids (metabolite). Kinetic studies of net steryl-3-esters hydrolysis revealed that db-cAMP and isoproterenol lower that of cholesteryl-3-esters (2-fold) whereas the opposite is found for the metabolite. These data demonstrate that (i) high cAMP intracellular levels modulate differently the net hydrolysis of cholesteryl-3-esters and metabolite, (ii) isoproterenol acts otherwise than cAMP on 7 beta-OH-CH esterification, (iii) the cytotoxicity of 7 beta-OH-CH is linked to its own esterification. The accumulation of metabolite subsequent to db-cAMP or isoproterenol treatment as a result of acyl-CoA:cholesterol acyl transferase activation is discussed.     

Effect of 7β-hydroxycholesterol on astrocyte primary cultures and derived spontaneously transformed cell lines Cytotoxicity and cholesterogenesis

The correlation between the lethal effect of 7β-hydroxycholesterol (7β-OH-CH) on spontaneously transformed cell lines derived from rat astrocyte primary cultures (normal cells) and de novo cholesterogenesis was investigated. Both 7β-OH-CH and 7-keto-CH were not cytotoxic on normal cells but 7β-OH-CH affected markedly the viability of the transformed cells. The use of [¹⁴C]acetate or [¹⁴C] mevalonate indicated that 7-keto-CH inhibits de novo cholesterogenesis upstream of 3-hydroxy-3-methylglutaryl CoA reductase (HMGR) in both cell types whereas 7β-OH-CH also inhibits downstream of HMGR. The accumulation of two radiolabelled products X₁ and X₂ between mevalonate and CH was found in unsaponifiable neutral lipids extracted from 7β-OH-CH treated transformed cells. HPLC and GC-MS revealed that X₁ and X₂ are not lanosterol anti 24.25-epoxylanosterol, respectively. Incubation of the transformed cells with X₁ and X₂ did not affect their viability. Our data demonstrate that, under our experimental conditions, 7β-OH-CH cytotoxicity is not linked to the inhibition of de novo cholesterogenesis in cultured glial transformed cells.     

Effect of cell surface trypsinization on ethanolamine base exchange enzymatic activity of astrocyte primary cultures and derived spontaneously transformed cell lines

Trypsinization of neonatal rat astrocyte primary cultures (normal cells) inhibited the activity of ethanolamine base exchange enzyme (EBEE) by 80%, whereas ethanolamine phosphotransferase (EPT) and choline base exchange (CBEE) enzymatic activities were not affected; subcellular fractionation demonstrated that trypsin treatment affected the intracellular EBEE activity. During trypsinization the enzyme was not taken up by cultured astrocytes but the cell surface was affected. In contrast, the same treatment did not alter EPT, CBEE and EBEE activities of spontaneously transformed cell lines derived from the primary cultures. However, treatment of the transformed cells with db-cAMP prior to trypsin, restored the pattern found in the primary culture, i.e. only EBEE activity was affected. These data suggest that a relationship exists between cell surface organization and intracellular EBEE activity in a culture system which possesses the property to control its own cell division or/and differentiation.     

Differential sensitivity of astrocyte primary cultures and derived spontaneous transformed cell lines to 70-hydroxycholesterol: effect on plasma membrane lipid composition and fluidity,and on cell surface protein expression

Summary The cytotoxicity of 7-hydroxycholesterol (7-OHC) was investigated on rat astrocyte primary cultures and spontaneously transformed cell lines derived from them. Confluent astrocyte primary cultures (normal cells) were unaffected by 20 µM 7(3-OHC over a period of 72 h whereas 30 µM markedly affected the viability of the transformed cells within the first 72 h. Both cell types incorporated 18% of the total amount of 7-OHC added to the cultures at concentrations of 20 µM or 30 µM. Cellular fractionation after incubation with 20 µM or 30 µM 7-OHC indicated that the plasma membrane incorporated 2 or 6 fold more 7-OHC than the intracellular one's respectively. Plasma membrane cholesterol (CH) and phospholipid (PL) analysis showed that 20 µM 7-OHC did not affect CH/PL in normal cells; in contrast, plasma membranes of transformed cells displayed a significant CH/PL decrease, which was more pronounced with 30 µM 7-OHC treatment. Fluorescence anisotropy measurements indicated that 20 µM 7-OHC slightly fluidified the plasma membrane of normal cells whereas it has not effect on that of the transformed cells one; however, an increase in plasma membrane fluidity was observed when the transformed cells were treated with 30 µM 7-OHC. Lactoperoxidase catalyzed radioiodination of cell surface proteins and subsequent autoradioelectrophoretic analysis demonstrated that the labelled protein pattern was unchanged when both cell types were incubated with 30 µM 7-OHC.     

Rat liver epithelial cell cultures in a serum-free medium: primary cultures and derived cell lines expressing differentiated functions

Rat liver epithelial cells explanted in a serum-free medium (SFM) composed of Ham's F10 basal medium plus free fatty acids adsorbed on bovine albumin gave successful rise to primary cultures and then to long-term cell lines that expressed liver functions; induction of L-tyrosine aminotransferase by glucocorticoids, hepatic pattern of progesterone metabolism, and biosynthesis of murine primary bile acids; chenodeoxycholic and cholic acid common to higher vertebrates and alpha-muricholic acid specific of the rat bile.     

Metabolism of dehydroepiandrosterone by rodent brain cell lines: relationship between 7-hydroxylation and aromatization

The rate of aromatization of 4-androstenedione (AD) and 7-hydroxylation of dehydroepiandrosterone (DHEA) by different neuronal cell lines from fetal rat and mouse brain was compared to that of embryonic rat hippocampal cells in primary culture. The (3)H-labeled steroids were incubated with the cells and the metabolites extracted and separated by thin layer chromatography (TLC), as well as analyzed by high-performance liquid chromatography (HPLC) for further identification. All cell types produced estrone (E(1)) and estradiol (E(2)) from [(3)H]AD but the rate of aromatization was lowest with the rat hippocampal cells in primary culture. With [(3)H]DHEA, BHc.2 mouse hippocampal cells and E(t)C.1 neurons behaved like the mixed cells from rat hippocampus, forming 7-hydroxy DHEA as the almost exclusive product. In contrast, mouse brain BV2 microglia were virtually unable to hydroxylate DHEA at C-7 and yielded estrogen and more testosterone (T) than other cell types tested. These experiments highlight the pivotal role of 3beta-hydroxysteroid dehydrogenase/ketoisomerase in the control of AD formation for its subsequent aromatization to estrogen. It raises the possibility that differences in metabolism of DHEA by certain brain cells could account for differences in their immunomodulatory and neuroprotective functions. Some could exert their effects by converting DHEA to its 7-hydroxylated form while others, like BV2 microglia, by converting DHEA primarily to other C-19 steroids and to estrogen by way of AD.     

Differences in growth factor sensitivity between primary and transformed murine cell cultures revealed by BrdU/Hoechst flow cytometry

Spontaneous cell transformation is a common feature of all murine cell cultures grown in vitro for extended periods of time. During early passages, these cultures show either progressively reduced growth or complete cessation of growth; after such a 'crisis' they display increasing growth rates and unlimited lifespan. Here we use a novel bromodeoxyuridine/Hoechst flow-cytometric technique to examine the growth response of diploid and transformed cells of the murine species Micromys minutus under a variety of growth conditions. After spontaneous transformation, growth factor exposure results in increased G0/G1 cell recruitment and higher growth rates than shown by the nontransformed diploid cell fraction. Despite clonal heterogeneity, this difference is seen at all fetal calf serum (FCS) concentrations, although it is most pronounced with low serum. Epidermal growth factor and insulin are shown to act synergistically and promote growth equal to exposures of transformed cultures to 10% FCS. The observed differences in growth factor response between diploid and aneuploid cells could explain the reported lack of a classical growth crisis in growth factor-supplemented media during the spontaneous in vitro transformation of primary cell cultures.     

Differences between substrate specificities of l-glutamate uptake by neurons and glia,studied in cell lines and primary cultures

High affinity uptake of [³H]l-glutamate was studied in cultures of continuous cell lines, originating either from mouse neuroblastoma or rat glioma, and in two types of primary cultures containing cerebellar granule cells and astrocytes from cerebral cortex, respectively. In the continuous lines, d- and l-aspartate-4-hydroxamate were found to interact preferentially with the uptake of [³H]l-glutamate in glioma cells while l-glutamate-5-hydroxamate and 2-aminoadipate interacted more strongly with [³H]l-glutamate uptake in neuroblastoma cells, d-Aspartate-4-hydroxyamate, l-glutamate-5-hydroxamate and 2-aminoadipate were inactive as inhibitors of [³H]l-glutamate uptake by either granule cells or astrocytes, grown in primary culture, but several other glutamate analogues, which did not differentiate between neuroblastomal and gliomal uptake of [³H]l-glutamate, were somewhat stronger inhibitors of [³H]l-glutamate uptake in astrocytes as compared to that in granule cells. However, all of these compounds (N-acetyl-l-glutamate, formimino-l-aspartate, d-homocysteate, l-homocysteate and dl-2-methylglutamate) were only very weak inhibitors and, consequently, it is unlikely that any of them could be useful in experiments with central nervous tissue in vivo or, at least, in brain slices in vitro, attempting to resolve the uptake of l-glutamate into glia- and neuron-localized components.     

Inhibition of nuclear T3 binding by fatty acids: dependence on chain length, unsaturated bonds, cis-trans configuration and esterification

1. Fatty acids have the capacity for inhibition of nuclear T3 binding (INB). The present studies were undertaken to describe the INB-activity of fatty acids as a function of chain length, unsaturated bonds, cis-trans configuration, and esterification. 2. Isolated rat liver nuclei were incubated with [125I]T3 in the absence or presence of fatty acids in concentrations of 0.011, 0.033, 0.1 and 0.3 mM respectively. 3. INB-activity depended on the chain length, being greatest at 14 carbon atoms. 4. INB by unsaturated fatty acids was greater than that of saturated fatty acids, and increased with increasing number of double bonds. 5. Fatty acids in the cis configuration had greater INB-activity than those in trans configuration. 6. Esterification of fatty acids decreased INB-activity: monoglycerides still had some effect, but di- and triglycerides had no effect.     

Using a stem cell and progeny model to illustrate the relationship between cell cycle times of in vivo human tumour cell tissue populations, in vitro primary cultures and the cell lines derived from them

There is increasing evidence that the growth of human tumours is driven by a small proportion of tumour stem cells with self-renewal properties. Multiplication of these cells leads to loss of self-renewal and after division for a finite number of times the cells undergo programmed cell death. Cell cycle times of human cancers have been measured in vivo and shown to vary in the range from two days to several weeks, depending on the individual. Cells cultured directly from tumours removed at surgery initially grow at a rate comparable to the in vivo rate but continued culture leads to the generation of cell lines that have shorter cycle times (1–3 days). It has been postulated that the more rapidly growing sub-population exhibits some of the properties of tumour stem cells and are the precursors of a slower growing sub-population that comprise the bulk of the tumour. We have previously developed a mathematical model to describe the behaviour of cell lines and we extend this model here to describe the behaviour of a system with two cell populations with different kinetic characteristics and a precursor–product relationship. The aim is to provide a framework for understanding the behaviour of cancer tissue that is sustained by a minor population of proliferating stem cells.     

Metabolism of polyunsaturated (n-3) fatty acids by monkey seminal vesicles: isolation and biosynthesis of omega-3 epoxides.

Monooxygenases of monkey seminal vesicles can metabolize arachidonic acid (20:4(n-6)) by w3-hydroxylation to 18(R)-hydroxyeicosatetraenoic acid (18(R)-HETE) and eicosapentaenoic acid (20:5(n-3)) to 17,18-dihydroxyeicosatetraenoic acid (Oliw, E.H. (1989) J. Biol. Chem. 264, 17845-17853). The present study aimed to further characterize the oxygenation of (n-3) polyunsaturated fatty acids. 14C-Labelled 22:6(n-3), 20:5(n-3), 20:4-(n-3) and 18:3(n-3) were incubated with microsomes of seminal vesicles of the cynomolgus monkey, NADPH and a cyclooxygenase inhibitor, diclofenac, and the main metabolites were identified by capillary gas chromatography-mass spectrometry. 22:6(n-3) was slowly metabolized to 19,20-dihydroxy-4,7,10,13,16-docosapentaenoic acid, while 20:5(n-3), 20:4(n-3) and 18:3(n-3) were metabolized more efficiently to the corresponding w4,w3-diols. The w3 epoxides, which were obtained from 20:5(n-3) and 18:3(n-3), were isolated in the presence of an epoxide hydrolase inhibitor, 1(2)epoxy-3,3,3-trichloropropane, and the geometry of the epoxides was determined to be 17S, 18R and 15S, 16R, respectively. While 20:5(n-3) was metabolized almost exclusively to the epoxide and diol pair of metabolites, 18:3(n-3) was metabolized not only to the w3 epoxide and the corresponding diol, but also to the w2 alcohol, 17(R)-hydroxy-9,12,15-octadecatrienoic acid. 22:6(n-3) and 5,8,11,14-eicosatetraynoic acid inhibited the biosynthesis of 18(R)-HETE from arachidonic acid (IC50 0.16 and 0.14 mM, respectively). In comparison with 20:4 or 18:3(n-3), 18:1(n-9) and 22:5(n-6) appeared to be slowly metabolized by seminal monooxygenases, while 18:2(n-6) was converted to the w3 alcohol and to smaller amounts of the w2 alcohol (4:1). Together, the results indicate that the w3-hydroxylase and w3-epoxygenase enzyme(s) metabolize 20:4(n-6) and 20:5(n-3) almost exclusively to the w3(R) alcohol and the w3(R, S) epoxide, respectively, while longer and shorter fatty acids either are poor substrates or metabolized with a lesser degree of position specificity.     

Type I interferons directly down-regulate BCL-6 in primary and transformed germinal center B cells: differential regulation in B cell lines derived from endemic or sporadic Burkitt's lymphoma

Type I interferons (IFN) exert multiple effects on both the innate and adaptive immune system in addition to their antiviral and antiproliferative activities. Little is known, however about the direct effects of type I IFNs on germinal center (GC) B cells, the central components of adaptive B cell responses. We used Burkitt's lymphoma (BL) lines, as a model system of normal human GC B cells, to examine the effect of type I IFNs on the expression of BCL-6, the major regulator of the GC reaction. We show that type I IFNs, but not IFNγ, IL-2 and TNFα rapidly down-regulate BCL-6 protein and mRNA expression, in cell lines derived from endemic, but not from sporadic BL. IFNα-induced down-regulation is specific for BCL-6, independent of Epstein-Barr virus and is not accompanied by IRF-4 up-regulation. IFNα-induced BCL-6 mRNA down-regulation does not require de novo protein synthesis and is specifically inhibited by piceatannol. The proteasome inhibitor MG132 non-specifically prevents, while inhibitors of alternate type I IFN signaling pathways do not inhibit IFNα-induced BCL-6 protein downregulation. We validate our results with showing that IFNα rapidly down-regulates BCL-6 mRNA in purified mouse normal GC B cells. Our results identify type I IFNs as the first group of cytokines that can down-regulate BCL-6 expression directly in GC B cells.     

Tropane alkaloid metabolism by Pseudomonas AT3 cell cultures: Interchange between the nortropine and norpseudotropine catabolic pathways

Selected strains of Pseudomonas bacteria can degrade tropane alkaloids to obtain both nitrogen and carbon for growth. In order to probe the mechanisms of the catabolic enzymes involved, the metabolic process responsible for the opening of the 8-azabicyclo[3.2.1]octan-3-ol ring of nortropane alkaloids has been explored. It is found that the bacteria contain considerable flexibility in their enzyme complement and can convert (3-endo)-8-azabicyclo[3.2.1]octan-3-ol) (nortropine (2) to (3-exo)-8-azabicyclo[3.2.1]octan-3-ol) (norpseudotropine). Both of these compounds can serve as substrates for the catalytic cascade. In order to establish the proportionation between direct and indirect pathways, metabolism has been probed by competitive substrate availability and by incorporation of stable heavy labels into substrate pools. The results indicate that, while norpseudotropine is almost entirely metabolized directly, nortropine is partitioned c. 4:1 between direct and indirect catabolism.     

Establishment and characterization of two human breast carcinoma cell lines by spontaneous immortalization: Discordance between Estrogen, Progesterone and HER2/neu receptors of breast carcinoma tissues with derived cell lines

Background

Breast cancer is one of the most common cancers among women throughout the world. Therefore, established cell lines are widely used as in vitro experimental models in cancer research.

Methods

Two continuous human breast cell lines, designated MBC1 and MBC2, were successfully established and characterized from invasive ductal breast carcinoma tissues of Malaysian patients. MBC1 and MBC2 have been characterized in terms of morphology analysis, population doubling time, clonogenic formation, wound healing assay, invasion assay, cell cycle, DNA profiling, fluorescence immunocytochemistry, Western blotting and karyotyping.

Results

MBC1 and MBC2 exhibited adherent monolayer epithelial morphology at a passage number of 150. Receptor status of MBC1 and MBC2 show (ER⁺, PR⁺, HER2⁺) and (ER⁺, PR^-, HER2⁺), respectively. These results are in discordance with histopathological studies of the tumoral tissues, which were triple negative and (ER^-, PR^-, HER2⁺) for MBC1 and MBC2, respectively. Both cell lines were capable of growing in soft agar culture, which suggests their metastatic potential. The MBC1 and MBC2 metaphase spreads showed an abnormal karyotype, including hyperdiploidy and complex rearrangements with modes of 52–58 chromosomes per cell.

Conclusions

Loss or gain in secondary properties, deregulation and specific genetic changes possibly conferred receptor changes during the culturing of tumoral cells. Thus, we hypothesize that, among heterogenous tumoral cells, only a small minority of ER⁺/PR⁺/HER2⁺ and ER⁺/PR^-/HER2⁺ cells with lower energy metabolism might survive and adjust easily to in vitro conditions. These cell lines will pave the way for new perspectives in genetic and biological investigations, drug resistance and chemotherapy studies, and would serve as prototype models in Malaysian breast carcinogenesis investigations.     

Survival of low-pH stress by Escherichia coli O157:H7: correlation between alterations in the cell envelope and increased acid tolerance.

Survival of a nontoxigenic isolate of Escherichia coli O157:H7 at low pH (pH 3.0) was examined over prolonged time periods for each of three population types: exponential-phase cells, stationary-phase cells, and acid-adapted exponential-phase cells. In each population, approximately 5 x 10(4) CFU ml-1 were detected after a 24-h incubation at pH 3.0. Even after 3 days at pH 3.0, significant numbers of survivors from each of the three populations could be detected. The high level of acid tolerance exhibited by these survivors was found to be quickly lost once they were transferred to conditions which permitted growth to resume, indicating that they were not mutants. Proton flux measurements on the three populations of cells revealed that the initial rates of viability loss at pH 3.0 correlated well with net proton accumulation. Cells showing a high initial rate of viability loss (exponential-phase cells) accumulated protons at the highest rate, whereas resistant populations (adapted or stationary-phase cells) accumulated protons only slowly. Differences in the protein composition of the cell envelope between the three populations were studied by two-dimensional polyacrylamide gel electrophoresis. Complex differences in the pattern of proteins expressed by each population were uncovered. The implications of these findings are discussed in the context of a possible model accounting for acid tolerance in this important food-borne pathogen.     

Human lymphocyte subpopulations identified by using three-color immunofluorescence and flow cytometry analysis: correlation of Leu-2, Leu-3, Leu-7, Leu-8, and Leu-11 cell surface antigen expression

Three-color immunofluorescence has been used to determine the co-expression of cell surface antigens on human peripheral blood lymphocytes. Monoclonal antibodies or avidin were coupled to either FITC (green), phycoerythrin (orange), or Texas Red (red) fluorochromes. These three fluorochromes could be independently measured by using a dual laser FACS IV system equipped with an argon ion laser (488 nm) and a dye laser (600 nm). Human peripheral blood lymphocytes were stained with the following combinations of reagents: (1) FITC anti-Leu-11a + PE anti-Leu-2a + TR avidin/biotin anti-Leu-7; (2) FITC anti-Leu-11a + PE anti-Leu-3a + TR avidin/biotin anti-Leu-7; (3) FITC anti-Leu-8 + PE anti-Leu-2a + TR avidin/biotin anti-Leu-7; and (4) FITC anti-Leu-11a + PE anti-Leu-2 + TR avidin/biotin anti-Leu-8. The light scatter, green fluorescence, orange fluorescence, and red fluorescence signals for each sample were stored by a Consort 40 PDP/11 computer in list mode files. Sequential reanalysis of the data directly demonstrated the existence of several unrecognized subpopulations of lymphocytes. Previously, we reported that the anti-Leu-7 and anti-Leu-11 antibodies can be used to identify discrete subsets of human NK cells with distinct functional capacities. In this report, we show that these subsets can be further subdivided on the basis of Leu-8 and Leu-2 expression. Thus, these studies illustrate how multicolor and multiparameter flow cytometry can further our understanding of cellular heterogeneity within this group of lymphocytes.     

Modulation of the estrogen-regulated proteins cathepsin D and pS2 by opioid agonists in hormone-sensitive breast cancer cell lines (MCF7 and T47D): Evidence for an interaction between the two systems

In many cancer cell lines, including breast, prostate, lung, brain, head and neck, retina, and the gastrointestinal tract, opioids decrease cell proliferation in a dose-dependent and reversible manner. Opioid and/ or other neuropeptide receptors mediate this decrease. We report that only the steroid-hormone-sensitive cell lines MCF7 and T47D respond to opioid growth inhibition in a dose-dependent manner. Therefore, an interaction of the opioid and steroid receptor system might exist, as is the case with insulin. To investigate this interaction, we have assayed two estrogen-inducible proteins (pS2 and the lysosomal enzyme cathepsin D) in MCF7 and T47D cells. When cells were grown in the presence of FBS (in which case a minimal quantity of estrogens and/ or opioids is provided by the serum), we observed either no effect of etorphine or ethylketocyclazocine (EKC) or an increase of secretion and/ or production of pS2 and cathepsin D. However, when cells were cultured in charcoal-stripped serum and in the absence of phenol red, the effect of the two opioids is different: EKC decreased the production and/ or secretion of pS2 and cathepsin D, whereas etorphine increased their synthesis and/ or secretion. The differential effect of the two general opioids was attributed to their different receptor selectivity. Furthermore, the variations of the ratio of secreted/ produced protein and the use of cycloheximide indicate that opioids selectively modify the regulatory pathway of each protein discretely. In conclusion, through the interaction with opioid and perhaps other membrane-receptor sites, opioid agonists modify in a dose-dependent manner the production and the secretion of two estrogen-regulated proteins. Opioids may therefore disturb hormonal signals mediated by the estrogen receptors. Hence, these chemicals may have potential endocrine disrupting activities. J. Cell. Biochem. 71:416–428, 1998. © 1998 Wiley-Liss, Inc.