Effect of media composition on the induction of chorionic gonadotropin by sodium butyrate in HeLa cells

Summary Production of the glycoprotein hormone α-subunit by HeLa cells and its induction by sodium butyrate are dependent on the choice of culture medium. Under identical growth conditions it was found that subunit synthesis in the presence of butyrate was highest in RPMI 1640, lowest in Medium 199 (M199), and intermediate in minimum essential medium (MEM) and Waymouth's MB 752/1. Cell growth was similar in all media examined and was retarded in the presence of butyrate. Alkaline phosphatase activity was also lower in M199 than in RPMI 1640, although, in general, the magnitude of this difference was less than that for the hormone subunit. Incorporation of [1-¹⁴C]butyrate by HeLa cells was simimar in both M199 and RPMI 1640, indicating that uptake and metabolism of the fatty acid were not significantly different under these conditions. In the presence of 3 mM butyrate, mixtures of RPMI 1640 and M199 gave intermediate levels of α-subunit and alkaline phosphatase compared to each medium alone. Intracellular levels of α-subunit as well as that of the culture medium were reduced in M199 compared to RPMI 1640 indicating that synthesis rather than secretion was altered. This work was supported by Grant CA 21534 from the National Institutes of Health, Bethesda, MD.     

Phenotypes of HeLa S3 variant cell lines resistant to growth inhibition by sodium butyrate

Summary HeLa cell variants capable of multiplying in the presence of sodium butyrate were used to study the relationship of cell cycle position to human chorionic gonadotropin (hCG) production and regulation of the genes encoding hCG α- and β-subunits. The butyrate-resistant variants exhibit several different stable phenotypes. In wild-type HeLa cells, butyrate arrests cell division and modulates synthesis of α- and β-subunits of glycoprotein hormones by coordinately regulating steady-state levels of their respective mRNAs. Because the variant cell lines replicate, in addition to producing hCG subunits in the presence of butyrate, cell cycle arrest does not seem to be a requirement for expression of glycoprotein hormone genes. Studies of histone modification suggest that neither hyperacetylation of histones H3 and H4 nor dephosphorylation of histones H1 and H2A mediates inhibition of cell replication. In the variants, α-subunit and hCGβ levels are independently regulated, as a consequence of independent regulation of α- and β-hCG mRNA levels. Long-term effects of butyrate include derepression of some genes (hCGβ in the variant AO) and repression of others (hCGα in variant AO). Moreover, hormone production correlates with the steady-state levels of mRNA for each of the subunits, suggesting that regulation occurs before translation. These findings indicate that the butyrate-resistant variant cell lines are valuable for studies of the molecular mechanisms involved in regulation of expression of ectopic hormones.     

Glucose requirement for induction by sodium butyrate of the glycoprotein hormone alpha subunit in HeLa cells

Butyric acid produces multiple effects on mammalian cells in culture, including alterations in morphology, depression of growth rate, increased histone acetylation, and modified production of various proteins and enzymes. The latter effect is exemplified by the induction in HeLa cells of the glycoprotein hormone alpha subunit by millimolar concentrations of the fatty acid. This report demonstrates that increased subunit accumulation in response to sodium butyrate is strikingly dependent on the presence of glucose (or mannose) in the growth medium. In contrast, basal levels of subunit synthesis are only marginally affected when the culture medium is supplemented with one of a variety of hexoses. An increase in the accumulation of HeLa alpha does not occur in medium containing pyruvate as the energy source, and sustained induction requires the simultaneous and continued presence of both glucose and butyrate. The effects of butyrate on HeLa cell morphology and subunit induction can be separated, since the latter is glucose-dependent while the former is not. Failure of butyrate to induce alpha in medium containing pyruvate does not result from restricted subunit secretion, since the levels of intracellular alpha are not increased disproportionately relative to those in the medium. The hexoses which support induction of HeLa alpha (glucose greater than or equal to mannose greater than galactose greater than fructose) are identical to those which have been shown previously to stimulate the glucosylation of lipid-linked oligosaccharides and enhance the synthesis of certain glycoproteins. Labeling of various glycosylation intermediates with [3H]mannose indicates that in glucose medium there is a decrease in the level of radioactivity associated with both dolicholpyrophosphoryl oligosaccharide and cellular glycoproteins and a concomitant increase in the fraction of label recovered in secreted glycoproteins. Butyrate also causes a decrease in [3H]mannose-labeled cellular glycoproteins and an increase in tritiated extracellular glycoproteins, particularly in glucose medium. Likewise, glucose stimulates the incorporation of [3H]glucosamine into immunoprecipitable alpha subunit relative to the bulk of HeLa-secreted glycoproteins, and this is further enhanced by butyrate. However, as demonstrated by lectin chromatography of conditioned media, a nonglycosylated subunit does not accumulate in pyruvate medium, either in the absence or presence of butyrate.(ABSTRACT TRUNCATED AT 400 WORDS)     

Characterization of hCG regulation in cultured human amniotic fluid cells: II. Mechanisms for stimulation

We showed previously that sodium butyrate stimulated human chorionic gonadotropin (hCG) measured by radioimmunoassay of medium from human second trimester amniotic fluid cell cultures, termed AF cells. We now find that stimulation of hCG in the presence of sodium butyrate takes as long as 20 h. When AF cells are preincubated with sodium butyrate, hCG levels increase in direct relation to length of the preincubation period. These findings suggest that elevation of hCG is not due merely to a release of hormone from the cells. Addition of cycloheximide or Actinomycin D inhibited protein synthesis and RNA synthesis, respectively, and prevented the stimulation of hCG by sodium butyrate. These results lend support for a mechanism of regulation involving protein and RNA synthesis, the increase in hCG levels being due to new synthesis of the hormone. Other agents reported to influence hCG production by different types of cell cultures include dibutyryl cyclic AMP, epidermal growth factor (EGF), methotrexate, and hydroxyurea. Dibutyryl cyclic AMP and EGF have no effect on hCG production in our AF cells: methotrexate causes a minimal increase, hydroxyurea causes a further increase, but sodium butyrate has the strongest stimulatory effect. We conclude that amniotic fluid cells in culture are susceptible to environmental agents capable of modulating synthesis of hCG by mechanisms involving synthesis of RNA and protein.     

Characterization of hCG regulation in cultured human amniotic fluid cells

Summary We showed previously that sodium butyrate stimulated human chorionic gonadotropin (hCG) measured by radioimmunoassay of medium from human second trimester amniotic fluid cell cultures, termed AF cells. We now find that stimulation of hCG in the presence of sodium butyrate takes as long as 20 h. When AF cells are preincubated with sodium butyrate, hCG levels increase in direct relation to length of the preincubation period. These findings suggest that elevation of hCG is not due merely to a release of hormone from the cells. Addition of cycloheximide or Actinomycin D inhibited protein synthesis and RNA synthesis, respectively, and prevented the stimulation of hCG by sodium butyrate. These results lend support for a mechanism of regulation involving protein and RNA synthesis, the increase in hCG levels being due to new synthesis of the hormone. Other agents reported to influence hCG production by different types of cell cultures include dibutyryl cyclic AMP, epidermal growth factor (EGF), methotrexate, and hydroxyurea. Dibutyryl cyclic AMP and EGF have no effect on hCG production in our AF cells: methotrexate causes a minimal increase, hydroxyurea causes a further increase, but sodium butyrate has the strongest stimulatory effect. We conclude that amniotic fluid cells in culture are susceptible to environmental agents capable of modulating synthesis of hCG by mechanisms involving synthesis of RNA and protein. Research supported by Grant HD 11379 from the National Institutes of Health.     

Synthesis of alpha subunit of human chorionic gonadotrophin by presumptive HeLa cells

Summary Several cell lines, originally thought to be derived from a human placenta at term but possibly HeLa-contaminated, have been studied. These cells secrete a protein indistinguishable immunochemically from the alpha subunit of chorionic gonadotropin but not the beta subunit of chorionic gonadotropin or placental lactogen. Complete chorionic gonadotropin was detected but amounted to less than 1% of the level of the alpha subunit. The cells also produce an alkaline phosphatase similar to placental alkaline phosphatase in immunochemical, gel-electrophoretic, and heat-denaturation properties. They induce tumor growth when inoculated into nude mice. These cells are aneuploid and have a model chromosome number of 66. The common HeLa karyologic markers, designated 1, 2, and 3, and A-type glucose-6-phosphate dehydrogenase are present in these cells. HeLa cells have not previously been shown to secrete theα subunit of hCG.     

Glycopeptide hormone production by cultured human diploid fibroblasts

Human diploid fibroblasts in culture were examined for production of glycopeptide hormones. Forty-one percent of the strains produced human chorionic gonadotropin (hCG) under normal growth conditions. Constitutive hCG synthesis was apparently unrelated to donor age, length of time in culture, or number of passages. Follicle stimulating hormone (FSH) was not found in any strain investigated. Only one cell strain produced free α-chains of glycopeptide hormones. Hydroxyurea (HU) at a concentration of 1 mM mediated a small, statistically significant increase in hCG production (p < 0.01) in all constitutive strains, but had no effect on non-hCG-producing fibroblast strains. Sodium butyrate (Bu) was effective in increasing hCG synthesis in only one constitutive strain, derived from a newborn foreskin. HU treatment had no apparent effect on cell structure. All Bu-treated strains, both those producing hCG and the nonproducers, showed morphological alterations; cells were flattened and they contained ordered arrays of refractile granules. It is suggested that hCG synthesis in cultured human diploid fibroblasts may result from a localized chromosomal event in which the loci responsible for this hormone are activated. Human diploid fibroblasts in culture are shown to be amenable to the study of gene expression and its modulation.     

Up-regulation of E-cadherin and β-catenin in human hepatocellular carcinoma cell lines by sodium butyrate and interferon-α

Summary Human E-cadherin is a homophilic cell adhesion molecule and its expression is well preserved in normal human hepatocytes; a decrease in its expression has been observed in poorly differentiated hepatocellular carcinoma cells. We examined the alteration of E-cadherin and catenin expressions caused by differentiation inducers in human hepatocellular carcinoma cells. Hepatocellular carcinoma cell lines, HCC-T and HCC-M, were cultured with all-trans retinoic acid (ATRA), dexamethasone (DEX), sodium butyrate, and interferon-α. E-cadherin expression was only up-regulated by butyrate and interferon-α (IFN-α) in both cell lines, studied by means of fluorescence immunostaining and flow cytometry. The localization of E-cadherin staining was shown at their cell membrane. According to the increase in E-cadherin expression, β-catenin expression appeared at the cell membrane of both cell lines when treated with butyrate and IFN-α. Such an appearance was not observed when cells were treated with ATRA and DEX. Western blotting showed that α-and γ-catenin expression was not changed, while only the expression of β-catenin increased. β-Catenin oncogenic activation as a result of amino acid substitutions or interstitial deletions within or including parts of exon 3, which has been demonstrated recently, was not detected in these cell lines by direct deoxyribonucleic acid sequencing. These results suggest that the expression and interaction between E-cadherin and wild-type β-catenin are potentially modulated by butyrate and IFN-α, and that these two agents are potent inhibitors of hepatocellular carcinoma cell invasion and metastasis.     

Differential regulation of hCG alpha and beta subunit mRNAs in JEG-3 choriocarcinoma cells by 8-bromo-cAMP

The coordinate regulation of human chorionic gonadotropin (hCG) subunit synthesis by JEG-3 choriocarcinoma cells was studied at the pretranslational level. The responses of the hCG alpha and beta mRNAs were measured during stimulation with the potent cAMP analog 8-bromo-cAMP (8-Br-cAMP) using 32P-labeled hCG alpha and beta cDNA probes. The hCG alpha mRNA (850 bases) and beta mRNA (1050 bases) from JEG-3 cells were identical in size to that of their respective mRNAs from placenta, by Northern blot analysis. After 48 h of stimulation with 2 mM 8-Br-cAMP, production of immunoreactive alpha and beta subunits increased 25- and 52-fold, respectively; corresponding levels of the alpha and beta mRNAs increased 36- and 43-fold, respectively, in a dot blot hybridization assay. Total cellular protein, DNA content, and messenger RNA pools were not altered by treatment with 8-Br-cAMP. The temporal coordination of the expression of the hCG alpha- and beta-subunit genes was examined by comparing the time course of stimulation of the respective mRNAs and the production of immunoreactive subunits. The kinetic responses of the alpha and beta mRNAs differed: the increase in hCG alpha mRNA preceded the increase in hCG beta mRNA, while levels of free alpha subunit and intact hCG increased in parallel with the increase in beta mRNA. hCG alpha mRNA levels increased rapidly between 8 and 24 h after the addition of 8-Br-cAMP, and approached a plateau by 48 h. The levels of hCG beta mRNA increased steadily throughout the 8-48 h period. These results demonstrate that the cAMP analog 8-Br-cAMP differentially regulates hCG subunit biosynthesis in JEG-3 cells at a pretranslational level, and that the stimulation by 8-Br-cAMP in this system appears to be relatively selective for hCG subunits.     

Differential inducibilities of GFAP expression, cytostasis and apoptosis in primary cultures of human astrocytic tumours

Glial fibrillary acidic protein (GFAP) is an astrocytic lineage-specific intermediate filament protein, and its expression or non-expression is inversely correlated with the tumourigenecity of astrocytoma cells. To estimate the GFAP levels of astrocytes in intracranial tumour tissues, we established primary cultures from six astrocytic tumour specimens and used a double-staining flow cytometric method to detect the different levels of GFAP among these primary cultures. Although these primary cultures exhibited the same Matrigel invasiveness, their GFAP expression is inversely related to the rate of cell growth and the histologic grade of the original tumour. Phenylacetate, 12-O-tetradecanoylphorbol-13-acetate (TPA) and sodium butyrate, which are potent inducers of differentiation in various cancer cells, have been examined for their effects on these primary cultures. Cytostasis was more or less caused by these compounds in all six primary cultures, but induction of GFAP was observed only in the primary culture derived from a less malignant astrocytoma specimen having the highest intrinsic GFAP level. Interestingly, this primary culture, but not others, also exhibited increased HRG-α expression after phenylacetate or sodium butyrate treatment. Loss of the inducibility of differentiation-related gene expression could be one of the events involved in the malignant progression of astrocytomas. In addition, the chemotherapeutic agent BiCNU has a killing effect on all six primary culture cells, with LD50 less than 60nM. The underlying mechanism was through the induction of apoptosis in these primary culture cells regardless of their varying malignancies of original tumours. However, unlike colon cancer and leukaemia cells, sodium butyrate could not induce apoptosis within 4 days in these astrocytic tumour cells, indicating that the cell context of different cell types indeed determined the ability of sodium butyrate to induce apoptosis. This revised version was published online in June 2006 with corrections to the Cover Date.     

Production of antibodies specific to human chorionic gonadotropin in mice immunized against its chemical analogs

Mice immunized against DS₅-hCG-Β and DS₆-hCG-Β, chemical analogs of Β-subunit of human choriogonadotropin (hCG-Β) in which 5 and 6 disulphide bonds respectively were reduced and alkylated, were found to produce antibodies specific to hCG without significant crossreactivity with human lutropin (hLH) as tested in a radioimmunoassay. In contrast, mice immunized against the native hCG-Β subunit produced hLH crossreacting antibodies. While the anti-DS5, DS6-hCG-Β serum was capable of selectively blocking the binding of [¹²⁵I]-hCG to rat testicular LH/hCG receptors, it failed to inhibit the binding of [₁₂₅I]-hLH to the same receptors. The radioimmunoassay for hCG using the mouse anti-DS₅, DS₆-hCG-Β serum was not as sensitive as that employing rabbit anti-DS₅, DS₆-hCG-Β serum. The minimal detection limit was 5 ng/ml for the mouse antibody as compared to 1 ng/ml for the rabbit antibody. Supported by U.S. Public Health Service Grant HD 08766 to OPB. An erratum to this article is available at .     

DNA hypermethylation in sodium butyrate-treated WI-38 fibroblasts

Sodium butyrate is very often used to alter gene expression in cultured cells. In this study, we examined the effects of this compound on various cellular events in WI-38 human embryonic lung fibroblasts in culture. During a 16-20-h treatment at sodium butyrate concentrations of between 5 and 20 mM, no adverse effects on cell morphology were observed. However, cell division and DNA synthesis were reversibly inhibited, the latter by 85, 80, and 70% at sodium butyrate concentrations of 5, 10, and 20 mM, respectively. Although overall protein synthetic activity was not significantly affected, RNA synthesis decreased to 76% of the control values at a sodium butyrate concentration of 5 mM. Butyrate treatment also caused hypermethylation of DNA cytosines as determined by differential digestion by MspI/HpaII restriction endonucleases and by high performance liquid chromatography analysis of the DNA. The 5-methylcytosine content of the DNA in untreated WI-38 fibroblasts was 2.94 +/- 0.46% of total cytosine residues, while in cultures treated with 5, 10, and 20 mM sodium butyrate, these values were 5.76 +/- 0.28, 5.91 +/- 0.37, and 6.8 +/- 0.44%, respectively. An interesting feature is that this hypermethylation occurred in DNA which was synthesized in the presence of sodium butyrate (newly synthesized) as well as in DNA which had been synthesized before butyrate administration (pre-existing DNA). The hypermethylated state was conserved only in the former situation, since the methylcytosines were rapidly lost in the subsequent generation in the latter case. It would therefore appear that methylcytosines are maintained after cell replication only if they are generated on newly synthesized DNA.     

Nature of the difference in apparent molecular weights between the alpha subunit of urinary human chorionic gonadotropin and the alpha protein secreted by HeLa cells

The glycoprotein hormone alpha subunit secreted by HeLa cells has an apparent molecular weight greater than that of urinary chorionic gonadotropin alpha as determined by chromatography on Sephadex G-75 superfine. The difference in gel elution patterns between these proteins is not observed when the HeLa protein is first incubated under conditions employed to remove sialic acid (53 mM H₂SO₄, 80°C, 90 min). Because the modified tumor protein produces a dose-response curve parallel to those of the unmodified tumor protein and the urinary hCG subunit, and is readily bound by ricinagarose, it is concluded that the antigenicity of the protein has not been greatly altered and that the bulk of the carbohydrate side chains remain intact. These observations suggest that the greater apparent molecular weight of HeLa alpha compared to urinary hCG alpha may be due to an increase in the sialic acid content of the tumor protein.     

Induction of human choriogonadotropin and follitropin in HeLa cell cultures by hyperosmolality.

The growth of cervical carcinoma cell (HeLa) cultures in a hyperosmolar environment stimulates increased production of the onco-developmental peptides human choriogonadotropin (hCG) and follitropin (FSH). This effect was observed in two sublines examined in this study, HeLa65 and HeLa71. hCG and FSH were measured by radioimmunoassay using antiserum against the beta-subunit of the hormone dimer, thus insuring immunochemical specificity, The amounts of hCG and FSH produced by HeLa65 and HeLa71 cells cultured in hyperosmolar medium were 2- to 50-fold higher than corresponding hormone levels in basal cultures. Synthesis of gonadotropins depended on concentration and duration of exposure to hyperosmolar medium. Levels of culture medium osmolality effective in inducing hormone production also inhibit the incorporation of 14C-thymidine into acid-insoluble macromolecules. Hyperosmolality thus stimulates the ectopic production of gonadotropic hormones while retarding cellular growth and nucleic acid synthesis.     

Induction of alkaline phosphatase and the glycoprotein hormone α subunit in HeLa cells by inhibitors of DNA polymerase

Levels of the glycoprotein hormone α subunit and alkaline phosphatase activity were increased in cultures of HeLa S₃ cells exposed to aphidicolin (0.2–10 μg/ml) or phosphonoformic acid (0.1–3 mm), inhibitors of DNA polymerase α. Induction was dependent on both the concentration and duration of exposure to the inhibitors and was prevented by cycloheximide and actinomycin D. Limited characterization of the induced α subunit and alkaline phosphatase activity suggest that they are similar to the uninduced proteins expressed by this cell line. Induction of both proteins by aphidicolin and phosphonoformic acid was enhanced by the simultaneous addition of 3 mm sodium butyrate but was depressed by 1 mm hydroxy urea. In contrast, both butyrate and hydroxy urea cause induction of these proteins when added alone to HeLa cultures. It is unlikely that a direct relationship exists between protein induction and the inhibition of DNA synthesis produced by aphidicolin and phosphonoformic acid since the concentrations required to produce half-maximal induction are 5 to 10 times greater than those needed to inhibit replication by 50%.     

Mechanism of induction of human chorionic gonadotropin in lung tumor cells in culture. Increased levels of alpha-human chorionic gonadotropin-specific mRNA sequences and benzo(a)pyrene-induced hypomethylation

Human lung cells (ChaGo) derived from a bronchogenic carcinoma produce human chorionic gonadotropin (hCG), predominantly the alpha subunit of the glycoprotein hormone, under culture conditions. Treatment of the cells with the polycyclic aromatic hydrocarbons, benzo(a)pyrene (BaP) or dimethylbenzanthracene, at concentrations which do not affect cell growth or macromolecular synthesis, stimulates the production of hCG in these cells. The levels of alpha hCG-specific mRNA (mRNA alpha hCG) sequences in total poly(A)+ RNA isolated from control and drug-treated ChaGo cells are determined by the dot hybridization technique using 32P-labeled, cloned cDNA alpha hCG probe. A concentration-dependent increase in the levels of mRNA alpha hCG sequences in BaP or dimethylbenzanthracene-treated ChaGo cells has been observed. The increase in the level of mRNA alpha hCG sequences can be detected after treatment of the cells with either of the drugs for 24 h, and this level attains its maximum within 48-72 h following drug treatment. A comparative study of the restriction endonuclease (MspI/HpaII) digestion patterns of the control and BaP-treated cell DNA suggests that the internal "C" residues of the -CCGG- sequences in the alpha hCG gene of untreated cells are highly methylated; whereas the internal C residues of the same MspI/HpaII recognition sequences in the alpha hCG gene are comparatively less methylated in BaP-treated cell DNA.