Certain Styrene Oligomers Have Proliferative Activity on MCF-7 Human Breast Tumor Cells and Binding Affinity for Human Estrogen Receptor [Alpha].To examine the estrogenic activities of styrene sty·rene n. A colorless oily liquid from which polystyrenes, plastics, and synthetic rubber are produced. Also called vinylbenzene. oligomers, we carried out cell proliferation proliferation /pro·lif·er·a·tion/ (pro-lif?er-a´shun) the reproduction or multiplication of similar forms, especially of cells.prolif´erativeprolif´erous pro·lif·er·a·tion n. assays with estrogen-sensitive MCF-7 cells and competitive binding assays com·pet·i·tive binding assay n. An assay in which a biologically specific binding agent competes for radioactively labeled or unlabeled compounds, used especially to measure the concentration of hormone receptors in a sample by introducing a to human estrogen receptor estrogen receptor A protein of a superfamily of nuclear receptors for small hydrophilic ligands–eg, steroid hormones, thyroid hormone, vitamin D, retinoids; the presence of ERs in breast CA generally is associated with a better prognosis, as they respond to [Alpha] (hER[Alpha]) he styrene oligomers tested were 1,3-diphenyl propane propane, CH3CH2CH3, colorless, gaseous alkane. It is readily liquefied by compression and cooling. It melts at −189.9°C; and boils at −42.2°C;. (SD-1), 2,4-diphenyl-1-butene (SD-2), cis-1,2-diphenyl cyclobutane (SD-3), trans-1,2-diphenyl cyclobutane (SD-4), 2,4,6-triphenyl-1-hexene (ST-1), 1a-phenyl-4a-(1'-phenylethyl)tetralin (ST-2), 1a-phenyl-4e-(1'-phenylethyl)tetralin (ST-3), 1e-phenyl-4a-(1'-phenylethyl)tetralin (ST-4), 1e-phenyl-4e-(1'-phenylethyl)tetralin (ST-5), 1e,3e,5a-triphenylcyclohexane (ST-6), and 1e,3e,5e-triphenylcyclohexane (ST-7). In the MCF-7 cell proliferation assay, styrene trimers (ST-1, ST-3, ST-4, and ST-5) had the highest proliferative pro·lif·er·a·tive or pro·lif·er·ous adj. Tending to proliferate. proliferative pertaining to or emanating from proliferation. activities of the compounds tested. The relative potency of these chemicals was 0.0002-0.0015%, which was comparable with that of bisphenol A Bisphenol A is a chemical compound containing two phenol functional groups. It belongs to the phenol class of aromatic organic compounds. It is widely prepared and sold and various important polymers/plastics are made from it. (0.0001-0.0025%), and their relative proliferative effect was 51-104%. Styrene dimers (SD-3 and SD-4) also significantly increased the cell yields. However, SD-1, SD-2, ST-2, ST-6, and ST-7 had insignificant proliferative activities. The competitive binding assay revealed the binding affinity of some styrene oligomers for hER[Alpha]. The order of their binding potency for hER[Alpha] was as follows: ST-4 [is greater than] ST-2 [is greater than] ST-3 [is greater than] ST-5 [is greater than] ST-1 [is greater than] SD-3 [is greater than] SD-4 [is greater than] SD-2 [is greater than] SD-1. ST-6 and ST-7 did not appear to bind to to contract; as, to bind one's self to a wife s>. See also: Bind hER[Alpha]. The present studies indicate that styrene dimers SD-3 and SD-4 and styrene trimers ST-1, ST-3, ST-4, and ST-5 have estrogenic activity on MCF-7 cells and binding affinity for hER[Alpha]. These compounds might be endocrine endocrine /en·do·crine/ (en´do-krin, en´do-krin) 1. secreting internally. 2. pertaining to internal secretions; hormonal. See also under system. en·do·crine adj. disrupters. Key words: binding affinities, cell proliferative activities, estrogenic activities, human estrogen receptor [Alpha], MCF-7 cells, styrene oligomers. Environ Health Perspect 109:699-703 (2001). [Online 29 June 2001] http://ehpnet1.niehs.nih.gov/docs/2001/109p699-703ohyama/abstract.html Polystyrene used for food containers, such as takeout Takeout A financing to refinance or take out another loan. food containers, coffee cups, meat trays, soup bowls, and salad boxes (1), contains high levels of styrene dimers (90-1,030 [micro]g/g) and styrene trimers (650-20,770 [micro]g/g) as impurities (2,3). These styrene oligomers migrate from the polystyrene containers into the containers' contents (4-6). When polystyrene containers containing vegetable oil were treated by heating in a microwave oven or were incubated for 24 hr at 20 [degrees] C, a styrene dimer dimer /di·mer/ (di´mer) 1. a compound formed by combination of two identical molecules. 2. a capsomer having two structural subunits. di·mer n. 1. , 2,4-diphenyl-1-butene (SD-2; 0-1.6 ng/[cm.sup.2]) and styrene trimers 2,4,6-triphenyl-1-hexene (ST-1; 1.3-69.7 ng/[cm.sup.2]), 1a-phenyl-4a-(1'-phenylethyl)tetralin (ST-2; 9.2-156 ng/[cm.sup.2]), 1a-phenyl-4e-(1'-phenylethyl)tetralin (ST-3; 18.1-501 ng/[cm.sup.2]), 1e-phenyl-4a-(1'-phenylethyl)tetralin (ST-4; 13.9-294 ng/[cm.sup.2]), and 1e-phenyl-4e-(1'-phenylethyl)tetralin (ST-5; 18.7-306 ng/[cm.sup.2]) migrated into the vegetable oil (4). When instant foods such as Chinese noodles Chinese noodles are an essential ingredient and staple in Chinese cuisine. There is a great variety of noodles, which vary according to their region of production, ingredients, shape or width, and manner of preparation. , Japanese noodles Noodles are a popular item in Japanese cuisine. Varieties include:
n. A narrow, ribbonlike strip of dried dough, usually made of flour, eggs, and water. [German Nudel. , chow mein, spaghetti, and rice were packed in polystyrene containers, styrene trimers ST-1 (0-8.1 [micro]g/cup), ST-2 + ST-3 (0-13.8 [micro]g/cup), ST-4 (0-5.2 [micro]g/cup), and ST-5 (0-8.4 [micro]g/cup) migrated (0-33.8 [micro]g total styrene oligomers detected in a cup) from the containers into the foods after cooking in the cups, but the dimers did not (5). The maximum quantity of styrene trimers that migrated from containers to foods was higher than that of bisphenol A leached from the lacquer lacquer, solution of film-forming materials, natural or synthetic, usually applied as an ornamental or protective coating. Quick-drying synthetic lacquers are used to coat automobiles, furniture, textiles, paper, and metalware. coating of vegetable cans (4-23 [micro]g/can) (7). Colborn et al. (8) designated styrene dimers and trimers as endocrine disrupters in the Wingspread statement, and the Environmental Agency, Government of Japan, cited styrene dimers and trimers as compounds suspected of having endocrine-disruptive effects in its Strategic Programs on Environmental Endocrine Disrupters (9). However, styrene oligomers were reported to have no endocrine disruptive effect both in a MCF-7 cell proliferation assay (10) and in a radioisotope radioisotope: see radioactive isotope. Radioisotope (biology) A radioactive isotope used in studying living systems, such as in the investigation of metabolic processes. (RI) receptor competitive-binding assay using rat estrogen receptor (10,11). Therefore, we tested 11 styrene oligomers including those found in food (4,5) in a proliferation assay at an optimal initial cell concentration using human breast tumor tumor: see neoplasm. , highly estrogen-sensitive MCF-7 cells. We also examined the binding potency of these styrene oligomers to human estrogen receptor [Alpha] (hER[Alpha]) in a non-RI receptor competitive-binding assay. Materials and Methods Chemicals. The styrene dimers 1,3-diphenyl propane (SD-1), SD-2, cis-1,2-diphenyl cyclobutane (SD-3), and trans-1,2-diphenyl cyclobutane (SD-4) and styrene trimers ST-1, ST-2, ST-3, ST-4, ST-5, 1e,3e,5a-triphenylcyclohexane (ST-6), and 1e,3e,5e-triphenylcyclohexane (ST-7) were purchased from Hayashi Pure Chemical Industry. (Osaka, Japan). The positive control, 17[Beta]-estradiol ([E.sub.2]), was obtained from Calbiochem (Richmond, CA, USA). The chemical structures of these compounds are shown in Figure 1, and the purity of the compounds is summarized in Table 1. [ILLUSTRATION OMITTED]
Table 1. Data on tested chemicals
Original
concentration (mM)
Ethanol DMSO
solu- solu- Purity
Compound tion(a) tion(b) Supplier (code no.) (%)(c)
[E.sub.2] 0.001 0.1 Calbiochem (3301) > 99.5
SD-1 10 100 Hayashi PC (990-52331) 97.9
SD-2 10 100 Hayashi PC (990-52334) 99.0
SD-3 10 100 Hayashi PC (990-52332) 99.9
SD-4 10 100 Hayashi PC (990-52333) 99.4
ST-1 10 10 Hayashi PC (990-52335) 98.2
ST-2 1 1 Hayashi PC (990-52336) 98.2
ST-3 10 10 Hayashi PC (990-52337) 99.9
ST-4 10 10 Hayashi PC (990-52338) 99.5
ST-5 10 10 Hayashi PC (990-52339) 99.2
ST-6 10 3.6 Hayashi PC (990-52387) 99.6
ST-7 1 10 Hayashi PC (990-52388) 99.5
(a) Ethanol solution was used for MCF-7 cell proliferation assay.
(b) DMSO solution was used for competitive binding assay.
(c) purity of the chemicals as reported by the suppliers.
Solvent for styrene oligomers. Styrene oligomers and [E.sub.2] were dissolved in ethanol for the MCF-7 cell proliferative assay. Styrene oligomers were dissolved in ethanol at the concentration of [10.sup.-2] M, except for ST-2 and ST-6, which were dissolved at [10.sup.-3] M due to the lower solubility solubility Degree to which a substance dissolves in a solvent to make a solution (usually expressed as grams of solute per litre of solvent). Solubility of one fluid (liquid or gas) in another may be complete (totally miscible; e.g. of these compounds. The cell proliferation assay was performed at [is less than or equal to] [10.sup.-5] M styrene oligomers. For a competitive binding assay, styrene oligomers and [E.sub.2] were dissolved in dimethyl sulfoxide dimethyl sulfoxide (DMSO) Colourless, nearly odourless liquid organic compound. It mixes in all proportions with water, ethanol, and most organic solvents and dissolves a wide variety of compounds (but not aliphatic hydrocarbons). (DMSO DMSO dimethyl sulfoxide. DMSO n. Dimethyl sulfoxide; a colorless hygroscopic liquid obtained from lignin, used as a penetrant to convey medications into the tissues. DMSO, n. ). The assay was performed at [is less than or equal to] 5 x [10.sup.-3] M styrene oligomers. Glass Pasteur capillary capillary (kăp`əlĕr'ē), microscopic blood vessel, smallest unit of the circulatory system. Capillaries form a network of tiny tubes throughout the body, connecting arterioles (smallest arteries) and venules (smallest veins). pipettes were used in handling the chemical solutions. Culture medium. Dulbecco's modification of Eagle's Medium (DME (Distributed Management Environment) A network monitoring and control protocol defined by the Open Software Foundation (now The Open Group). DME was not widely used. DME - Distributed Management Environment ) containing phenol red phenol red n. A bright to dark red, water-soluble crystalline dye used as an acid-base indicator and to test kidney function and renal blood flow. Also called phenolsulfonphthalein. and fetal bovine serum Fetal bovine serum ( or foetal bovine serum) is serum taken from the fetuses of cows. Fetal Bovine Serum (or FBS) is the most widely used serum in the culturing of cells. In some papers the expression foetal calf serum is used. (FBS FBS abbr. fasting blood sugar FBS Fasting blood sugar. See Fasting glucose. ) were purchased from Nissui (Tokyo, Japan) and Hyclone (Logan, UT, USA), respectively. Phenol phenol (fē`nōl), C6H5OH, a colorless, crystalline solid that melts at about 41°C;, boils at 182°C;, and is soluble in ethanol and ether and somewhat soluble in water. red-free DME (Cat. no. 23800-022) was obtained from Gibco BRL BRL In currencies, this is the abbreviation for the Brazilian Real. Notes: The currency market, also known as the Foreign Exchange market, is the largest financial market in the world, with a daily average volume of over US $1 trillion. (Grand Island, NY, USA) Removal of sex steroids Sex steroids, also known as gonadal steroids, are steroid hormones that interact with vertebrate androgen or estrogen receptors. The term sex hormone nearly always is synonymous with sex steroid. by charcoal-dextran treatment of serum. We removed sex steroids from FBS by charcoal-dextran stripping (CDFBS) (12). Charcoal and dextran dextran /dex·tran/ (dek´stran) a high-molecular-weight polymer of d-glucose, produced by enzymes on the cell surface of certain lactic acid bacteria. T70 were purchased from Sigma (St. Louis, MO, USA) and Amersham Pharmacia Biotech bi·o·tech n. Informal Biotechnology. biotech Noun short for biotechnology Noun 1. (Uppsala, Sweden), respectively. Cell line and cell culture conditions. Estrogen-sensitive human breast tumor MCF-7 cells were provided by Ana M. Soto (Tufts University School of Medicine The Tufts University School of Medicine is one of the eight schools that comprise Tufts University. Located on the university's health sciences campus in the Chinatown district of Boston, Massachusetts, the medical school has clinical affiliations with thousands of doctors and , Boston, MA, USA). For routine maintenance, cells were grown in 5% FBS medium (DME with phenol red supplemented with 80 mg/L kanamycin kanamycin /kan·a·my·cin/ (kan?ah-mi´sin) an aminoglycoside antibiotic derived from Streptomyces kanamyceticus, effective against aerobic gram-negative bacilli and some gram-positive bacteria, including mycobacteria; used as the , 50 mg/L gentamycin, 4 mM L-glutamine, 2.24 g/L sodium hydrogen carbonate sodium hydrogen carbonate: see sodium bicarbonate. , and 5% FBS) in an atmosphere of 5% C[O.sub.2]/95% air with saturating humidity at 37 [degrees] C. Cells were subcultured every 2 weeks. The cells detached by 0.05% trypsin trypsin, enzyme that acts to degrade protein; it is often referred to as a proteolytic enzyme, or proteinase. Trypsin is one of the three principal digestive proteinases, the other two being pepsin and chymotrypsin. were plated at an initial concentration of 12,500 cells/mL. The 5% FBS medium in the cell cultures was replaced with fresh medium twice a week. MCF-7 cell proliferation assay. Phenol red-free DME 8.3 g/L was supplemented with 1 g/L glucose, 110 mg/L sodium pyruvate Sodium pyruvate is commonly added to cell culture media as an additional source of energy, but may also have protective effects against hydrogen peroxide. This was reported by Giandomenico et al.[1] and has been confirmed by several independent groups. , 80 mg/L kanamycin, 50 mg/L gentamycin, and 12 mM HEPES HEPES N-2-Hydroxyethylpiperazine-N'-2-Ethanesulfonic Acid (plain DME). The 5% CDFBS medium for proliferation assay consisted of plain DME, 4 mM L-glutamine, 2.24 g/L sodium hydrogen carbonate, and 5% CDFBS. The E-SCREEN assay to evaluate MCF-7 cell proliferation was performed according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. a technique modified from that originally described by Soto et al. (13). Briefly, MCF-7 cells cultured for 11 days were trypsinized and plated in 24-well plates (Falcon, Franklin Lakes, NJ, USA) at an initial concentration of 40,000 cells/mL of 5% FBS medium/well. After the cells were allowed to attach for 24 hr, 0.9 mL of 5% CDFBS medium was substituted for the seeding medium. The solution of chemicals in ethanol was diluted with plain DME to various concentrations, and 0.1 mL of that was added in wells. The ethanol concentration in culture medium did not exceed 0.1%. The cells were cultured for 6 days in an atmosphere of 5% [CO.sub.2]/95% air with saturating humidity at 37 [degrees] C. The medium was not changed at all over the course of the experiment. The assay was terminated by removing the medium from wells. We calculated the number of cells by measuring the amount of protein stained with sulforhodamine-B (SRB; Wako PC, Osaka, Japan) as described by Brotons et al. (7) and Villalobos et al. (14). In this assay, the cell yield in [10.sup.-10] M [E.sub.2] was 3.6-fold (SD = 0.825) higher than the solvent control. Differences between the values obtained in the presence of the test chemicals and those obtained in the solvent controls were assessed using the Newman-Keuls test. A p-value of [is less than] 0.01 was regarded as significant. Competitive binding assay. The binding potency of test chemicals to hER[Alpha] was measured by non-RI receptor binding assay using the Estrogen-R([Alpha]) Competitor Screening Kit (Wako PC) according to the manufacturer's instructions. Briefly, the test chemical dissolved in DMSO and other reagents including fluorescence-labeled [E.sub.2] were mixed and competitively bound to the hER[Alpha] coated on the microplate wells (15). DMSO was not effective in this assay. The fluorescence fluorescence (fl  rĕs`əns), luminescence in which light of a visible color is emitted from a substance under stimulation or excitation by light or other forms of electromagnetic intensity was measured at excitation excitationAddition of a discrete amount of energy to a system that changes it usually from a state of lowest energy (ground state) to one of higher energy (excited state). For example, in a hydrogen atom, an excitation energy of 10. (485 nm) and emission (535 nm) with a fluorescence microplate reader apparatus, Spectra Fluo (Tecan, Austria). We calculated the binding levels of the chemicals to hER[Alpha] from the decrease of fluorescence intensity. Results MCF-7 cell proliferation assay. We compared the increase of cell yield obtained at different concentrations of test chemicals with that obtained in [10.sup.-10] M [E.sub.2] (Figure 2). The increase of cell yield with [10.sup.-10] M [E.sub.2] (= the cell yield in [10.sup.-10] M [E.sub.2] -- the cell yield in the solvent control) was expressed as 100%. Data were expressed as the means [+ or -] SDs of three independent assays performed in triplicate. This cell proliferation assay was performed at [is less than or equal to] [10.sup.-5] M styrene oligomers because of low solubility in culture media. E[C.sub.50] is the concentration of test compound that produces 50% of the increase of cell yield by [10.sup.-10] M [E.sub.2]. The values of relative potency (RP), defined as the ratio of the E[C.sub.50] of [E.sub.2] to that of the test compound, and the values of relative proliferative effect (RPE RPE Retinal Pigment Epithelium RPE Rating of Perceived Exertion (exercise) RPE Respiratory Protective Equipment RPE Regular Pulse Excitation RPE Registered Professional Engineer RPE Rapid Palatal Expansion ), defined as the ratio of the highest increase of cell yield obtained with the test compound to that with [10.sup.-10] M [E.sub.2], are shown in Table 2. Results are summarized below: [ILLUSTRATION OMITTED]
Table 2. Estrogenic effects of styrene oligomers.
MCF-7 cell proliferation assay
Compound [EC.sub.50] (M)(a) RP (%)(b) RPE (%)(c)
[E.sub.2] 1.4 x [10.sup.-11] 100 100
SD-1 NE -- --
SD-2 NE -- --
SD-3 R < 50 -- 31
SD-4 R < 50 -- 29
ST-1 9.5 x [10.sup.-7] 0.0015 81
ST-2 NE -- --
ST-3 2.9 x [10.sup.-6] 0.0005 86
ST-4 2.3 x [10.sup.-6] 0.0006 104
ST-5 9.5 x [10.sup.-6] 0.0002 51
ST-6 NE -- --
ST-7 NE -- --
Competitive binding assay
Compound [IC.sub.20] (M)(d) RBA (%)(e)
[E.sub.2] 6.0 x [10.sup.-11] 100
SD-1 1.2 x [10.sup.-4] 0.005
SD-2 7.6 x [10.sup.-5] 0.008
SD-3 2.4 x [10.sup.-6] 0.025
SD-4 5.6 x [10.sup.-6] 0.011
ST-1 1.2 x [10.sup.-5] 0.05
ST-2 6.2 x [10.sup.-6] 0.097
ST-3 9.7 x [10.sup.-6] 0.062
ST-4 2.6 x [10.sup.-6] 0.228
ST-5 1.0 x [10.sup.-6] 0.058
ST-6 NE --
ST-7 NE --
(a) [EC.sub.50], the concentration of test compound producing 50%
of the increase of cell yield by [10.sup.-10] M [E.sub.2]; NE, value
could not be estimated from the response curve; R < 50, maximal
response observed for the test chemical at the concentrations
tested was below 50%. (b) RP = [([EC.sub.50] of [E.sub.2]) /
([EC.sub.50] of the test compound)] x 100. (c) RPE = [(the highest
cell yield obtained with the test compound) / (the cell yield
obtained with the solvent control)-1] + [(the cell yield obtained
with [10.sup.-10] M [E.sub.2]) / (the cell yield obtained with the
solvent control) -1] x 100. (d) [IC.sub.20] = the concentration of
test chemicals for 20% inhibition of binding of fluorescence-labeled
[E.sub.2] to ER[Alpha]. (e) RBA = ([IC.sub.20] of [E.sub.2]) /
([IC.sub.20] of the test compound) x 100.
* SD-1 and SD-2: No effect was observed at [10.sup.-8], [10.sup.-7], and [10.sup.-6] M; however, a slight increase of cell yield was found in [10.sup.-5] M. * SD-3: Significant cell proliferation (p [is less than] 0.01) was induced by this compound at [is greater than or equal to] [10.sup.-6] M, and the highest cell yields were obtained at [10.sup.-5] M. RPE was 31%. * SD-4: A slight increase in cell yield appeared at [10.sup.-6] M, and significant cell proliferation (p [is less than] 0.01) was induced by this chemical at [10.sup.-5] M; RPE was 29%. * ST-1: Significant cell proliferation (p [is less than] 0.01) was induced at [is greater than or equal to] [10.sup.-6] M. The highest cell yields were obtained at [10.sup.-5] M; therefore, RP and RPE were 0.0015% and 81%, respectively. * ST-2: The cell yield decreased at [10.sup.-8] and [10.sup.-7] M compared to that in the solvent control. A slight increase in cell yields was found at [10.sup.-6] M; at [is greater than] [10.sup.-5] M, the effect on proliferation could not be examined due to the insolubility in·sol·u·ble adj. 1. That cannot be dissolved: insoluble matter. 2. Difficult or impossible to solve or explain; insolvable: insoluble riddles. of this chemical. * ST-3: Significant cell proliferation (p [is less than] 0.01) was induced by this chemical at [is greater than or equal to] [10.sup.-6] M, and the highest cell proliferation was observed at [10.sup.-5] M. RP and RPE were 0.0005% and 86%, respectively. * ST-4: Significant cell proliferation (p [is less than] 0.01) was induced at [10.sup.-6] M, and the highest cell proliferation was observed at [10.sup.-5] M. RP and RPE were 0.0006% and 104%, respectively, the highest of the tested styrene oligomers. * ST-5: An increase in cell yields was seen from [10.sup.-6] M, and significant cell proliferation (p [is less than] 0.01) was caused by this compound at [10.sup.-5] M. RP and RPE were 0.0002% and 51%, respectively. * ST-6 and ST-7: These chemicals decreased cell yields. Binding of styrene oligomers to hER[Alpha]. The inhibition of the binding of fluorescence-labeled [E.sub.2] to hER[Alpha] by various concentrations of tested compounds is shown in Figure 3. The inhibition by styrene dimers (SD-1, SD2, SD-3, and SD-4) was detected at [is greater than or equal to] 5 x 10-5 M, and was concentration dependent. The maximum inhibition was 51-76% by each compound at 5 x 10-4 M. The inhibition by styrene trimers (ST-1, ST-2, ST-3, ST-4, and ST-5) was detected at [is greater than or equal to] 5 x [10.sup.-6] M. This concentration (5 x [10.sup.-6] M) was lower by one order of magnitude A change in quantity or volume as measured by the decimal point. For example, from tens to hundreds is one order of magnitude. Tens to thousands is two orders of magnitude; tens to millions is three orders of magnitude, etc. than the concentrations of styrene dimers that caused comparable inhibition. However, complete inhibition could not be obtained. The maximum inhibition was 28-44% at 5 x [10.sup.-5] M. Inhibition by [E.sub.2] as a positive control was detected starting at the lower concentration of 5 x [10.sup.-9] M and was concentration dependent. [E.sub.2] at 5 x [10.sup.-7] M caused 86% inhibition. A slight inhibition by ST-6 was seen at 1.8 x [10.sup.-5] M. ST-7 could not cause inhibition at any concentration. Styrene trimers were insoluble insoluble /in·sol·u·ble/ (in-sol´u-b'l) not susceptible of being dissolved. in·sol·u·ble adj. Not soluble. at [is greater than] 5 x [10.sup.-4] M in the reaction solution containing fluorescence-labeled [E.sub.2]. The concentration for 20% inhibition of the binding ([IC.sub.20]) and the ratio of [IC.sub.20] of [E.sub.2] to that of each styrene oligomer oligomer /ol·i·go·mer/ (ol´i-go-mer) a polymer formed by the combination of relatively few monomers. oligomer ( (relative binding affinity; RBA RBA Rare Bird Alert RBA Reserve Bank of Australia RBA Run Book Automation RBA Rochester Business Alliance RBA Rights-Based Approach RBA Royal Brunei Airlines (ICAO code) RBA Relative Byte Address RBA relative binding affinity ) are shown in Table 2. The RBAs of styrene dimers SD-1, SD-2, SD-3, and SD-4 were 0.005, 0.008, 0.025, and 0.011%, respectively, and those of styrene trimers ST-1, ST-2, ST-3, ST-4, and ST-5 were 0.05, 0.097, 0.062, 0.228, and 0.058%, respectively. The styrene trimers, except for ST-6 and ST-7, had relatively high affinity for hER[Alpha]. [ILLUSTRATION OMITTED] Discussion We demonstrated that proliferation of MCF-7 cells was induced by styrene oligomers such as SD-3, SD-4, ST-1, ST-3, ST-4, and ST-5. The maximal proliferation occurred at a [10.sup.-5] M concentration of styrene oligomers. ST-1, ST-3, ST-4, or ST-5 produced complete concentration-response curves up to [10.sup.-5] M in the MCF-7 cell proliferation assay. ST-4 had the highest proliferative activity among the tested styrene oligomers and was a full agonist agonist /ag·o·nist/ (ag´ah-nist) 1. one involved in a struggle or competition. 2. agonistic muscle. 3. . ST-1, ST-3, and ST-5 had relatively high activity (RPE = 51-81%). The RP of styrene trimers ST-1, ST-3, ST-4, and ST-5 was 0.0002-0.0015% in the MCF-7 cell proliferation assay; these values were comparable to that of bisphenol A (0.0001-0.0025%) (16) and higher than that of 4-n-nonylphenol (RP = 0.000008-0.00007%) (16). The proliferative activities of styrene dimers were weaker than those of styrene trimers. Nobuhara et al. (10) reported that SD-3, SD-4, ST-1, and a mixture of tetralin ring trimers were not able to induce the proliferation of MCF-7 cells. They used MCF-7 cells (American Type Culture Collection American Type Culture Collection (ATCC) is a private, not-for-profit biological resource center whose mission focuses on the acquisition, authentication, production, preservation, development and distribution of standard reference microorganisms, cell lines and other materials for ; ATCC ATCC American Type Culture Collection, see there ) purchased from Dainippon P. (Osaka, Japan) at an initial cell concentration of 2 x [10.sup.4] cells/well in 12-well plates. Villalobos et al. (14) reported that MCF-7 supplied by A.M. Soto had the highest proliferative response to [E.sub.2], and that the ATCC strain responded to [E.sub.2] with a much smaller increase in cell yield. They also reported that ATCC MCF-7 cells should not be used in cell proliferation tests such as the E-SCREEN assay (14). Our results were obtained using MCF-7 cells provided by A.M. Soto at an initial concentration of 4 x 104 cells/well in 24-well plates. We confirmed that the initial concentration of 4 x [10.sup.4] cells/well in 24-well plates was optimal for cell proliferation assays and a concentration [is less than] 2 x [10.sup.4] cells/well in 24-well plates tended to increase the minimal concentration of test compound needed for maximal cell yield and the value of E[C.sub.50] (17). Styrene trimers such as ST-1, ST-2, ST-3, ST-4, and ST-5 and styrene dimers such as SD-1, SD-2, SD-3, and SD-4 had binding affinity for hER[Alpha]. RBAs of ST-1, ST-3, ST-4, and ST-5 were higher than those of SD-1, SD-2, SD-3, and SD-4, although the high affinity for hER[Alpha] was revealed at 5 x [10.sup.-4] M styrene dimers. It seems that styrene trimers at [is greater than or equal to] 5 x [10.sup.-5] M had low solubility in the reaction solution. We found that the binding potency of styrene trimers except for ST-6 and ST-7 were higher than that of styrene dimers. ST-2 had binding affinity for hER[Alpha] and the RBA was higher than that of ST-1, ST-3, and ST-5, which had strong proliferative activity, although the proliferative activity was not significant. ST-2 may be estrogenic, although the proliferative activity could not be ascertained due to extremely low solubility in the solvent for the MCF-7 cell proliferation assay. We do not think that ST-6 and ST-7 are estrogenic because the values could not be estimated from the response curves in the cell proliferative assay and the competitive binding assay. Azuma et al. (11) and Nobuhara et al. (10) reported that SD-1, SD-3, SD-4, ST-1, ST-2, ST-3, and ST-5 had no affinity for ER in an RI competitive binding assay. Although they examined the binding affinity of styrene oligomers at [is less than or equal to] [10.sup.-5] M for ER of rat uterus, we tested them at the concentrations up to 5 x [10.sup.-3] or 5 x [10.sup.-4] M for purified human ER [Alpha]. If they had tested at a concentration [is greater than] 5 x [10.sup.-5] M, the binding activity would have been observed. Estrogenic activities of styrene trimers differed depending on their chemical structures. Styrene trimers with a linear structure (ST-1) and a tetralin structure (ST-2, ST-3, ST-4, and ST-5) had estrogenic activity, but those with a cyclohexane cyclohexane (sī'kləhĕk`sān), C6H12, colorless liquid hydrocarbon. It is a cyclic alkane that melts at 6°C; and boils at 81°C;. It is nearly insoluble in water. structure (ST-6 or ST-7) did not. The value of RPE from the MCF-7 cell proliferation assay correlated with the value of RBA from the competitive binding assay. This result suggested that the cell proliferative effect of these styrene oligomers was caused by their binding to hER[Alpha]. Styrene trimers such as ST-1, ST-3, ST-4, and ST-5 tested here moved from containers into foods upon heat treatment, preservation for 24 hr at 20 [degrees] C, or cooking (3,4), and they are incorporated into the body with the foods. The present study demonstrated that styrene oligomers, particularly styrene trimers such as ST-1, ST-3, ST-4, and ST-5, had relatively high estrogenic activities in the MCF-7 cell proliferation assay and the competitive binding assay. These compounds might be endocrine disrupters. The effects of styrene trimers on uteri have not been found in in vivo in vivo /in vi·vo/ (ve´vo) [L.] within the living body. in vi·vo adj. Within a living organism. in vivo adv. studies using 21-day-old rats (10). However, fetuses are more vulnerable to estrogenic chemicals than are adults. The hormonal effects of these styrene trimers with regard to reproduction and the nervous system should be investigated using experimental animals, particularly in embryos in an incipient or undeveloped state; in conception, but not yet executed. - Swift. See also: Embryo . REFERENCES AND NOTES (1.) PSPC-Polystyrene Facts. Available: http://www.polystyrene.org/facts.html [cited 14 October 2000]. (2.) Kawamura Y, Sugimoto N, Takeda Y, Yamada T. Identification of unknown substances in food contact polystyrene. J Food Hyg Soc Jpn 39:110-119 (1998). (3.) Kawamura Y, Kawamura M, Takeda Y, Yamada T. Determination of styrene dimers and trimers in food contact polystyrene. J Food Hyg Soc Jpn 39:199-205 (1998). (4.) Sakamoto H, Matsuzawa A, Itoh R, Tohyama Y. Quantitative analysis Quantitative Analysis A security analysis that uses financial information derived from company annual reports and income statements to evaluate an investment decision. Notes: of styrene dimer and trimers migrated from disposable lunch boxes. J Food Hyg Soc Jpn 41:200-205 (2000). (5.) Kawamura Y, Nishi K, Maehara T, Yamada T. Migration of styrene dimers and trimers from polystyrene containers into instant foods. J Food Hyg Soc Jpn 39:390-398 (1998). (6.) Kaneko R, Watanabe Y, Funayama K, Kabashima J, Saito K. Survey of styrene dimers and trimers in polystyrene equipment and packages for food. Ann Rep Tokyo Metr Res Lab P H 50:208-214 (1999). (7.) Brotons JA, Olea-Serrano MF, Villalobos M, Pedraza V, Olea N. Xenoestrogens released from lacquer coatings in food cans. Environ Health Perspect 103:608-612 (1995). (8.) Our Stolen Future: 1991 Wingspread Statement on Chemically-induced Alterations in Sexual Development. Available: http://www.ourstolenfuture.org/Consensus/wingspread1.htm [cited 5 December 2000]. (9.) Strategic Programs on Environmental Endocrine Disrupters '98. Tokyo, Japan:Environment Agency, Government of Japan, 1998. (10.) Nobuhara Y, Hirano S, Azuma Y, Date K, Ohno K, Tanaka K, Matsushiro S, Sakurai T, Shiozawa S, Chiba M, et al. Biological evaluation of styrene oligomers for endocrine-disrupting effects. J Food Hyg Soc Jpn 40:36-45 (1999). (11.) Azuma Y, Nobuhara Y, Date K, Ohno K, Tanaka K, Hirano S, Kobayashi K, Sakurai T, Chiba M, Yamada T. Biological evaluation of styrene oligomers for endocrine-disrupting effects (II). J Food Hyg Soc Jpn 41:109-115 (2000). (12.) Soto AM, Sonnenschein C. The role of estrogens Estrogens Hormones produced by the ovaries, the female sex glands. Mentioned in: Acne, Polycystic Ovary Syndrome estrogens (es´trōjenz), n. on the proliferation of human breast tumor cells (MCF-7). J Steroid Biochem 23:87-94 (1985). (13.) Soto AM, Lin TM, Justicia H, Silvia RM, Sonnenschein C. An "in culture" bioassay Bioassay A method for the quantitation of the effects on a biological system by its exposure to a substance, as well as the quantitation of the concentration of a substance by some observable effect on a biological system. to assess the estrogenicity of xenobiotics (E-screen). In: Chemically-induced Alterations in Sexual and Functional Development: the Wildlife/human Connection, Vol 21 (Colborn T, Clement C, eds). Princeton, NJ:Princeton Scientific Publishing, 1992;295-309. (14.) Villalobos M, Olea N, Bretons JA, Olea-Serrano MF, Ruiz de Almodovar JM, Pedraza V. The E-SCREEN assay: a comparison of different MCF-7 cell stocks. Environ Health Perspect 103:844-850 (1995). (15.) Nishibe T, Hirayasu K, Date M, Tanaka I. A simple assay for endocrine disrupters by using hER[Alpha] immobilized microplate and fluorescence labeled estradiol estradiol /es·tra·di·ol/ (es?trah-di´ol) (es-tra´de-ol) the most potent estrogen in humans; pharmacologically, it is often used in the form of its esters (e.g., e. cypionate, e. . 2nd Annual Meeting of Japan Society of Endocrine Disrupter Research, 9-10 December 1999, Kobe, Japan. Tsukuba, Japan:Japan Society of Endocrine Disrupters Research, 1999;15. (16.) Andersen HR, Andersson A-M A-M Alternating Maximization (algorithm) , Arnold SF, Autrup H, Barfoed M, Beresford NA, Bjerregaard P, Christiansen LB, Hummel hummel entire, naturally polled deer. R, Jorgensen EB, et al. Comparison of short-term estrogenicity tests for identification of hormone-disrupting chemicals. Environ Health Perspect 107(suppl 1):89-108 (1999). (17.) Ohyama K, Hamaoka A, Yamamoto T, Takeuchi M, Tsuchiya Y. Effects of initial cell concentration on E-SCREEN assay. Ann Rep Tokyo Metr Res Lab PH 51:239-242 (2000). Address correspondence to K. Ohyama, Department of Environmental Health, Tokyo Metropolitan Research Laboratory of Public Health, 24-1, Hyakunincho 3 chome, Shinjuku-ku, Tokyo 169-0073, Japan. Telephone: 81-3-3363-3231. Fax: 81-3-3368-4060. E-mail: ohyama@tokyo-eiken.go.jp We thank A. Hamaoka and T. Yamamoto for technical assistance. Received 6 December 2000; accepted 5 February 2001. Ken-ichi Ohyama,(1) Fumiko Nagai,(1) and Yoshiteru Tsuchiya(2) (1) Department of Environmental Health, Tokyo Metropolitan Research Laboratory of Public Health, Tokyo, Japan; (2) Department of Applied Chemistry, Kogakuin University, Tokyo, Japan |
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