The micronucleus test and erythropoiesis: effects of cyclic adenosine monophosphate (cAMP) on micronucleus formation

The aim of this study was to determine the mechanism of the rodent bone marrow micronucleus test in relation to erythropoiesis. We have previously reported that an acceleration of erythropoiesis increases the frequency of micronucleated polychromatic erythrocytes (MPCE) induced by mutagens. The blood plasma erythropoietin level increased after the injection of N6-2-O-dibutyladenosine-3',5'-cyclic monophosphate into adenosine 3',5'-cyclic monophosphate (cAMP) at a dose of 500 mg/kg. A peak of erythropoietin induction was observed 3 h after the injection of cAMP. cAMP itself did not induce any micronuclei in erythroblasts of BALB/c mice. So, the frequency of MPCE did not increase after injection of cAMP. The highest frequency of MPCE and the dose-response relationship between the cAMP doses and micronucleus frequency were observed 30 h after injection of mitomycin C (MMC) in mice which had been administered cAMP 24 h previously. The highest effect of cAMP on the increase of MPCE was observed when cAMP was given 24 h before MMC injection, thus indicating that accelerating the multiplication of erythroblasts increases the frequency of MPCE induced by mutagens. The induction of MPCE in the bone marrow by three other chemicals (carboquone, 5-fluorouracil, and vincristine) also increased after pretreatment with cAMP. Our results suggest that the increase of MPCE induced by mutagens can be amplified following the acceleration of erythropoiesis by pretreatment with cAMP.     

Effects of prostaglandin E2 on the micronucleus formation in mouse bone marrow cells by various mutagens

The effects of prostaglandin E₂ (PGE)₂, as trigger of erythroid progenitor cells into the cell cycle, were studied on the induction of micronucleu by various mutagens; with mitomicin C (MMC) the optimal protocol was established. dose-response relationship between PGE₂ doses and micronucleus frequency were observed 30 h after injection of MMC to mice administered PGE₂ 24 h previously. Sensitazion by PGE₂ pretreatment was also found for other mutagens, such as vincristine, 5-fluorouracil, benzo[a]pyrene, 1,1-dimethylhydrazine and 2-naphthylamine. These results support the hypothesis that accelerating the erythropoiesis increases the frequency of micronucleic induced by mutagens.     

Teniposide (VM-26) treatment enhances the radiation-induced micronuclei in the bone marrow of mouse

The effect of Teniposide (VM-26) pretreatment was studied on the micronuclei induction in the bone marrow of mice exposed to 0, 0.5, 1, 2 and 3 Gy of gamma radiation at 12, 24 and 36 h post-irradiation. Administration of 0.05 mg/kg body weight of VM-26 to mice before irradiation resulted in the significant enhancement of micronucleated polychromatic erythrocytes (MPCE) at 12, 24 and 36 h post-irradiation. Highest elevation in the frequency of MPCE was observed in VM-26+irradiation group after exposure to 0.5 Gy when compared to concurrent DDW+irradiation group. This increase was two fold higher in VM-26+irradiation group at 12 and 24 h, while it was 3 fold higher at 36 h post-irradiation compared to DDW+irradiation group. The peak frequency of MPCE was observed at 24 h post-irradiation in both groups, which declined thereafter. The frequency of micronucleated normochromatic erythrocytes (MNCE) increased in a dose dependent manner in both DDW+irradiation and VM-26+irradiation groups. However, the frequency of MNCE was significantly higher in the latter when compared to the former group. The frequency of MNCE exhibited a continuous elevation up to 36 h post-irradiation in both DDW+irradiation and VM-26+irradiation groups. Treatment of mice with teniposide before irradiation resulted in a significant decline in the PCE/NCE ratio compared to DDW+irradiation group. The PCE/NCE ratio continued to decline up to 36 h post-irradiation in both the groups. The dose response for MPCE and PCE/NCE ratio was linear quadratic, while it was linear for MNCE.     

Antagonizing effect of 3-aminoharman on induction of sister-chromatid exchanges by mutagens

3-Aminoharman (3AH, 3-amino-1-methyl-9H-pyrido[3,4-b]indole), which has been reported as a novel substance with an antagonistic effect on induction of sister-chromatid exchange (SCE) by polycyclic mutagens in the presence of the metabolic activation system, was examined with a cultured human lymphoblastoid cell line, NL3, for its effect on SCE induction by direct-acting mutagens such as mitomycin C (MMC), nitrogen mustard N-oxide (NMO), methyl methanesulfonate (MMS), N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), 4-nitroquinoline 1-oxide (4NQO) and 3-hydroxyamino-1-methyl-5H-pyrido[4,3-b]indole (OH-Trp-P-2), and also by ultraviolet light (UV) irradiation. The results obtained on simultaneous treatment with 3AH and mutagens were as follows: (1) 3AH suppressed more than 50% of SCEs induced by MMC, NMO and OH-Trp-P-2; (2) 4NQO- and MNNG-induced SCEs were also suppressed by 3AH but to a lesser degree; (3) MMS-induced SCEs were not, however, altered by 3AH; and (4) the suppression of SCE by 3AH was dose-dependent. Treatment of cells with 3AH for 2 h immediately before MMC exposure suppressed SCE induction to a significant degree similar to the simultaneous treatment, but post-treatment with 3AH was much less effective. 3AH inhibited SCE induction by NMO when 3AH treatment was carried out either before or after NMO treatment, to an extent similar to the simultaneous treatment. Treatments with 3AH either before or after UV exposure did not change the UV-induced SCEs. Results with these direct-acting mutagens ruled out the relevance of metabolic activation as a necessary step for the antagonizing effect of 3AH.     

Acclimation and repair of DNA damage in recombinant bioluminescent Escherichia coli

AIMS: The aim of this study is to understand different adaptive responses in bacteria caused by three different mutagens, namely, an intercalating agent, an alkylating agent and a hydroxylating agent, and the repair systems according to the type of DNA damage, that is, DNA cross-linking and delayed DNA synthesis, alkylation and hydroxylation of DNA. A recombinant bioluminescent Escherichia coli, DPD2794 with the recA promoter fused to luxCDABE originating from Vibrio fischeri, was used in this study. METHODS AND RESULTS: The recombinant bioluminescent E. coli strain DPD2794, containing a recA promoter fused to luxCDABE from V. fischeri, was used to detect adaptive and repair responses to DNA damage caused by mitomycin C (MMC), and these responses were compared with those when the cells were induced with N-methyl-N-nitro-N-nitrosoguanidine (MNNG) and hydrogen peroxide (H2O2). The response ratio between the induced samples and that of the controls decreased suddenly when the induced culture was used in further inductions, indicating a possible adaptive response to DNA damage. DNA damage, or the proteins produced, because of MMC addition does not appear to be completely resolved until the seventh sub-culture after the initial induction, whereas simple damage, such as the base modification caused by MNNG and H2O2, appears to be repaired rapidly as evidenced by the quick recovery of sensitivity. CONCLUSIONS: These results suggest that it takes more time to completely repair DNA damage caused by MMC, as compared with a simple repair such as that required for the damage caused by MNNG and H2O2. Therefore, repair of the damage caused by these three mutagens is controlled by different regulons, even though they all induced the recA promoter. SIGNIFICANCE AND IMPACT OF THE STUDY: Using a bioluminescent E. coli harbouring a recA promoter-lux fusion, it was found that different adaptive responses and repair systems for DNA damage caused by several mutagens exists in E. coli.     

Inhibition of decidual induction in rats by clomiphene and tamoxifen.

The objective of this study was to characterize the estrogen action that confers endometrial sensitization to nontraumatic deciduogenic stimuli by use of antiestrogens. Tamoxifen, ethamoxytriphetol, and clomiphene and its two component enantiomers inhibited decidual induction in pseudopregnant rats when administered 17 h before pyrathiazine. Unexpectedly, clomiphene (250 micrograms/rat) and tamoxifen (25 micrograms/rat) proved inhibitory at all times up to and including the time of induction. Clomiphene, administered in the hours preceding decidual induction, inhibited the increase of ornithine decarboxylase activity, which normally marks the end of the induction phase. Clomiphene had no inhibitory effect on the availability or receptor binding of progesterone. Clomiphene also inhibited implantation of blastocysts when administered at the time of their adherence to the uterus. The inhibition by antiestrogens of decidual induction could not be explained on the basis of the current understanding of mechanisms of estrogen action. The discrepancies were that no latent period between the time of antiestrogen administration and decidual induction was observed and no difference was observed in the inhibitory activities of the isomers of clomiphene.     

On the inhibitory action of 29 drugs having side effect gynecomastia on estrogen production

To examine the influence on aromatase and sulfatase pathways in estrogen pool by drugs reported to cause gynecomastia as the side effect, 29 ethical drugs were incubated with human placental microsomes as an enzyme source. The percent inhibition of drugs on aromatase pathway was obtained by sum of the velocity constants of two products, estrone (E1) and estradiol (E2) from testosterone (T) as the substrate, and that on sulfatase pathway was obtained as the velocity constant of production of E1 from estrone sulfate (E1S). Although several drugs including ketoconazole showed a significant inhibition effect on aromatase pathway at their non-clinical over-dose concentration (100 microM), no influence on the inhibition was observed in any drugs at their approximately therapeutic concentration (1 microM). However, several drugs including spironolactone gave the product ratio (E2/E1) having higher value than that of the control, the result means spironolactone inhibits the conversion of E2 to E1. No inhibitory effect of the drugs tested on estrogen production from E1S (sulfatase pathway) was confirmed. The results suggest the possibility that the tested drugs known to cause gynecomastia have no inhibitory effect essentially on aromatase and sulfatase pathways.     

Multi-endpoint biological monitoring of phosphine workers

5-Aminosalicylic acid (5ASA), a prescribed drug for ulcerative colitis, is a potent scavenger of oxygen-derived free radicals. The present study was undertaken to ascertain its ability to protect against radiation-induced damage. The drug dose-dependent effect, optimum time of drug administration and radiation dose-dependent effect (0-4 Gy) on in vivo radiation protection against micronuclei induction in polychromatic erythrocytes (PCE) and normochromatic erythrocytes (NCE) were studied in the bone marrow of mice. Intraperitoneal injection of 10-125 mg/kg of the drug 30 min before whole body irradiation with 3 Gy produced a significant reduction in the frequency of micronucleated erythrocytes at 24 h after exposure. The optimum dose for protection without drug toxicity was 25 mg/kg body weight. Injection of 25 mg/kg of the drug 60 or 30 min before or within 15 min after 3 Gy whole body gamma-irradiation resulted in a significant decrease in the radiation-induced PCE and NCE with micronuclei (MPCE and MNCE) and an increase in the ratio of PCE to NCE (P/N), at 24 h post-irradiation. Maximum effect was seen when the drug was administered 30 min before irradiation. Therefore, to study the radiation dose-response, mice were pre-treated with 25 mg/kg of 5ASA 30 min before 1-4 Gy of gamma-irradiation. Radiation increased the MN frequency linearly (r(2)=0.99) with dose. Pre-treatment with 5ASA significantly reduced the MN counts to 40-50% of the radiation (RT) alone values, giving a dose modification factor (DMF) of 2.02 (MPCE) and 2.53 (MNCE). Irradiation resulted in a dose-dependent decline in the P/N ratio at all the doses of radiation studied. 5ASA produced a significant increase in the P/N ratio from that of irradiated controls, at all doses of radiations tested. These results show that 5ASA protect mice against radiation-induced MN formation and mitotic arrest.     

Enhanced inhibition of estrogen receptor nuclear binding in the uterus of aged mice

We have studied why uteri from aging mice show a decrease nuclear concentration of estrogen receptors (UER). While 50-60% of available cytosolic UER from ovariectomized (OVX) mice aged 4-8 months, upon physiochemical activation, are able to bind either to DNA-cellulose or nuclear suspensions from young animals, only 20-30% of comparable concentrations of cytosolic UER from mice aged 15-18 months did so under identical experimental conditions. Nuclear dilutions with uterine cytosolic fractions from estrogen treated OVX mice prior to determination of [3H] UER binding sites in nuclear suspensions decreased the number of nuclear ER sites in both age groups. However, we observed that cytosols from aged animals showed a greater ability to prevent [3H]E2 binding to nuclear sites when compared to young ones (inhibition index: 0.286 +/- 0.013 (SE) vs. 0.137 +/- 0.025, P less than 0.05). These changes occur independently of protein concentration and result from dilution of a specific endogenous inhibitor of [3H]E2 binding to nuclear sites. The significance of these observed differences is discussed.     

Dependency of the yield of sister-chromatid exchanges induced by alkylating agents on fixation time. Possible involvement of secondary lesions in sister-chromatid exchange induction

Chinese hamster V79 cells were pulse-treated (for 60 min) with various mutagens three, two or one cell cycles before fixation (treatment variants A, B and C, respectively) and the frequencies of induced SCEs were analysed and compared. The degree of increase in frequency of SCEs with dose in the treatment variants depended on the mutagen used. For the methylating agents MNU, MNNG and DMPNU, high yields of SCEs were obtained in the treatment variants A and B, and there was no difference in the efficiency with which these agents induced SCEs in these treatment variants. In the treatment variant C, however, no SCEs were induced with mutagen doses yielding a linear increase in SCE frequency in treatment variants A and B. A slight increase in SCE frequency in treatment variant C was observed only when relatively high doses of MNU or MNNG were applied. Like the above agents, EMS, ENU and MMS induced more SCEs in treatment variants A and B than in C, but for these agents treatment variant B was most effective and SCEs were induced over the entire dose range, also in treatment variant C. As opposed to the methylating and ethylating agents, MMC induced SCEs with high efficiency when treatment occurred one or two generations prior to fixation. There was no difference in SCE frequency between these treatment variants. MMC was completely ineffective for the induction of SCEs when treatment occurred three generations before fixation. The unexpectedly low SCE frequencies induced by the methylating and ethylating agents when treatment occurred one generation before fixation were not due to the exposure of cells to BrdU prior to mutagen treatment. From the results obtained, it is concluded that DNA methylation and ethylation lesions give rise to SCEs only with very low probability during the replication cycle after the lesion's induction, and that subsequent lesions produced during or after replication of the methylated or ethylated template (secondary lesions) are of prime importance for SCE formation after alkylation. For MMC, however, primary lesions seem to be most important for SCE induction.     

Effect of estradiol treatment on male mice synaptonemal complexes: difference of sensitivity between neonates and adults.

The effect of estrogen on pachytene spermatocytes was studied with the assistance of the synaptonemal complex analysis under electron microscopy. Male NMRI mice were injected with estradiol benzoate from birth onwards and allotted to different groups according to the dose administered: 1) three injections of either 12.5 micrograms or 25 micrograms or 50 micrograms on d0, d5 and d10; 2) single injections of 50 micrograms either on d0 or on d5 or on d10; 3) double injections of 50 micrograms on d0 and d5; and 4) daily injection at the dose of 0.5 micrograms/g BW from d0 to d27. Animals were sacrificed on day 28, 60 and 90. Adult male mice were treated daily with E2B (0.5 micrograms/g BW) for one (from d30 to d60) or two months (from d30 up to d90) to test the age-related sensitivity to estrogen. A number of different SC anomalies were observed at each harvest time. Among all the anomalies, pairing failure (asynapsis) was predominant followed in decreasing order of importance by SC breakage (fragmentation of SCs), and heterotelomeric associations resulting either in quadrivalent-like figures or in trivalents. In E2B treated neonates the frequency of SC anomalies, which was less than 2% in controls, varied from 3.6 to 27% of pachytene cells regardless of the harvest time. In E2B treated adult mice, the SC anomalies were rare (< 4%), but significantly different from controls in which the frequency of SC aberrations did not exceed 1% of pachytene cells. The prevalence of anomalies appeared to be independent of the TW decrease. Our observations suggest that estrogens act indirectly on SCs. Different mechanisms of action are discussed.     

Cytogenetical characterization of Chinese hamster ovary X-ray-sensitive mutant cells xrs 5 and xrs 6. III. Induction of cell killing, chromosomal aberrations and sister-chromatid exchanges by bleomycin, mono- and bi-functional alkylating agents

Two X-ray-sensitive mutants of CHO-K1 cells, xrs 5 and xrs 6, were characterised with regard to their responses to genotoxic chemicals, namely bleomycin, MMS, EMS, MMC and DEB for induction of cell killing, chromosomal aberrations and SCEs at different stages of the cell cycle. In addition, induction of mutations at the HPRT and Na+/K+ ATPase (Oua) loci was evaluated after treatment with X-rays and MMS. Xrs 5 and xrs 6 cells were more sensitive than wild-type CHO-K1 to the cell killing effect of bleomycin (3 and 13 times respectively) and for induction of chromosomal aberrations (3 and 4.5 times). In these mutants a higher sensitivity for induction of chromosomal aberrations to MMS, EMS, MMC and DEB was observed (1.5-3.5 times). The mutants also showed increased sensitivity for cell killing effects of mono- and bi-functional alkylating agents (1.7-2.5 times). The high cell killing effect of X-rays in these mutants was accompanied by a slight increase in the frequency of HPRT mutation. The xrs mutants were also more sensitive to MMS for the increased frequency of TGr and Ouar mutants when compared to wild-type CHO-K1 cells. Though bleomycin is known to be a poor inducer of SCEs, an increase in the frequency of SCEs in xrs 6 cells (doubling at 1.2 micrograms/ml) was found in comparison to no significant increase in xrs 5 or CHO-K1 cells. The induced frequency of SCEs in all cell types increased in a similar way after the treatment with mono- or bi-functional alkylating agents. MMS treatment of G2-phase cells yielded a higher frequency of chromatid breaks in the mutants in a dose-dependent manner compared to no effect in wild-type CHO-K1 cells. Treatment of synchronised mutant cells at G1 stage with bleomycin resulted in both chromosome- and chromatid-type aberrations (similar to the response to X-ray treatment) in contrast to the induction of only chromosome-type aberrations in wild-type CHO-K1 cells. The frequency of chromosomal aberrations chromosome and chromatid types) also increased with MMC treatment in G1 cells of xrs mutants. DEB treatment of G1 cells induced mainly chromatid-type aberrations in all cell types. The possible reasons for the increased sensitivity of xrs mutants to the chemical mutagens studied are discussed and the results are compared to cells derived from radiosensitive ataxia telangiectasia patients.     

Amniotic fluid brain-specific proteins are biomarkers for spinal cord injury in experimental myelomeningocele

Myelomeningocele (MMC), the most severe form of spina bifida (SB), causes neurological deficit. Injury to the spinal cord is thought to begin in utero. We investigated whether brain-specific proteins (BSPs) would enable us to monitor the development of MMC-related tissue damage during pregnancy in an animal model with naturally occurring SB (curly tail/loop tail mouse; n = 256). Amniotic fluid levels of neurofilament heavy chain (NfH), glial acidic fibrillary protein (GFAP) and S100B were measured by standard ELISA techniques. The amniotic fluid levels of all BSPs were similar in SB and control mice on embryonic day (E) 12.5 and 14.5, whereas a significant increase was observed for GFAP in SB mice on E16.5. Levels of all BSPs were significantly increased in SB mice on E18.5. The rapid increase in GFAP, paralleled by a moderate increase in NfH and S100B, suggests that spinal cord damage starts to accelerate around E16.5. The macroscopic size of the MMC was related to NfH level on E16.5 and E18.5, suggesting that axonal degeneration is most severe in large MMC. Amniotic fluid BSP measurements may provide important information for balancing the risks and benefits to mother and child of in utero surgery for MMC.     

Effect of genistein on the expression of bone metabolism genes in ovariectomized mice using a cDNA microarray

Osteoporosis associated with estrogen deficiency is defined as an abnormal decrease in bone mass leading to an increased fracture risk. Genistein (GEN), as a phytoestrogen, is a type of soybean-derived isoflavone that possesses structural similarity to estrogen. In this study, we assessed the effect of GEN in ovariectomized (OVX) mice. To determine the effect of GEN on bone metabolism, we investigated gene expression profiles using a radioactive cDNA microarray. Eight-week-old female mice were either sham operated (SHAM) or OVX. From 1 week after the operation, OVX mice were injected daily with intraperitoneal GEN (0.1, 0.5, 1.5 and 3.0 mg/day) or 17beta-estradiol (E2, 0.03 microg/day) for 4 weeks. A cDNA microarray was used to evaluate changes in the expression of 1,152 genes. OVX mice showed bone mineral density (BMD) loss versus SHAM mice (5.8+/-0.4 vs. 6.9+/-0.6 mg/cm2). However, femur BMDs were completely restored by GEN and by E2 administration in OVX mice. Serum osteocalcin in OVX mice treated with 0.5 mg/day of GEN was 1.6-fold (44.30+/-5.73 ng/ml) higher than that in untreated mice. GEN treatment up-regulated 38 genes (e.g., mitogen-activated protein kinase 10) and down-regulated 18 (e.g., matrix metalloproteinase 13). Moreover, GEN was found to have a protective effect on bone loss caused by estrogen deficiency in OVX mice. The present study suggests that GEN modulates bone metabolism-related gene expression, including calciotropic receptor, cytokines, growth factors and bone matrix proteins.     

Detection of micronuclei in peripheral blood of mitomycin C-treated mice using supravital staining with acridine orange.

The induction of micronuclei in peripheral blood from mitomycin C (MMC)-treated mice was examined using a supravital acridine orange staining method. Male ICR mice were intraperitoneally given MMC at a single dose of 0.25, 0.5, 1, or 2 mg/kg. Blood was sampled from the tail 24, 48, 72, and 96 h after treatment, and the frequency of micronucleated reticulocytes (MNRETs) was examined. The induction of MNRETs peaked at 48 h after treatment with MMC; there was a clear, dose-related increase in MNRETs. In a multiple-treatment study, mice were treated with 4 consecutive daily injections of MMC at a dose of 0.13, 0.25, 0.5, or 1 mg/kg. The frequency of MNRETs increased markedly 24 h after the second treatment as compared with the first treatment, and did not change significantly until 24 h after the fourth treatment. The frequency of MNRETs decreased to approximately control values 96 h after the last treatment. In addition, a slight but statistically significant increase in the number of micronucleated normochromatic erythrocytes in peripheral blood was detected by means of Giemsa staining 7 days after the last treatment. These results confirm the usefulness of the supravital acridine orange staining method to evaluate micronucleus induction in mouse peripheral blood.     

Involvement of the drug efflux protein TolC in mutagenicity induced by MNNG or Trp-P-2

In the development of mutation assay systems, a number of approaches have been performed with a particular view to improve sensitivity. The inhibition of mutagen-efflux from tester bacteria might lead to increased mutagenic activity as the concentration of mutagen increases inside the cell. In this study, we constructed a series of Escherichia coli CC strains lacking the TolC protein to determine if mutation is actually enhanced by the inhibition of mutagen reflux. TolC is an outer-membrane protein that forms part of an excretion system in E. coli. The frequency of induction of mutations by N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), N-ethyl-N'-nitro-N-nitrosoguanidine (ENNG) and ethyl methanesulfonate (EMS) were significantly higher in TolC-deficient strain KA796-1/CC102 than in TolC-proficient strains, especially that of MNNG was seven times higher and detected at lower doses than in the parent strain. In a KA796-1/CC108 TolC-deficient strain, mutation induced by Trp-P-2 was detected at significant levels, even at low doses that did not induce detectable levels of mutation in the parent strain KA796/CC108. When the wild-type E. coli tolC gene was introduced into a strain lacking the gene, TolC function was restored and the frequency of induction by MNNG became similar to that of the wild-type. In contrast, introduction of a mutant tolC gene did not complement the TolC deficiency and the frequency of MNNG-induced mutations remained high. These results suggest that some mutagens are excreted at least in part via the TolC system, and that the lack of functional TolC increases the susceptibility of bacteria to many mutagens.     

Effects of Pharmacological Concentrations of Estrogens on Growth of 3AO Human Ovarian Cancer Cells

During the past two decades, the knowledge of the molecular mechanism by which estrogens exert various functions in different tissues and organs has evolved rapidly. Recent reports demonstrated that estrogen could decrease the cell growth in several types of cancer cells, including ovarian cancer cells. Though experiments explored the possible mechanism of the inhibitory effect, the exact mechanism is responsible for the effect, which remains unclear. The ovary is the main source of the estrogen, estrogen receptor is expressed in several ovarian cell types, including ovarian surface epithelium, the tissue of origin of approximately 90% of the ovarian cancers. It was of great interest to analyze the effects of 17β-estradiol (E2) on apoptosis of ovarian cancer cells, and the identification of E2-regulated specific genes involved in epithelial proliferation apoptosis, thus may be a clue for understanding the progression of ovarian cancer and for the design of new target therapies. To elucidate the mechanism involved, effects of pharmacological concentrations of estrogen were studied in human ovarian cancer cell line 3AO cells. Inhibition of cellular growth of 3AO cells was seen with E2 at concentrations higher than 0.1 μmol/L. The estrogen receptor inhibitor ICI 182780 cannot block the inhibitory effect of E2. It was surprising to find that ICI 182780 itself can inhibit the growth of 3AO cells, and had a collaborative effect with E2. The decreased cell growth induced by E2 was shown to be apoptosis as analyzed by flow cytometry. ERβ was detected in the 3AO ovarian cancer cell line but not ERα. The expression of ERβ was weak, which may partially explain why high but not low dose of E2 needed to induce the apoptosis of 3AO cells. We also observed that membrane impermeable E2, E2-BSA have lost growth inhibitory on 3AO cells, which excluded the membrane effect of E2 as previously reported by many investigators. The p38 kinase inhibitor, SB203580 were partially protected 3AO cells against growth inhibition by E2, while inhibitor of JNK, SP600125 enhanced cell death induced by E2. These results showed that MAPK is implicated in cellular processes involving apoptosis.     

药物治疗浓度的雌激素对卵巢癌3AO细胞生长的影响

在过去的20年里,人们对于雌激素在不同组织、器官中发挥不同功能的分子机制进行了深入的研究,并取得了非常快的进展。最近的研究表明,雌激素能够抑制包括卵巢癌在内的多种肿瘤细胞的生长。卵巢是女性雌激素的主要来源,多种卵巢细胞表达雌激素受体,其中包括90％以上的卵巢癌起源的卵巢表面上皮细胞。雌激素诱导卵巢癌细胞凋亡的研究非常有实验及临床价值,雌激素调控的凋亡相关的特异性基因的发现对于揭示卵巢癌的发生发展以及针对卵巢癌特异性治疗的研究将会提供巨大的帮助。以人卵巢癌3AO细胞为模型,探讨了药物治疗浓度的雌激素对卵巢癌细胞的凋亡诱导作用以及其可能机制。首先用MTT检测方法观察了雌二醇及其受体拮抗剂ICI 182780对3AO细胞生长的影响。研究发现,高于0．1pmol／L浓度的雌二醇能够抑制3AO细胞的生长,其中5pmol／L浓度的雌二醇处理3AO细胞72h后,对3AO细胞的抑制率达到70％。雌激素受体的拮抗剂ICI 182780不但不能阻断雌激素的效应,它本身也能抑制3AO细胞的生长,并且与雌激素有协同效应,并且经流式细胞术证实雌激素及其受体拮抗剂引起的3AO细胞的死亡为凋亡。雌激素对生长的调控是细胞类型特异性的,其机制可能与细胞内雌激素受体不同亚型的表达有关。细胞内雌激素受体β亚型的表达利于细胞凋亡的发生,细胞内雌激素受体α亚型的表达则会保护细胞免于凋亡的发生。在对雌激素诱导的凋亡发生机制的探讨过程中,我们发现3AO细胞只表达雌激素受体β亚型,而不表达雌激素受体α亚型,并且与α亚型相比,β亚型的表达明显降低,这可以解释为何需要高浓度的雌激素才能够诱导3AO细胞凋亡。我们又观察了大分子BSA标记的雌激素对3AO细胞生长的影响,结果发现这种不能通过细胞膜的雌激素失去了对3AO细胞生长的抑制作用,从而排除了雌激素的膜效应。近来的研究表明,MAPK信号通路在调控细胞的生长过程中发挥了重要的作用,并且参与了雌激素调控细胞生长的过程。接下来我们观察了MAPK信号通路在雌激素诱导3AO细胞生长中的作用。研究发现,p38／MAPK激酶的抑制剂SB203580部分的阻断了雌激素的生长抑制效应,而JNK／MAPK激酶的抑制剂SP600125则能促进雌激素的效应,提示MAPK信号通路参与了雌激素的这种效应。     

Estrogen-induced apoptosis in a breast cancer model resistant to long-term estrogen withdrawal

Estrogen suppression through the use of an aromatase inhibitor is an effective endocrine treatment option for postmenopausal breast cancer patients with estrogen receptor (ER)-positive disease, however, there are concerns that long-term estrogen deprivation will inevitably lead to resistance. To address the issue of acquired resistance to long-term estrogen deprivation our laboratory has developed an ER+/PR- hormone-independent breast cancer cell line, MCF-7:5C which is a variant clone of wild-type MCF-7 cells. Originally, these cells were cultured in estrogen-free MEM containing 5% charcoal-stripped calf serum and were found to be resistant to both estradiol (E(2)) and antiestrogens. Interestingly, a completely different phenomenon was observed when MCF-7:5C cells were cultured in phenol red-free RPMI 1640 medium containing 10% charcoal-stripped fetal bovine serum (SFS). Using DNA quantitation assays, we examined the effect of E(2) on the growth of MCF-7:5C cells under different media conditions. Our results showed that 10(-9)M E(2) caused a dramatic 90% reduction in the growth of MCF-7:5C cells cultured in RPMI medium containing 10% SFS but did not have any significant inhibitory effects on cells cultured in MEM media. Additional experiments were performed to determine whether the medium or the serum facilitated the inhibitory effects of E(2) and the results indicated that it was the serum. Annexin V and DAPI staining confirmed that the E(2)-induced growth inhibition of MCF-7:5C cells was due to apoptosis. We also examined the tumorigenic potential of MCF-7:5C cells by injecting 1x10(7)cells/site into ovariectomized athymic mice and found that these cells, previously cultured in RPMI media, spontaneously grew into tumors in the absence of E(2). Overall, these results show that low concentrations (>10(-11)M) of E(2) are capable of inducing apoptosis in an aromatase resistant breast cancer cell model and that this effect is highly influenced by the medium in which the cells are grown.