Apoptosis-like cell death of human breast cancer cell line MCF-7 induced by buprenorphine hydrochloride

The analgesic buprenorphine hydrochloride (Bph) induced apoptosis-like cell death in the caspase-3-deficient human breast cancer cell line, MCF-7. This apoptosis-like cell death activated key molecules in the mitochondrial apoptotic pathway: cytochrome c, caspase-9, caspase-7, and caspase-6. Bph caused the release of fluorescent protein from the mitochondria of MCF-7 cells transfected with the pDsRed2-Mito-vector in a time-dependent manner, suggesting disruption of the mitochondrial membrane. Zn(2+) as high as 2 mM did not inhibit the DNase that took part in this apoptosis. Thus, this unidentified DNase might resemble other DNases involved in apoptosis-like cell death whose activity is not inhibited by zinc ion.     

Methionine cytotoxicity in the human breast cancer cell line MCF-7

Summary Among the first nutrients to be linked to cancer were methyl group containing nutrients including methionine. Methionine and its metabolic derivatives are essential components in several indispensable biological reactions including protein synthesis, polyamine synthesis, and many transmethylation reactions. The purpose of this study was to determine the extent to which methionine excess affects the proliferation and gene expression of the human breast cancer cell line MCF-7. Cells were first grown in control medium; the medium was then replaced with either control or methionine-supplemented treatment media. We found that 5 and 10 g/L methionine significantly suppressed cell growth on day 1, and no further growth was detected after 3 d of treatment. Cell, proliferation in the methionine treated group was significantly lower than that of the control group. Northern analysis revealed that expression of p53 in methionine-treated MCF-7 cells was approximately 70% lower than that of control cells. p53 is a key cell cycle regulatory, protein that has been implicated in tumorigenesis and cancer progression. Alteration of the p53 tumor suppressor gene is the most common genetic change found in a wide variety of malignancies, including cancer. This study shows that excess methionine (5 g/L) inhibited proliferation of MCF-7 breast cancer cells, and down regulation of p53 is correlated with this inhibition. These findings may aid in the development of nutritional strategies for breast cancer therapy.     

Hpr6.6 protein mediates cell death from oxidative damage in MCF-7 human breast cancer cells

Reactive oxygen species (ROS) cause cell death and are associated with a variety of maladies, from trauma and infection to organ degeneration and cancer. Cells mount a complex response to oxidative damage that includes signaling from transmembrane receptors and intracellular kinases. We have analyzed the response to oxidative damage in human breast cancer cells expressing the Hpr6.6 (human membrane progesterone receptor) protein. Although Hpr6.6 is related to a putative progesterone-binding protein, Hpr6.6 is widely expressed in epithelial tissues and shares close homology with a budding yeast damage response protein called Dap1p (damage response protein related to membrane progesterone receptor). We report here that the Hpr6.6 protein regulates the response to oxidative damage in breast cancer cells. Expression of Hpr6.6 in MCF-7 cells sensitized the cells to death following long-term/low dose or short-term/high dose treatment with hydrogen peroxide. Cell death did not occur through a typical apoptotic mechanism and corresponded with hyperphosphorylation of the Akt and IkappaB proteins. However, inhibition of Akt activation and IkappaB degradation had no effect on Hpr6.6-mediated cell death, suggesting that Hpr6.6 regulates cell death through a novel oxidative damage response pathway. Our work indicates a key regulatory function for Hpr6.6 in epithelial tissues exposed to oxidative damage.     

An insulin effect on cytoplasmic estrogen receptor in the human breast cancer cell line MCF-7

It has recently been reported (Horwitz, K. B., Zava, D. T., Thilagar, A. K., Jensen, E. M., and McGuire, W. L. (1978) Cancer Res. 38, 2434-2437) than the human breast cancer-derived cell line MCF-7 from EG&G Mason Research Institute contains no 8 S and very little 4 S cytoplasmic estrogen receptor. Even so, we have found significant levels of cytoplasmic estrogen receptor in MCF-7 cells from this source. The receptor was found at a maximum level of 132 fmol/mg of cytoplasmic protein, and had an apparent dissociation constant at 30 degrees C of 7.3 X 10(-10) M and at 4 degrees C of 1.2 X 10(-10) M. In sucrose gradients without KCl, the receptor migrated at 6-7 S, and with 0.4 M KCl, at 3-4 S. The receptor was specific for estrogen, in that a 100-fold excess of diethylstilbestrol eliminated binding of radiolabeled estrogen, whereas hydrocortisone, aldosterone, progesterone, and testosterone had no effect. It was further demonstrated that at least part of the reason for the discrepancy between our data and those of Horwitz et al. is that the high insulin level (10 microgram/ml) used by Horwitz et al. dramatically lowers the assayable level of receptor. These results may have important implications for steroid receptor assays in other cell lines in tissue culture and in human breast cancer patients as well.     

川芎嗪逆转人乳腺癌MCF-7/ADM细胞对阿霉素的耐药性

目的 探讨川芎嗪（tetramethylpyrazine,TMP）逆转人乳腺癌MCF-7/ADM细胞对阿霉素（ADM）的耐药性.方法 MTT法测定细胞的药敏性,荧光分光光度法检测细胞内阿霉素浓度的变化,流式细胞术检测耐药细胞凋亡百分率的变化.结果 非细胞毒性剂量（320 mg/L）及低毒剂量（1250 mg/L）川芎嗪均能显著降低MCF-7/ADM的IC50（P＜0.01）,逆转倍数分别为2.13倍和2.82倍;均能显著增加耐药细胞内ADM的浓度（P＜0.01）.320 mg/L川芎嗪能显著增加耐药细胞的凋亡百分率（P＜0.01）.结论 川芎嗪具有部分逆转人乳腺癌MCF-7/ADM细胞对阿霉素的耐药性,其逆转机制与增加细胞内ADM浓度有关.     

Apoptotic and non-apoptotic modes of programmed cell death in MCF-7 human breast carcinoma cells

Apoptosis is a specific mode of programmed cell death (PCD), recognized by characteristic morphological and molecular changes. Here we present evidence for a non-apoptotic type of PCD in human MCF-7 breast carcinoma cells. We used TNF-alpha and tyrphostin AG213 to induce apoptotic and non-apoptotic cell death respectively in vitro. Microscopic and immunohistochemical studies, together with DNA analysis and flow cytometric analysis of p53 and bcl-2 oncogene expression, revealed some novel characteristics of non-apoptotic cell death. We show here for the first time some of the biochemical features of an experimentally induced non-apoptotic PCD and emphasize the distinct biochemical events leading to apoptotic and non-apoptotic PCD.     

Role of mitochondria in tamoxifen-induced rapid death of MCF-7 breast cancer cells

Tamoxifen (Tam) is widely used in chemotherapy of estrogen receptor-positive breast cancer. It inhibits proliferation and induces apoptosis of breast cancer cells by estrogen receptor-dependent modulation of gene expression, but recent reports have shown that Tam (especially at pharmacological concentrations) has also rapid nongenomic effects. Here we studied the mechanisms by which Tam exerts rapid effects on breast cancer cell viability. In serum-free medium 5–7 μM Tam induced death of MCF-7 and MDA-MB-231 cells in a time-dependent manner in less than 60 min. This was associated with release of mitochondrial cytochrome c, a decrease of mitochondrial membrane potential and an increase in production of reactive oxygen species (ROS). This suggests that disruption of mitochondrial function has a primary role in the acute death response of the cells. Accordingly, bongkrekic acid, an inhibitor of mitochondrial permeability transition, was able to protect MCF-7 cells against Tam. Rapid cell death induction by Tam was not associated with immediate activation of caspase-9 or cleavage of poly (ADP-ribose) polymerase. It was not blocked by the caspase inhibitor z-Val-Ala-Asp-fluoromethylketone either. Diphenylene ionodium (DPI), an inhibitor of NADPH oxidase, was able to prevent Tam-induced cell death but not cytochrome c release, which suggests that ROS act distal to cytochrome c. The pure antiestrogen ICI 182780 (1 μM) could partly oppose the effect of Tam in estrogen receptor positive MCF-7 cells, but not in estrogen receptor negative MDA-MB-231 cells. Pre-culturing MCF-7 cells in the absence of 17β-estradiol (E₂) or in the presence of a low Tam concentration (1 μM) made the cells even more susceptible to rapid death induction by 5 or 7 μM Tam. This effect was associated with decreased levels of the anti-apoptotic proteins Bcl-X_L and Bcl-2. In conclusion, our results demonstrate induction of a rapid mitochondrial cell death program in breast cancer cells at pharmacological concentrations of Tam, which are achievable in tumor tissue of Tam-treated breast cancer patients. These mechanisms may contribute to the ability of Tam therapy to induce death of breast cancer cells.     

Paclitaxel resistance is associated with switch from apoptotic to autophagic cell death in MCF-7 breast cancer cells

Taxanes remain first line chemotherapy in management of metastatic breast cancer and have a key role in epithelial ovarian cancer, with increasingly common use of weekly paclitaxel dosing regimens. However, their clinical utility is limited by the development of chemoresistance. To address this, we modelled in vitro paclitaxel resistance in MCF-7 cells. We show that at clinically relevant drug doses, emerging paclitaxel resistance is associated with profound changes in cell death responses and a switch from apoptosis to autophagy as the principal mechanism of drug-induced cytotoxicity. This was characterised by a complete absence of caspase-mediated apoptotic cell death (using the pan-caspase-inhibitor Z-VAD) in paclitaxel-resistant MCF-7TaxR cells, compared with parent MCF-7 or MDA-MB-231 cell lines on paclitaxel challenge, downregulation of caspase-7, caspase-9 and BCl2-interacting mediator of cell death (BIM) expression. Silencing with small interfering RNA to BIM in MCF-7 parental cells was sufficient to confer paclitaxel resistance, inferring the significance in downregulation of this protein in contributing to the resistant phenotype of the MCF-7TaxR cell line. Conversely, there was an increased autophagic response in the MCF-7TaxR cell line with reduced phospho-mTOR and relative resistance to the mTOR inhibitors rapamycin and RAD001. In conclusion, we show for the first time that paclitaxel resistance is associated with profound changes in cell death response with deletion of multiple apoptotic factors balanced by upregulation of the autophagic pathway and collateral sensitivity to platinum.     

Estradiol induced proteins in the MCF7 human breast cancer cell line

MCF₇ cells were cultured with steroids, labelled with (³⁵S)-methionine and the secreted and intracellular proteins were examined by one and two dimensional gel electrophoresis. Estradiol (0.1 nM) increased the synthesis of some of the secreted proteins; the induction of a protein of molecular weight 46,000 daltons being the most dramatic. The 46,000 daltons secreted protein was heterogeneous with respect to molecular weight and isoelectric point. The antiestrogen Tamoxifen did not stimulate the synthesis of any of the estrogen induced proteins, but completely inhibited the induction by estradiol. The effect of estradiol on internal proteins was much more subtle; only 3 proteins out of about 250 were stimulated. The functions of these Proteins are unknown, however they appear to be good markers for studying the mechanism of action of estrogens and antiestrogens in breast cancer and might be related to the control of cell proliferation by estrogen.     

Existence of GPR40 functioning in a human breast cancer cell line, MCF-7

GPR40, which has recently been identified as a G-protein-coupled cell-surface receptor for long-chain fatty acids, was assessed in a human breast cancer cell line (MCF-7). We detected GPR40 mRNA by RT-PCR and found that oleate and linoleate, but not palmitate or stearate, caused an increase in cellular Ca(2+) concentrations, which was partially blocked by the pertussis toxin (PTX) treatment. We examined the expression of GPR40 mRNA by quantitative RT-PCR in the relation to cell number. It was significantly increased at the beginning and at the end of cell proliferation. These results indicate the possibility that GPR40 for long-chain fatty acids may be involved in cellular function such as cell proliferation, providing a new perspective for the action of long-chain fatty acids on mammary epithelial cells.     

Sequence of the pS2 mRNA induced by estrogen in the human breast cancer cell line MCF-7.

We present the complete sequence of an mRNA which is induced by estrogen in the human breast cancer cell line MCF-7 [pS2 mRNA, Masiakowski et al., Nucleic Acids Res. 10, 7895-7903 (1982)]. Primer extension and cloning of double-stranded cDNA (ds-cDNA) into a vector designed to make full-length cDNA were used to determine the sequence of the fifteen 5'-terminal nucleotides which were not present in the original pS2 ds-cDNA clone. The mRNA sequence has a major open reading frame encoding 84 amino-acids, flanked by a 40 nucleotide 5'-untranslated region and a 198 nucleotide 3'-untranslated region preceding the polyA tail. The 3'-untranslated region contains a polyadenylation signal, AUUAAA, 14 nucleotides upstream from the polyA tail. The derived protein sequence contains a putative signal peptide region suggesting that the protein may be secreted. The nucleotide and derived amino-acid sequences were compared to previously determined sequences, particularly to those of hormone-regulated proteins and growth factors, and no obvious similarities were observed.     

c-myb mediates inflammatory reaction against oxidative stress in human breast cancer cell line, MCF-7

Emerging evidence suggests that oncogenes play an important role in the inflammatory reactions in cancer cells, but the precise molecular and cellular mechanisms linking the oncogenes to inflammation is unclear. This study examined the contribution of proto-oncogene c-myb to inflammation in MCF-7 breast cancer cells. An inflammatory response was elicited directly by the cells using an in vitro culture system whereby the cells were exposed to H(2) O(2) . Upon exposure to H(2) O(2) , the cells showed a local inflammatory response, as evidenced by matrix metalloproteinases (MMPs) and ICAM-1 expression. Significant up-regulation of the proto-oncogene c-myb also was observed under inflammatory conditions. c-myb, overexpressed in the cells by transducing with Ad/c-myb, showed an increase in MMPs and ICAM-1 expression under H(2) O(2) stimulation. Despite H(2) O(2) stimulation, the c-myb down-regulated cells by c-myb siRNA inhibit the expression of MMPs and ICAM-1. Among the MAPKs, ERK1/2 and SAPK/JNK were activated by the H(2) O(2) treatment. Interestingly, the H(2) O(2) -induced activation of ERK1/2 and SAPK/JNK was inhibited by siRNA c-myb. These results suggest that breast cancer cells may play a significant role in sustaining and amplifying the inflammation process through the activation of c-myb, which results in the activation of the ERK1/2 and SAPK/JNK pathway. This condition highlights the potential link between inflammation and its involvement in promoting breast cancer proliferation.     

乳腺癌细胞株MCF-7-PC-1-46的建立

以人前列腺癌C4-2细胞基因组DNA为模板,扩增出PC-1基因N端编码46个氨基酸残基及其上游非编码区共599bp的DNA序列,将其正向克隆到真核表达载体pIRES2中,并在脂质体介导下,转染人乳腺癌细胞MCF-7,经G418筛选获得阳性单克隆,细胞扩大培养后,进行PCR和RT-PCR分析,检测外源PC-1基因在靶细胞中的整合与转录,PCR和RT-PCR结果表明,稳定转梁细胞株MCF-7-PC-1-46具有外源目的基因的整合和相应mRNA的高表达,说明成功建立了稳定表达外源PC-1基因N端46个氨基酸的人乳腺癌细胞株,为进一步研究PC-1基因的生物学功能提供了实验材料。     

Androgens inhibit estrogen action in MCF-7 human breast cancer cells

We have observed that the estrogen-dependent augmentation of cytoplasmic progesterone receptor (PR_c) content in MCF-7 human breast cancer cells is completely inhibited in the presence of testosterone (T) or dihydrotestosterone (DHT)¹. This effect is neither a result of altered PR_c affinity for test ligand nor a result of the direct interaction of either androgen with PR_c. Furthermore, the antiestrogenic activity of DHT is blocked in the presence of the antiandrogen, cyproterone, indicating that it is mediated through the androgen receptor. Further investigations of this cell line may provide important insights into the effects of sex steroids upon the hormonal regulation of a variety of healthy and malignant human tissues.     

Role of the insulin-like growth factor system on an estrogen-dependent cancer phenotype in the MCF-7 human breast cancer cell line

We previously established that exposure of the estrogen receptor (ER) positive MCF-7 human breast cancer cell line to 17-β-estradiol (E₂) results in the post-confluent development of multilayered cellular aggregates (foci) which is consistent with the in vivo cancer phenotype of uncontrolled cellular proliferation. In this investigation, the interaction between the insulin-like growth factor receptor (IGF-IR) and ER-signaling systems in regard to post-confluent focus development was studied. We demonstrated that focus development requires the presence of E₂ and insulin-like growth factor I (IGF-I) or insulin-like growth factor II (IGF-II), as well as intact ER and IGF-IR.

Focus development in MCF-7 cultures, which occurs only after formation of a confluent monolayer, coincides with E₂ regulation of key members of the IGF-signaling system such as IGF-IR, IGF-II, insulin receptor substrate 1 (IRS-1), and insulin-like growth factor binding protein 3 (IGFBP-3), as demonstrated by real-time polymerase chain reaction (PCR). To establish the relevancy of an intact IGF-signaling system for foci formation, we generated stable clones from MCF-7 with IGF-IR suppressed by siRNA. Results from these studies implicate signaling through the IGF-IR to be an integral requirement for E₂-dependent post-confluent proliferation and focus formation. In summary, these studies establish the interactive roles of IGFs and E₂ in the post-confluent development of foci, and will allow subsequent identification of targets for therapeutic intervention in the control and treatment of estrogen-dependent breast cancer.     

miR-449a对人乳腺癌细胞MCF-7增殖及迁移能力的影响

目的：通过敲低微小RNA （microRNA,miRNA）-449a的方法研究miR-449a对人乳腺癌细胞MCF-7的增殖和迁移能力的影响。方法：采用miRNA芯片在乳腺癌细胞MCF-7和人正常乳腺细胞MCF-10A筛选具有表达差异的miRNA;化学合成法制备miR-449a的抑制剂（inhibitor）,转染后经real-time PCR验证表达的变化;细胞增殖CCK-8实验对转染后细胞增殖能力进行检测;划痕实验检测细胞转移能力,transwell小室实验检测细胞侵袭的改变;蛋白免疫印迹法（Western blot）实验对MCF-7细胞增殖和迁移相关的β-catenin和E-cadherin蛋白进行检测;通过生物信息学软件预测miR-449a潜在靶基因为Notch 1,荧光素酶实验检测Notch 1是miR-449a的靶基因。结果：分别收集MCF-7和MCF-10A细胞,芯片结果显示miR-449a在MCF-7细胞的表达水平显著高于MCF-10A;本研究将细胞分为未处理组（Mock组）,阴性对照组（negative control组,NC组）和处理组,通过收集不同组MCF-7细胞进行试验,CCK-8结果显示miR-449a下调后MCF-7细胞增殖能力显著降低;划痕实验结果显示miR-449a表达降低导致MCF-7细胞转移能力降低;transwell实验结果显示MCF-7细胞侵袭受到抑制;Western blot结果发现miR-449a敲低后β-catenin表达降低,E-cadherin表达增加;荧光素酶试验结果显示,miR-449a能够显著降低Notch 1-3'-UTR质粒的荧光素活性（P<0.01）。结论：在乳腺癌细胞MCF-7中敲低miR-449a能够显著抑制癌细胞增殖和迁移,而这一变化可能通过降低Notch 1蛋白表达实现的。     

17beta-Estradiol inhibits osteoprotegerin production by the estrogen receptor-alpha-positive human breast cancer cell line MCF-7

Estrogen regulates various cytokines and growth factors in estrogen receptor (ER)-positive human breast cancer. Receptor activator of NF-κB ligand (RANKL) is an essential cytokine for osteoclasts, whereas osteoprotegerin (OPG) is a soluble inhibitor for RANKL. We analyzed the regulation of the RANKL/OPG system by estrogens and androgens in the ER-positive breast cancer cell line MCF-7 and the ER-negative breast cancer cell line MDA-MB-231. In MCF-7 cells, which predominantly express ER-α, 17β-estradiol and testosterone dose-dependently decreased OPG mRNA levels and protein secretion by 70 and 65%, respectively (p < 0.0001 by ANOVA). The inhibition of OPG production by 17β-estradiol and testosterone was specifically prevented by the pure anti-estrogen ICI 182,780, and the testosterone effect was prevented by an aromatase inhibitor. In conclusion, 17β-estradiol suppressed OPG production by human breast cancer cell lines in a dose-dependent and specific manner, indicating that the RANKL/OPG cytokine system is an estrogen-responsive target in breast cancer.     

Induction of programmed cell death in a dorsal root ganglia × neuroblastoma cell line

Growth factor-dependent neurons die when they are deproved of their specific growth factor. This “programmed” cell death (PCD) requires macromolecular synthesis and is distinct from necrotic cell death. To investigate the mechanisms involved in neuronal PCD, we have studied the sequence of events that occur when a neuronal cell line (F-11: Mouse neuroblastoma X rat dorsal root ganglia) is deprived of serum in a manner analogous to growth factor deprivation from neurons. Protein synthesis was inhibited within the first 8 h of serum deprivation, while DNA cleavage into nucleosome ladders was prominent by 24 h. The DNA cleavage could be inhibited by cycloheximide, consistent with a requirement for protein synthesis. In contrast, mitochondrial function was not compromised by serum deprivation. Rather, the cells appeared to be metabolically activated after serum removal as shown by an increased reduction of MTT by mitochondrial dehydrogenases and an increase in cellular autofluorescence, which is thought to be due to elevated levels of NADH and flavoproteins. Assessment of cell viability by propidium iodide staining showed no indication of cell death within 24 h. After 48 h of serum deprivation, cells decreased in size and increased propidium iodide uptake. Thus, serum deprivation activates PCD in F-11 cells and may be a useful model to study the intracellular events responsible for PCD. © 1993 John Wiley & Sons, Inc.     

Zinc(II) ion mediates tamoxifen-induced autophagy and cell death in MCF-7 breast cancer cell line

Treatment of MCF-7 cells with tamoxifen induced vacuole formation and cell death. Levels of the autophagy marker, microtubule-associated protein light chain 3 (LC3)-II also increased, and GFP-LC3 accumulated in and around vacuoles in MCF-7 cells exposed to tamoxifen, indicating that autophagy is involved in tamoxifen-induced changes. Live-cell confocal microscopy with FluoZin-3 staining and transmission electron microscopy with autometallographic staining revealed that labile zinc(II) ion (Zn²⁺) accumulated in most acidic LC3(+) autophagic vacuoles (AVs). Chelation of Zn²⁺ with N,N,N′,N′-tetrakis (2-pyridylmethyl) ethylenediamine (TPEN) blocked the increase in phospho-Erk and LC3-II levels, and attenuated AV formation and cell death. Conversely, the addition of ZnCl₂ markedly potentiated tamoxifen-induced extracellular signal-regulated kinase (Erk) activation, autophagy and cell death, indicating that Zn²⁺ has an important role in these events. Tamoxifen-induced death was accompanied by increased oxidative stress and lysosomal membrane permeabilization (LMP) represented as release of lysosomal cathepsins into cytosol. Treatment with the antioxidant N-acetyl-l-cysteine (NAC) blunted the increase in Zn²⁺ levels and reduced LC3-II conversion, cathepsin D release and cell death induced by tamoxifen. And cathepsin inhibitors attenuated cell death, indicating that LMP contributes to tamoxifen-induced cell death. Moreover, TPEN blocked tamoxifen-induced cathepsin D release and increase in oxidative stress. The present results indicate that Zn²⁺ contributes to tamoxifen-induced autophagic cell death via increase in oxidative stress and induction of LMP.