HER2/neu reduces the apoptotic effects of N-(4-hydroxyphenyl)retinamide (4-HPR) in breast cancer cells by decreasing nitric oxide production

The retinoid N-(4-hydroxyphenyl)retinamide (4-HPR also known as fenretinide) is a potent inducer of apoptosis in breast cancer cells. We observed a 4.5-fold reduction in 4-HPR-mediated apoptosis in MCF-7 breast cancer cells transfected with HER2/neu (MCF-7/HER2) as compared with the parental MCF-7 (MCF-7/WT) cells. Blocking HER2/neu with trastuzumab (Herceptin) led to a six-fold increase in 4-HPR-induced apoptosis in HER2/neu-overexpressing cells. These data indicate that HER2/neu reduces the sensitivity of breast cancer cells to 4-HPR. We showed previously that nitric oxide (NO) is essential for 4-HPR to induce apoptosis in breast cancer cells. The inhibitory effects of the 4-HPR and trastuzumab combination correlated with the amount of NO produced in HER2/neu-overexpressing cells. When a NO synthase (NOS) inhibitor was used to block NO production, decreased apoptosis by the 4-HPR and trastuzumab combination was observed. Furthermore, 4-HPR-mediated NOSII expression was lower in MCF-7/HER2 than MCF-7/WT cells, but was increased by trastuzumab in HER2/neu-overexpressing cells. Here we report the novel findings that HER2/neu reduces the ability of 4-HPR to induce apoptosis in breast cancer cells, and that one mechanism by which HER2/neu increases the resistance of breast cancer cells to 4-HPR is by decreasing NOSII-mediated NO production.     

N-(4-hydroxyphenyl)-retinamide selectively increases All-TRANS retinoic acid inhibitory effects in HER2/NEU-overexpressing breast cancer cells.

We previously reported that overexpression of the HER2/NEU oncogene induces all-TRANS retinoic acid (ATRA) resistance in breast cancer cells. N-(4-hydroxyphenyl)-retinamide (4HPR), a synthetic analogue of ATRA, has been shown to repress the expression of HER2/neu and its family member, epidermal growth factor receptor (EGFR). We investigated whether 4HPR, by suppressing HER2/neu or EGFR expression, could sensitize breast cancer cells to ATRA. At 1.3 micro M concentration (a clinically pharmacologically achievable dose), 4HPR increased ATRA sensitivity synergistically in HER2/NEU-overexpressing BT-474, MDA-MB-453, and MCF-7/Her2 breast cancer cells. However, 4HPR did not sensitize EGFR-overexpressing MDA-MB-468, Hs578T, and MCF-7/EGFR breast cancer cells to ATRA. The increased inhibitory effects in HER2/NEU-overexpressing cells were not correlated with increases in expression levels of p21(WAF1/CIP1) or retinoblastoma protein. Combining 4HPR with ATRA may lead to a novel, selective therapeutic or chemopreventive strategy against HER2/NEU-overexpressing breast tumors.     

Her2/neu induces all-trans retinoic acid (ATRA) resistance in breast cancer cells

We observed that all-trans retinoic acid (ATRA) inhibited the growth of MCF-7 breast cancer cells, but not those transfected with HER2/NEU or its transactivating ligand HEREGULIN. This suggests that Her2/neu causes breast cancer cells to be resistant to the growth inhibitory effects of ATRA. To confirm this observation, MDA-MB-453 and BT-474 cells, which have high levels of Her2/neu and are resistant to ATRA, were incubated with the trastuzumab (Herceptin) antibody so that we could determine whether inhibition of the expression and function of Her2/neu would resensitize these cells to ATRA. Indeed, we found that MDA-MB-453 and BT-474 cells treated with trastuzumab were growth inhibitory by ATRA. We then determined whether Her2/neu uses Grb2 and Akt proteins to induce ATRA resistance. Liposome-incorporated Grb2 antisense oligonucleotides (L-Grb2) and a dominant negative (DN) AKT mutant were used to down-regulate Grb2 expression and inhibit Akt activity, respectively. When incubated with L-Grb2 or transfected with the DN AKT mutant, ATRA-resistant, Her2/neu-overexpressing cells became sensitive to ATRA. Our results indicate that Her2/neu utilizes Grb2 and Akt proteins to induce ATRA resistance in breast cancer cells. ATRA sensitivity was also correlated with RARalpha protein levels since higher RARalpha protein levels were observed in cells in which the Her2/neu pathway was inhibited.     

Nuclear retinoid receptors are involved in N-(4-hydroxyphenyl) retinamide (Fenretinide)-induced gene expression and growth inhibition in HL-60 acute myeloid leukemia cells

N-(4-hydroxyphenyl) retinamide (Fenretinide, 4-HPR) inhibits cell growth by inducing apoptosis in numerous tumor cell types including all-trans-retinoic acid (ATRA)-resistant tumor cells. However, the mechanism(s) by which 4-HPR mediates its anti-proliferative effects remains unclear. Here, we determined whether 4-HPR induced growth inhibition and gene expression involve retinoid receptors in human acute myeloid leukemia (AML) cells (HL-60). We treated HL-60 and ATRA-resistant HL-60 (HL-60R) cells that express mutated RARalpha and very low levels of RARbeta, RARgamma and RXRalpha with 4-HPR (2 microM) for 3 days. 4-HPR showed significant anti-proliferative effects against both cell types and induced growth inhibition (92.7%) in HL-60 cells. However, at the same dose, 4-HPR induced only 53.4% growth inhibition in HL-60R cells. Growth inhibition by 4-HPR was significantly enhanced in HL-60R cells that were retroviraly transduced to express human RARalpha, RARbeta or RXRalpha (95.6%, 97.1%, and 75.6%, respectively), in comparison to HL-60R cells (P < 0.05), but not in HL-60R cells expressing RARgamma. Although ATRA and 4-HPR induced expression of CYP26, an ATRA-inducible gene encoding a cytochrome P450 enzyme, in HL-60 cells, both retinoids failed to induce CYP26 in HL-60R cells. However, induction of CYP26 mRNA by 4-HPR was restored in HL-60R cells expressing RARalpha and RARgamma, but not RARbeta and RXRalpha. In conclusion, our data suggest that nuclear retinoid receptors are involved in 4-HPR-induced growth inhibition and gene expression, and that 4-HPR can mediate its anti-proliferative effects through retinoid receptor-dependent mechanisms in HL-60 cells.     

Silencing of the HER2/neu gene by siRNA inhibits proliferation and induces apoptosis in HER2/neu-overexpressing breast cancer cells

In eukaryotes, double-stranded (ds) RNA induces sequence-specific inhibition of gene expression referred to as RNA interference (RNAi). We exploited RNAi to define the role of HER2/neu in the neoplastic proliferation of human breast cancer cells. We transfected SK-BR-3, BT-474, MCF-7, and MDA-MB-468 breast cancer cells with short interfering RNA (siRNA) targeted against human HER2/neu and analyzed the specific inhibition of HER2/neu expression by Northern and Western blots. Transfection with HER2/neu-specific siRNA resulted in a sequence-specific decrease in HER2/neu mRNA and protein levels. Moreover, transfection with HER2/neu siRNA caused cell cycle arrest at G0/G1 in the breast cancer cell lines SK-BR-3 and BT-474, consistent with a powerful RNA silencing effect. siRNA treatment resulted in an antiproliferative and apoptotic response in cells overexpressing HER2/neu, but had no influence in cells with almost no expression of HER2/neu proteins like MDA-MB-468 cells. These data indicate that HER2/neu function is essential for the proliferation of HER2/neu-overexpressing breast cancer cells. Our observations suggest that siRNA targeted against human HER2/neu may be valuable tools as antiproliferative agents that display activity against neoplastic cells at very low doses.     

Modulation of the insulin-like growth factor-I system by N-(4-hydroxyphenyl)-retinamide in human breast cancer cell lines.

The potent mitogenic activity of insulin-like growth factor I (IGF-I) on breast epithelium is inhibited by retinoic acid in oestrogen receptor-positive (ER+) breast cancer cell lines. We studied and compared the effects of N-(4-hydroxyphenyl)-retinamide (4-HPR) in terms of growth inhibition and modulation of the IGF-I system in ER+ (MCF-7) and oestrogen receptor-negative (ER-) (MDA-MB231) breast cancer cell lines. Treatment with 1-10 microM 4-HPR for up to 96 h induced a dose- and time-dependent inhibition of proliferation in both breast cancer cell lines. Induction of apoptosis was much more evident in MCF-7 than in MDA-MB231 cells (30-40% compared with 0-5% respectively at 5 microM for 48 h). Exogenous human recombinant IGF-I (hr-IGF-I)-stimulated cell proliferation was abolished by 1 microM 4-HPR in MCF-7 cells. Immunoreactive IGF-I-like protein concentration in conditioned medium was reduced by 38% in MCF-7 and by 90% in MDA-MB231 cell lines following treatment for 48 h with 5 microM 4-HPR. Western ligand blot analysis showed a reduction of IGF-binding protein 4 (BP4) and BP5 by 67% and 87%, respectively, in MCF-7, whereas IGF-BP4 and -BP1 were reduced by approximately 20% in MDA-MB231 cells. Exposure to 5 microM 4-HPR for 48 h inhibited [125I]IGF-I binding and Scatchard analysis revealed a decrease of more than 50% in maximum binding capacity (Bmax) and a reduced receptor number/cell in both cancer cell lines. Steady-state type I IGF-receptor mRNA levels were reduced by approximately 30% in both tumour cell lines. We conclude that 4-HPR induces a significant down-regulation of the IGF-I system in both ER+ (MCF-7) and ER- (MDA-MB231) breast cancer cell lines. These findings suggest that, in our model, interference with the ER signalling pathway is not the only mechanism of breast cancer growth inhibition by 4-HPR.     

Inhibition of aromatase activity and expression in MCF-7 cells by the chemopreventive retinoid N-(4-hydroxy-phenyl)-retinamide

The effect of the chemopreventive synthetic retinoid N-(4-hydroxyphenyl)-retinamide (4-HPR) on aromatase activity and expression was examined. 4-HPR caused a dose-dependent inhibition of aromatase activity in microsomes isolated from JEG-3 human placental carcinoma cells. The kinetics of inhibition were analysed by double-reciprocal plot. The Km of the substrate increased and the Vmax of the reaction decreased in the presence of 4-HPR, indicating that enzyme inhibition involved both competition for the substrate-binding site and non-competitive mechanisms. To determine whether 4-HPR would also inhibit aromatase activity in intact cells, MCF-7 human breast cancer cells were incubated with or without cAMP in the presence of 4-HPR. 4-HPR inhibited both basal and cAMP-induced aromatase activity in intact MCF-7 cells. The induction of aromatase mRNA expression in MCF-7 cells by cAMP was inhibited in cells treated with 4-HPR. These results indicate that 4-HPR inhibits both the enzymatic activity and expression of aromatase. These activities may play an important role in the known chemopreventive effect of 4-HPR towards breast cancer.     

Soluble HER-2/neu neutralizes biologic effects of anti-HER-2/neu antibody on breast cancer cells in vitro

Amplification and over-expression of the HER-2/neu proto-oncogene are associated with poor prognosis in women with both node-positive and node-negative breast cancer. Therefore, the encoded surface glycoprotein represents an attractive target for cancer immunotherapies. Furthermore, the extracellular domain of HER-2/neu is released from the cell surface by proteolytic cleavage. In the present experiments, we investigated the potential biologic effects of soluble HER-2/neu with particular emphasis on its interaction with anti-HER-2/neu antibodies. A monoclonal antibody specific for the extracellular domain of HER-2/neu dose dependently inhibited the proliferation of highly HER-2/neu-expressing SK-BR-3 and BT-474 breast cancer cells but had no effect on the proliferation of weakly to moderately HER-2/neu-expressing MCF-7, HBL-100 and ZR-75-1 breast cells. Addition of SK-BR-3 or BT-474 cell supernatants with high concentrations of soluble HER-2/neu led to a neutralization of anti-HER-2/neu antibody–mediated inhibition of proliferation due to a binding of soluble HER-2/neu by the antibody, which could be demonstrated by immunoprecipitation. Furthermore, the ability of anti-HER-2/neu antibodies to mediate antibody-dependent cellular cytotoxicity (ADCC) by lymphokine-activated killer cells was assessed. Cytolysis of SK-BR-3 tumor cells was increased significantly in the presence of anti-HER-2/neu antibodies. Similar to the proliferation inhibition, ADCC was neutralized by addition of soluble HER-2/neu-containing supernatants. Our data suggest that tumors rich in HER-2/neu might thus escape certain steps of immunologic control by neutralizing biologic activities of anti HER-2/neu antibodies due to the presence of soluble HER-2/neu. Int. J. Cancer 73:875–879, 1997. © 1997 Wiley-Liss, Inc.     

Retinoid therapy of high-risk neuroblastoma

Retinoids are derivatives of vitamin A that include all trans-retinoic acid (ATRA), 13-cis-retinoic acid, (13-cis-RA), and fenretinide (4-HPR). High levels of either ATRA or 13-cis-RA can cause arrest of cell growth and morphological differentiation of human neuroblastoma cell lines, and phase I trials showed that higher and more sustained drug levels were obtained with 13-cis-RA relative to ATRA. A phase III randomized trial showed that high-dose, pulse therapy with 13-cis-RA given after completion of intensive chemoradiotherapy (with or without autologous bone marrow transplantation) significantly improved event-free survival in high-risk neuroblastoma. The cytotoxic retinoid 4-HPR achieved multi-log cell kills in neuroblastoma cell lines resistant to ATRA and 13-cis-RA, and a pediatric phase I trial has shown it to be well tolerated. Cytotoxicity of 4-HPR is mediated at least in part by increasing tumor cell ceramide levels and combining 4-HPR with ceramide modulators increased anti-tumor activity in pre-clinical models. Thus, further clinical trials of 4-HPR in neuroblastoma, and of 4-HPR in combination with ceramide modulators, are warranted.     

Activation of the phosphatidylinositol 3-kinase/Akt pathway prevents radiation-induced apoptosis in breast cancer cells

Radiotherapy is widely used in the treatment of breast cancer and reduces the risk of loco-regional recurrence. Overexpression of the erbB2 receptor occurs in 20-30% of all breast cancers, and seems to be involved in chemotherapeutic resistance of breast cancer cells and radioresistance of lung cancer cells. The hypothesis of this study was that erbB2 confers resistance to radiation-induced apoptosis in breast cancer cells through the phosphatidylinositol 3-kinase (PI3-K)/Akt signalling pathway. Two human breast cancer cell lines were used, BT-474 and MCF-7. BT-474 cells overexpress erbB2 and have mutated p53, while MCF-7 have normal expression of erbB2 and functional p53. The cells were treated with the PI3-K inhibitor wortmannin or the erbB receptor ligand heregulin-beta1, which is expressed by both malignant and stromal cells in vivo. After pharmacological treatment, the cells were irradiated with 10 Gy gamma-radiation. Consistent with the p53 status in the cell lines, gamma-radiation caused G1 arrest in MCF-7 cells, but not in BT-474 cells. 10 Gy gamma-radiation increased apoptosis by on an average 76% (95% CI, 44-109%) in MCF-7. Treatment of MCF-7 with heregulin-beta1 decreased apoptosis by 66% (95% CI, 48-84%) compared to the untreated controls. In BT-474 cells, wortmannin in combination with radiation resulted in 119% (95% CI, 76-161%) more apoptosis compared to wortmannin alone, whereas radiation alone resulted in 45% (95% CI, 15-75%) increased apoptosis. This radiosensitising effect was not seen in MCF-7. Furthermore, transfection of MCF-7 cells with constitutively active Akt made the cells more resistant against apoptosis. Taken together, our results support the hypothesis that the erbB2/PI3-K/Akt signalling pathway is involved in resistance to radiation-induced apoptosis in breast cancer cells in which this signalling pathway is overstimulated.     

Novel therapeutic approach: ligands for PPARgamma and retinoid receptors induce apoptosis in bcl-2-positive human breast cancer cells

Effective treatment of tumors is often associated with activation of the endogenous apoptosis pathways. We have studied eight breast cancer cell lines (MCF-7, BT20, BT474, MDA-MB-231, MDA-MB-436, SKBR3, T-47D, ZR-75-1) possessing a variety of genetic defects. The clonogenic growth of breast cancer cell lines was inhibited by a ligand for PPAR (troglitazone, TGZ) combined with a ligand for either retinoid X receptor (RXR) (LG10069) (4/8 cell lines), RAR (ATRA) (5/8 cell lines) or RAR/RXR and RXR/RXR (9-cis-RA) (5/8 cell lines) independent of their expression of bcl-2, bag-1, ER, and p53. The cell lines (MCF-7, T-47D, ZR-75-1), which expressed both BRCA1 and p27, were extremely sensitive to the inhibitory effect of the combination of TGZ and either ATRA or 9-cis-RA (ED₉₀, 2-5 × 10^–11 M). However, only MCF-7, MDA-MB-231, and ZR-75-1 cells, which expressed a high level of bcl-2 protein, underwent apoptosis when exposed to the combination of TGZ and either ATRA or 9-cis-RA. Importantly, this effect was independent of expression levels of p53, ER, HER-2/neu, bag-1, and BRCA1. Therefore, the combination of ligands for PPAR and retinoid receptors may have a therapeutic role for breast cancer.     

Rational combinations of siRNAs targeting Plk1 with breast cancer drugs

Commonly used drugs for the treatment of breast cancer patients like paclitaxel and Herceptin often show severe side effects or induce resistance in clinical settings. Thus, we analysed a combination of Plk1 (polo-like kinase 1)-specific small interfering RNAs (siRNAs), a powerful tool to induce 'mitotic catastrophe' in cancer cells, together with these drugs to identify conditions for enhanced drug sensitivity. After transfection, the antineoplastic agents were added and cell proliferation, apoptosis and cell cycle distribution in breast cancer cells (MCF-7, SK-BR-3, MDA-MB-435 and BT-474) and in primary human mammary epithelial cells were determined. Downregulation of cellular Plk1 levels led to an elevated percentage of cells in G(2)/M phase. The percentage of apoptotic nuclei in MCF-7, MDA-MB-435, SK-BR-3 and BT-474 cells was clearly increased after incubation with Plk1-specific siRNAs and paclitaxel. Interestingly, the caspase pathway was activated after treatment with Plk1-specific siRNAs and paclitaxel or Herceptin. Treatment of breast cancer cells with siRNAs targeting Plk1 improved the sensitivity toward paclitaxel and Herceptin in a synergistic manner. In all experiments, very low concentrations across a wide range of clinically relevant concentrations were sufficient to induce an antiproliferative effect. The combination of Plk1-specific siRNAs with modern breast cancer drugs seems to represent rational combinations to be tested in preclinical trials.     

Profile of genetic alterations and tumorigenicity of human breast cancer cells

The profile of genetic alterations in four breast carcinoma cell lines, SK-BR-3, BT-474, MDA-MB361 and ZR-75-1 was examined by comparative genomic hybridization, G-band karyotyping, reverse chromosome painting and fluorescence in situ hybridization of single-copy genes. These lines are aneuploid with complex structural rearrangements and have DNA copy-number imbalances involving multiple sites that include amplification of ERBB-2 and MYC proto-oncogenes which are implicated in breast cancer pathogenesis. A novel site of high level amplification was mapped on chromosome 15. All lines were tumorigenic in nude mice, however, the latency and the incidence of tumor formation varied; SK-BR-3 and MDA-MB361 produced tumors in a shorter time and had a higher total number of genomic imbalances compared to BT-474 and ZR-75-1 cells. Tumor cell behavior in vivo was not reflected by the rate of in vitro cell proliferation. Underrepresentation on the long arm of chromosome 18 was the sole alteration that correlated with an increased tumorigenicity. Chromosome 18q is rich in tumor suppressor genes and its loss is prevalent in primary node-positive breast tumors. Cell lines with monoclonal populations preserve the genetic characteristics of the primary tumor and their use may facilitate the detection of specific alterations associated with breast cancer progression.     

Expression of BCL-2 in primary breast cancer and its correlation with tumour phenotype

BACKGROUND:: The role of apoptosis (programmed cell death) in the developmentand progression of breast cancer is unknown. Recently the bcl-2gene has been shown to block apoptosis and thus may promotetumour development. BCL-2 is localised to the luminal cellsof the normal breast, which are considered to be the originof malignant breast disease. PATIENTS AND METHODS:: Immunocytochemistry using anti bcl-2-antibody was performedon 107 breast cancer specimens belonging to node-positive patientsfrom the Ludwig Breast Cancer Studies I-IV and the results werecorrelated with survival, tumour grade, S-phase, oestrogen andprogesterone receptor status and c-erb B-2 expression. Westernand Southern blotting together with immunofluorescence wereperformed on the breast cancer cell lines BT-20, BT-474, MDA-MB-361,T47-D and MCF-7. RESULTS:: In the breast cancer derived cell line MCF-7 BCL-2 is expressedto a level similar to that of the B-lym-phoma cell line Karpas231 with t(14;18)(q32.3; q21.3), but no evidence of a rearrangementor gene amplification was identified. In a study of 107 breastcancers from the International Breast Cancer Study Group TrialsI-IV we have demonstrated a very significant inverse correlationof BCL-2 with c-erbB-2 expression (p = 0.002), and a positivecorrelation with oestrogen receptors (p = 0.001) and progesteronereceptors (p – 0.05). In this study there was no correlationof expression with S-phase fraction in the tumours or with anystage in the cell cycle as assessed in MCF-7 cells. CONCLUSION:: We conclude that BCL-2 might contribute to the malignant phenotypeof breast cancer by modulation of biological behaviour of cancercells. BCL-2, breast cancer, apoptosis     

反馈激活STAT3调控HER2阳性乳腺癌细胞拉帕替尼耐药的机制

 目的 探讨白介素-6（IL-6）在HER2阳性BT-474 乳腺癌细胞拉帕替尼耐药中的作用及其相关分子机制。方法 建立BT-474耐拉帕替尼细胞株（BT-474R）。Western blot检测耐药标志蛋白P-gp的表达，MTT法检测BT-474R细胞的IC50。Caspase-Glo? 3/7法检测拉帕替尼BT-474R与BT-474细胞的Caspase3/7酶活性的变化。Western blot法检测IL-6、p-STAT3、STAT3、Cleaved Caspase 3的蛋白表达水平；RNAi法沉默STAT3基因表达；Caspase-Glo? 3/7法和Annexin V-FITC/PI染色检测沉默后细胞凋亡程度。结果 BT-474R组P-gp表达水平显著高于BT-474组（P<0.05）。 拉帕替尼增强STAT3活性，沉默STAT3基因可恢复BT-474R细胞对拉帕替尼的敏感度、增加cleaved caspase 3蛋白表达水平和Caspase3/7 酶的活性（P<0.01）。沉默STAT3增强了拉帕替尼诱导的耐药细胞凋亡（P<0.01）。拉帕替尼诱导的IL-6表达和分泌激活STAT3，用IL-6抗体抑制拉帕替尼诱导的IL-6，可以阻止拉帕替尼刺激STAT3活性。结论 拉帕替尼通过诱导BT-474细胞分泌IL-6激活STAT3信号通路，增加HER2阳性乳腺癌细胞对拉帕替尼的耐药性。     

干扰素-γ对乳腺癌细胞Her2/neu表达及131I-Herceptin抑制肿瘤细胞增殖的影响

背景与目的:利用Herceptin对Her2/neu的靶向特性,将放射性核素131I联结到Herceptin进行放免靶向治疗,是治疗转移性乳腺癌的方法之一。而肿瘤摄取标记抗体的量与肿瘤细胞靶位分子的表达量密切相关。本研究应用IFN-γ上调乳腺癌细胞系Her2/neu的表达,以提高131I-Herceptin在乳腺癌细胞系的结合,及131I-Herceptin对乳腺癌细胞增殖的抑制作用。方法:取对数生长期乳腺癌细胞系MCF-7、SKBR-3和BT-474,实验组以终浓度为500U/ml的IFN-γ诱导培养48h,对照组加入不含IFN-γ的等量培养液。诱导前后采用流式细胞仪(FACS)检测3种细胞Her2/neu的表达率及平均荧光强度(MFI)。采用Iodogen法对Herceptin进行131I标记,以高压液相层析法(HPLC)测定131I-Herceptin的放射化学纯度(RCP),以非竞争性饱和结合法测定3种细胞诱导前后131I-Herceptin的结合率(B/T)。采用克隆形成实验评价诱导后131I-Herceptin对3种细胞杀伤效应的变化。实验组与对照组间Her2/neu表达率、MFI、B/T及克隆形成率的差异采用t检验。结果:MCF-7细胞Her2/neu基础表达率为(8.5±1.9)%,诱导后升高至(15.2±2.7)%(t=3.515,P<0.05),MFI从38±7升高至121±17(t=7.823,P<0.01);SKBR-3细胞和BT-474细胞的基础表达率分别为(98.9±1.1)%和(98.1±0.9)%,诱导后分别为(99.7±0.9)%和(99.5±1.2)%,无明显改变(P>0.05),但MFI分别从952±125、1020±98增高至1608±201(t=4.802,P<0.01)和1968±192(t=7.614,P<0.002)。131I-Herceptin在MCF-7、SKBR-3和BT-474的基础结合率分别为(5.2±1.4)%、(35.8±4.5)%和(37.2±3.6)%,诱导后分别升高为(12.3±3.4)%、(48.9±7.1)%和(59.5±8.7)%,对131I-Herceptin的结合倍增比分别为2.4、1.4和1.6倍。实验组3种细胞的克隆形成率分别为(30±4)%、(23±5)%及(19±6%),均显著低于对照组[分别为(49±3)%、(37±6)%、(34±5)%](t=6.574、3.105、3.323,P<0.05)。结论:IFN-γ可以上调乳腺癌细胞系Her-2/neu的表达和肿瘤细胞对131I-Herceptin的结合量,因此也提高了131I-Herceptin对乳腺癌细胞的增殖抑制作用。     

Differential steroid hormone regulation of human glandular kallikrein (hK2) and prostate-specific antigen (PSA) in breast cancer cell lines

We have investigated the steroid hormone regulation of human glandular kallikrein (hK2) and prostate-specific antigen (PSA) in the breast cancer cell lines BT-474, T-47D, MFM-223, MCF-7, ZR-75-1, MDA-MB-435, and BT-20. Using highly sensitive time-resolved fluorometric immunoassays, we were able to detect significant amounts of both kallikreins in tissue culture supernatants of BT-474, T-47D, and MFM-223 cells after hormonal stimulation. However, BT-474 cells produce much more hK2 than PSA, whereas the situation is reversed in T-47D cells. Furthermore, BT-474 cells produce, on absolute terms, about 500–1,000-fold more hK2 than T-47D cells. From all steroids tested, mibolerone, a synthetic non-metabolizable androgen, was the most potent stimulator for both kallikreins followed by the synthetic progestin norgestrel. Estradiol was able to induce production of small but significant amounts of hK2 and PSA in the BT-474 cell line, supporting the notion that there is a cross-talk between the estrogen and androgen hormone-receptor signaling pathways. MFM-223 is an androgen responsive cell line, devoid of other steroid hormone receptors, which is also capable of producing hK2 and PSA but at much lower amounts. MCF-7 and ZR-75-1 cell lines failed to produce any protein, even though they have similar steroid receptor content as the BT-474 and T-47D cell lines. This was also the case for MDA-MB-435, a cell line rich in androgen receptors. Our data suggest that the expression of the hK2 gene in breast cancer cell lines is mainly under the control of androgens and progestins, similarly to PSA. These cell lines may represent good models for studying the differential expression of these two genes and for identifying cellular factors (e.g. co-activators/co-repressors), which may modify the potency of expression after hormonal stimulation.