Tumor-suppressive effects of CDK8 in endometrial cancer cells

CDK8 is either amplified or mutated in a variety of human cancers, and CDK8 functions as an oncoprotein in melanoma and colorectal cancers. Previously, we reported that loss or reduction of CDK8 results in aberrant fat accumulation in Drosophila and mammals, suggesting that CDK8 plays an important role in inhibiting lipogenesis. Epidemiological studies have identified obesity and overweight as the major risk factors of endometrial cancer, thus we examined whether CDK8 regulates endometrial cancer cell growth by using several endometrial cancer cell lines, including KLE, which express low levels of CDK8, as well as AN3 CA and HEC-1A cells, which have high levels of endogenous CDK8. We observed that ectopic expression of CDK8 in KLE cells inhibited cell proliferation and potently blocked tumor growth in an in vivo mouse model. In addition, gain of CDK8 in KLE cells blocked cell migration and invasion in transwell, wound healing and persistence of migratory directionality assays. Conversely, we observed the opposite effects in all of the aforementioned assays when CDK8 was depleted in AN3 CA cells. Similar to AN3 CA cells, depletion of CDK8 in HEC-1A cells strongly enhanced cell migration in transwell assays, while overexpression of CDK8 in HEC-1A cells blocked cell migration. Furthermore, gene profiling of KLE cells overexpressing CDK8 revealed genes whose protein products are involved in lipid metabolism, cell cycle and cell movement pathways. Finally, depletion of CDK8 increased the expression of lipogenic genes in endometrial cancer cells. Taken together, these results show a reverse correlation between CDK8 levels and several key features of the endometrial cancer cells, including cell proliferation, migration and invasion as well as tumor formation in vivo. Therefore, in contrast to the oncogenic effects of CDK8 in melanoma and colorectal cancers, our results suggest that CDK8 plays a tumor-suppressive role in endometrial cancers.     

Overexpression of the Insulin Receptor Isoform A Promotes Endometrial Carcinoma Cell Growth

Epidemiological studies have demonstrated that type 2 diabetes mellitus (T2DM) and hyperinsulinemia are associated closely with endometrial carcinoma risk, although the molecular mechanism remains unclear. Insulin receptor isoformA expression is upregulated in many cancer cells and tissues, which suggests that IR-A-mediated signaling pathways may have important implications for cancer pathogenesis. We measured the expression of insulin receptor isoforms (IR-A and IR–B in the normal endometrium tissues, the endometrial carcinoma tissues and the endometrial carcinoma cell lines. We found that the total insulin receptor (IR) and IR-A expression mRNA levels and the ratio of IR-A to total IR in endometrial carcinoma specimens were significantly higher than them in control endometrial tissue specimens(P<0.05). Further analysis indicated that the tendency was more prominently in patients with T2DM. IR-A mRNA was differentially expressed in four endometrial carcinoma cell lines (Ishikawa, KLE, RL95-2 and HEC-1-A. RL95-2 cells have a low endogenous IR-A expression, and these were used to construct a stable cell line overexpressing IR-A. We found that IR-A overexpression significantly increased cell proliferation, the proportion of cells in S phase, activation of the Akt pathway and tumorigenicity of xenografts in nude mice. In contrast, there was no significant difference in the the percentage of apoptotic cells between cells overexpressing IR-A and control cells. Moreover, levels of phosphorylated ERK1/2 protein were significantly decreased in cells overexpressing IR-A relative to controls. These findings reveal the pivotal role of IR-A in endometrial cancer carcinogenesis, and suggest that the association of elevated IR-A levels with cell proliferation and tumorigenicity may be causally linked to its effect on the proportion of cells in S phase and the activation of the Akt pathway.     

Akt and XIAP regulate the sensitivity of human uterine cancer cells to cisplatin,doxorubicin and taxol

We have investigated the interrelationship between two anti-apoptotic factors, XIAP and Akt, and their role in chemoresistance of uterine cancer cells. We used one cervical cancer cell line (HeLa) and two endometrial cancer cell lines (KLE and Ishikawa) as a model. The three drugs decreased Akt and XIAP content and induced apoptosis in P-Akt-negative HeLa cells. In P-Akt1/3-positive Ishikawa cells apoptosis induction correlated with XIAP decrease. P-Akt1/2/3-positive KLE cells showed maximum chemoresistance as XIAP and Akt levels/phosphorylation remained stable in response to the three drugs, and only cisplatin could significantly induce apoptosis. We found that XIAP and Akt were functionally linked in uterine cancer cells, as downregulation of XIAP with RNAi decreased P-Akt levels, and inhibition of PI3-K/Akt activity using LY294002 decreased XIAP content. Overexpression of constitutively active Akt isoforms in HeLa cells induced isoform-specific sensitivity to doxorubicin and taxol but not cisplatin. XIAP RNAi increased the cell-specific sensitivity to cisplatin and doxorubicin but not taxol. Finally, we found P-Akt immunoreactivity in epithelial cells from multiple human endometrial carcinoma tumors, suggesting that Akt may also regulate chemosensitivity in uterine cancers in vivo. Altogether these results highlight an intertwined role for specific Akt isoforms and XIAP in chemoresistance of uterine cancer cells.     

Disruption of microRNA Biogenesis Confers Resistance to ER Stress-Induced Cell Death Upstream of the Mitochondrion

Global downregulation of microRNAs (miRNAs) is a common feature of human tumors and has been shown to enhance cancer progression. Several components of the miRNA biogenesis machinery (XPO5, DICER and TRBP) have been shown to act as haploinsufficient tumor suppressors. How the deregulation of miRNA biogenesis promotes tumor development is not clearly understood. Here we show that loss of miRNA biogenesis increased resistance to endoplasmic reticulum (ER) stress-induced cell death. We observed that HCT116 cells with a DICER hypomorphic mutation (Exn5/Exn5) or where DICER or DROSHA were knocked down were resistant to ER stress-induced cell death. Extensive analysis revealed little difference in the unfolded protein response (UPR) of WT compared to Exn5/Exn5 HCT116 cells upon ER stress treatment. However, analysis of the intrinsic apoptotic pathway showed that resistance occurred upstream of the mitochondria. In particular, BAX activation and dissipation of mitochondrial membrane potential was attenuated, and there was altered expression of BCL-2 family proteins. These observations demonstrate a key role for miRNAs as critical modulators of the ER stress response. In our model, downregulation of miRNA biogenesis delays ER stress-induced apoptosis. This suggests that disrupted miRNA biogenesis may contribute to cancer progression by inhibiting ER stress-induced cell death.     

AKT途径在雌激素调控子宫内膜癌KLE细胞中乙二醛酶Ⅰ表达的作用

目的：探讨雌激素是否通过AKT途径调控子宫内膜癌KLE细胞中乙二醛酶Ⅰ（GlyoxalaseⅠ,GloⅠ）的表达。方法：采用RT—PCR和Western blotting检测雌激素（17-β雌二醇）处理或AKT途径抑制剂（LY294002）处理子宫内膜癌KLE细胞后GloⅠ的mRNA或蛋白的表达情况。实验分4组：Con组（对照组）;LY294002组（LY294002处理组）;E2组（17-β雌二醇处理组）;E2＋LY294002组（LY294002预处理1小时后再17-β雌二醇处理组）。结果：1、经不同浓度的17-β雌二醇（Con、10^-11、10^-10、10-9M）作用于KLE细胞24小时后,GloⅠmRNA的相对表达量分别为1,1．58±0．04,1．82±0．03,1．81±0．04,以10^-10M的浓度时最为显著（P〈0．05）。以10,lOM的17-13雌二醇作用于KLE细胞48小时后,GloⅠ蛋白的相对表达量为1．79±0．02,高于Con组。2、以LY294002抑制AKT途径后,KLE细胞中GloⅠmRNA的相对表达量为0．69±0．03,蛋白的相对表达量为0．16±0．02,均低于Con组.3、E2＋LY294002组GloⅠmRNA和蛋白的相对表达量分别为1．02±0．04、1．01±0．03,均低于E2组中GloⅠmRNA和蛋白的相对表达量,E2组分别为1．34±0．03、1．79±0．02。LY294002组GloⅠmRNA和蛋白的相对表达量分别为0．69±0．03,0．16±0．02,均低于Con组GloⅠmRNA和蛋白的相对表达量。结论：雌激素可上调子宫内膜癌KLE细胞中GloⅠmRNA和蛋白的表达。抑制AKT途径可下调子宫内膜癌KLE细胞中GloⅠmRNA和蛋白的表达。AKT途径在雌激素调控子宫内膜癌KLE细胞中GloⅠ的表达无明显作用．     

Comprehensive Analysis of MicroRNA (miRNA) Targets in Breast Cancer Cells

MicroRNAs (miRNAs) regulate mRNA stability and translation through the action of the RNAi-induced silencing complex. In this study, we systematically identified endogenous miRNA target genes by using AGO2 immunoprecipitation (AGO2-IP) and microarray analyses in two breast cancer cell lines, MCF7 and MDA-MB-231, representing luminal and basal-like breast cancer, respectively. The expression levels of ∼70% of the AGO2-IP mRNAs were increased by DROSHA or DICER1 knockdown. In addition, integrated analysis of miRNA expression profiles, mRNA-AGO2 interaction, and the 3′-UTR of mRNAs revealed that >60% of the AGO2-IP mRNAs were putative targets of the 50 most abundantly expressed miRNAs. Together, these results suggested that the majority of the AGO2-associated mRNAs were bona fide miRNA targets. Functional enrichment analysis uncovered that the AGO2-IP mRNAs were involved in regulation of cell cycle, apoptosis, adhesion/migration/invasion, stress responses (e.g. DNA damage and endoplasmic reticulum stress and hypoxia), and cell-cell communication (e.g. Notch and Ephrin signaling pathways). A role of miRNAs in regulating cell migration/invasion and stress response was further defined by examining the impact of DROSHA knockdown on cell behaviors. We demonstrated that DROSHA knockdown enhanced cell migration and invasion, whereas it sensitized cells to cell death induced by suspension culture, glucose depletion, and unfolding protein stress. Data from an orthotopic xenograft model showed that DROSHA knockdown resulted in reduced growth of primary tumors but enhanced lung metastasis. Taken together, these results suggest that miRNAs collectively function to promote survival of tumor cells under stress but suppress cell migration/invasion in breast cancer cells.     

DICER-dependent biogenesis of let-7 miRNAs affects human cell response to DNA damage via targeting p21/p27

Recently, it was reported that knockdown of DICER reduced the ATM-dependent DNA damage response and homologous recombination repair (HRR) via decreasing DICER-generated small RNAs at the damage sites. However, we found that knockdown of DICER dramatically increased cell resistance to camptothecin that induced damage required ATM to facilitate HRR. This phenotype is due to a prolonged G1/S transition via decreasing DICER-dependent biogenesis of miRNA let-7, which increased the p21^Waf1/Cip1/p27^Kip1 levels and resulted in decreasing the HRR efficiency. These results uncover a novel function of DICER in regulating the cell cycle through miRNA biogenesis, thus affecting cell response to DNA damage.     

siRNA沉默整合素beta1 基因对子宫内膜癌细胞侵袭、转移的影响

目的：探讨siRNA 沉默整合素茁1 基因对子宫内膜癌细胞侵袭、转移的影响。方法：选取子宫内膜癌ECC-1细胞系(ER阳性) 和KLE细胞系(ER阴性)，分别转染Integrin beta1 siRNA 质粒(Integrin beta1 siRNA 组)、无义序列siRNA质粒(无义序列对照组)和空载 质粒(空载对照组)，利用实时荧光定量PCR 检测各组细胞中Integrin 茁1 mRNA的表达，Western blot 检测各组细胞中Integrin beta1、 beta-catenin 和C-Myc 蛋白的表达，Transwell 小室检测各组细胞迁移和侵袭能力，MTT 法检测各组细胞的增殖情况。结果：Integrin beta1 siRNA 组ECC-1 细胞和KLE 细胞中Integrin beta1 mRNA 和蛋白相对表达量均低于无义序列对照组和空载对照组(P<0.05)； Integrin beta 1 siRNA组ECC-1 细胞和KLE细胞中beta-catenin 蛋白和C-Myc 蛋白相对表达量均低于无义序列对照组和空载对照组， 差异均有统计学意义(P<0.05)；Integrin beta1 siRNA组ECC-1 细胞和KLE 细胞中迁移细胞数和侵袭细胞数均低于无义序列对照组 和空载对照组(P<0.05)；Integrin beta1 siRNA 组ECC-1细胞和KLE 细胞的A 值均低于无义序列对照组和空载对照组(P<0.05)。结 论：特异性抑制Integrin beta1 基因可抑制子宫内膜癌细胞迁移、侵袭和增殖，可能与抑制Wnt信号传导有关。     

Repurposing of antipsychotics perphenazine for the treatment of endometrial cancer

Endometrial cancer (EC) is one of the most common and fatal gynecological cancers worldwide, but there is no effective treatment for the EC patients of progesterone resistance. Repurposing of existing drugs is a good strategy to discover new candidate drugs. In this text, perphenazine (PPZ), approved for psychosis therapy, was identified as a potential agent for the treatment of both progesterone sensitive and resistant endometrial cancer for the first time. Specifically, perphenazine exhibited good cell proliferation inhibition in Ishikawa (ISK) and KLE cell lines according to the CCK-8 assay and colony formation assay. It also reduced the cell migration of ISK and KLE cell lines in the light of the transwell migration assay. Annexin-V/PI double staining assay suggested that perphenazine could effectively induce ISK and KLE cell apoptosis. Moreover, results of western blot assay indicated perphenazine obviously inhibited the phosphorylation of Akt. Delightedly, PPZ also could significantly attenuate xenograft tumor growth at both 3 mg/kg and 15 mg/kg in mice without influencing the body weights.     

HSF1在子宫内膜癌细胞中的表达及其与抗氧化的相关性研究

目的:探讨子宫内膜癌细胞在受到过氧化氢刺激时热休克因子1(Heat Shock Factor 1,HSF1)表达的变化,以及HSF1对肿瘤细胞抗凋亡能力的影响。方法:选择子宫内膜癌的Ishikawa、HEC-1-B及RL95-2三株细胞。分别测定细胞中HSF1基因转录以及翻译表达水平。给予细胞不同浓度的H2O2刺激后,检测细胞内HSF1的mRNA表达变化并且统计受刺激后细胞受抑制情况,观察细胞存活和生长与HSF1含量的关系。结果:三株细胞中HSF1mRNA和蛋白表达的基水平不同;在受到H2O2刺激后,细胞内HSF1表达有不同程度的升高;Ishikawa、HEC-1-B细胞分别在受到较高浓度的H2O2刺激后,细胞存活率出现明显下降;而RL95-2细胞在受到相对低浓度的H2O2刺激后,细胞存活率即出现明显降低。结论:一定范围内浓度的H2O2刺激能够上调子宫内膜癌细胞中HSF1在转录以及蛋白水平的表达,而过高的浓度会使细胞中HSF1表达减少,对于不同细胞来说H2O2刺激的适宜浓度不同。而能使细胞增殖与增长发生明显变化的H2O2浓度与细胞内HSF1表达水平相关。     

Effects of transforming growth factors and regulation of their mRNA levels in two human endometrial adenocarcinoma cell lines.

The effects of the transforming growth factor-beta 1 (TGF-beta 1) and epidermal growth factor (EGF) on the growth of cells from 2 endometrial cancer lines, Ishikawa and HEC-50 were evaluated by measuring rates of DNA synthesis and changes in cell numbers during culture. EGF at 17 and 1.7 nM concentrations consistently enhanced HEC-50 cell proliferation. TGF-beta 1 inhibited Ishikawa cell proliferation but, unexpectedly for epithelium-derived cells, stimulated HEC-50 cell growth. This effect is of interest as it indicates that endometrial cells can acquire an altered responsiveness to a growth inhibitor during the process of malignant transformation. Northern blot analyses showed expression of TGF-alpha, TGF-beta 1 and EGF receptors mRNA in both cell lines. Neither estradiol (E2) nor 4-hydroxytamoxifen (OHTam) affected mRNA levels for either TGF-alpha or TGF-beta in HEC-50 cells, a line unresponsive to E2 for proliferation. In Ishikawa cells, previously shown to respond to both E2 and OHTam by increasing proliferation rates, E2 increased TGF-alpha mRNA and reduced TGF-beta mRNA levels. OHTam lowered the levels of both mRNA species, although the effect was greater on TGF-beta than TGF-alpha mRNA. These data are consistent with, but do not prove, the existence of a possible autocrine regulation by TGF-alpha and TGF-beta of human cancer cell proliferation, which might be under E2 influence in Ishikawa cells.     

Age-related expression of PEDF/EPC-1 in human endometrial stromal fibroblasts: implications for interactive senescence

Aging is the major risk factor for many cancers, and age-related changes in the tissue microenvironment can facilitate tumor growth. This study uses human endometrial cells to begin to test the hypothesis that age-related changes in pigment epithelium-derived factor/early population doubling cDNA-1 (PEDF/EPC-1) levels create an environment that is more permissive to tumor growth. Endometrial stromal fibroblasts (ESF) are the predominant cell type in the human endometrium and exert regulatory control over the glandular epithelial cells, which are the source of most tumors. As ESF age in vitro, their ability to regulate appropriate growth and differentiation of epithelial cells declines. Endometrial epithelial cells in primary culture expressed relatively low levels of PEDF/EPC-1 mRNA. In contrast, early passage quiescent ESF from adult donors produce higher levels of the 1.5-kb PEDF/EPC-1 mRNA and 50-kDa secreted protein than epithelial cells. As ESF age in vitro the relative abundance of PEDF/EPC-1 mRNA declines, as does the level of PEDF/EPC-1 protein secreted into cell culture medium. Treatment with PEDF/EPC-1 protein had no effect on ESF proliferation but did inhibit anchorage-dependent and anchorage-independent proliferation of endometrial carcinoma cells in a dose- and time-dependent manner. These findings imply that an age-related loss of PEDF/EPC-1 expression by ESF could eliminate a negative regulator of cancer cell growth and, thereby, contribute to the age-related increase in cancer incidence.     

RNA-binding protein AUF1 represses Dicer expression

MicroRNA (miRNA) biogenesis is tightly regulated by numerous proteins. Among them, Dicer is required for the processing of the precursor (pre-)miRNAs into the mature miRNA. Despite its critical function, the mechanisms that regulate Dicer expression are not well understood. Here we report that the RNA-binding protein (RBP) AUF1 (AU-binding factor 1) associates with the endogenous DICER1 mRNA and can interact with several segments of DICER1 mRNA within the coding region (CR) and the 3′-untranslated region (UTR). Through these interactions, AUF1 lowered DICER1 mRNA stability, since silencing AUF1 lengthened DICER1 mRNA half-life and increased Dicer expression, while overexpressing AUF1 lowered DICER1 mRNA and Dicer protein levels. Given that Dicer is necessary for the synthesis of mature miRNAs, the lowering of Dicer levels by AUF1 diminished the levels of miRNAs tested, but not the levels of the corresponding pre-miRNAs. In summary, AUF1 suppresses miRNA production by reducing Dicer production.