Simultaneous activity of two different mechanisms of folate transport in ovarian carcinoma cell lines

We investigated whether the folate receptor α-isoform (FRα), which is overexpressed on ovarian carcinoma cells, is functionally active in internalizing the physiological form of folate, 5-methyl tetrahydrofolate (THF). Six ovarian tumor cell lines, expressing different levels of FRα (COR ≫ OVCAR3 > IGROV1 > OVCAR4 > SKOV3 > OVCAR5), were maintained in folate-depleted medium and internalization of 10 nM evaluated as acid-resistant radioactivity at 0° and 37°C. The amount of 5-methyl[³H]THF present in this fraction was not strictly related to the number of membrane receptors, since even cell lines with low FRα expression, e.g., OVCAR4, showed efficient internalization. Time-course studies indicated that, whereas no uptake was detected at 0°C, at 37°C the internalized fraction showed a slow and constant increase, until 4 h. At this time, the internalized radioactivity represented <50% of the total bound in COR, OVCAR3 and IGROV1 cells, whereas the other cell lines tested internalized fourfold more folate than their surface binding capacity. The incubation in the presence of a concentration (50 nM) of 5-methyl[³H]THF, which best ensures receptors saturation on cells with highest FR levels (COR and OVCAR3), had slight effect on surface binding of all the tested cell lines, including IGROV1 and SKOV3. In contrast, the increase of the uptake was more pronounced, particularly in SKOV3 cells. These results, together with the accumulation curves of folic acid (FA) and 5-methylTHF at 37°C, suggested the presence of a molecule on ovarian carcinoma cells with high affinity for reduced folates, possibly a reduced folate carrier (RFC). Measurement of radioactivity present in the supernatant of IGROV1 and SKOV3 cells, subjected to hypotonic lysis and cell fractionation, further indicated that 5-methyl[³H]THF was translocated to the cytosol and, despite differences in membrane levels of FRα expression this internalized fraction was similar in both cell lines. Inhibition experiments to selectively block FRα or RFC activity showed a differential sensitivity of the two pathways depending on the cell line examined. Internalization was more consistently inhibited on IGROV1 than on SKOV3 cells by treatments that disrupt FRα activity, e.g., incubation with excess FA and phosphatidylinositol specific phospholipase C, whereas Probenecid, which preferentially inhibits the carrier-mediated pathway, showed a strong inhibitory effect on both cell lines. These findings suggest that the internalization of 5-methylTHF in these tumor cells depends not only on the level of overexpressed FRα, but another transport route, with features characteristic for RFC, is functional and participates in folate uptake. J. Cell. Biochem. 65:479–491. © 1997 Wiley-Liss Inc.     

Cell cycle arrest or survival signaling through αv integrins,activation of PKC and ERK1/2 lead to anoikis resistance of ovarian cancer spheroids

Ovarian cancer is the most lethal gynecologic cancer mainly due to spheroids organization of cancer cells that disseminate within the peritoneal cavity. We have investigated the molecular mechanisms by which ovarian cancer spheroids resist anoikis, choosing as models the 2 well-characterized human ovarian cancer cell lines IGROV1 and SKOV3. These cell lines have the propensity to float as clusters, and were isolated from tumor tissue and ascites, respectively. To form spheroids, IGROV1 and SKOV3 ovarian adenocarcinoma cells were maintained under anchorage-independent culture conditions, in which both lines survive at least a week. A short apoptotic period prior to a survival signaling commitment was observed for IGROV1 cells whereas SKOV3 cells entered G0/G1 phase of the cell cycle. This difference in behavior was due to different signals. With regard to SKOV3 cells, activation of p38 and an increase in p130/Rb occurred once anchorage-independent culture was established. Analyses of the survival signaling pathway switched on by IGROV1 cells showed that activation of ERK1/2 was required to evade apoptosis, an effect partly dependent on PKC activation and αv integrins. αv-integrin expression is essential for survival through activation of ERK1/2 phosphorylation.     

Silencing of the integrin-linked kinase gene induces the apoptosis in ovarian carcinoma

Context: Integrin-linked kinase (ILK), a multidomain focal adhesion protein serine/threonine kinase, plays an essential role in ovarian carcinoma. There are reports that the expression and activity of ILK are increased in ovarian cancer.

Objective: To test the hypothesis that ILK pathway mediates the apoptosis of ovarian carcinoma SKOV3 cell influencing the cell survival, we performed these studies.

Materials and methods: We applied lentivirus transfection, 3-(4, 5-dimethylthiazol-2-yl)-2, 5-diphenyl-tetrazolium bromide (MTT), apoptotic proteins expressions assay, and Hoechst to study our hypothesis.

Results: We found that silencing of the ILK increases the cell cytotoxic, growth inhibition, and apoptosis. Moreover, after blocking the activation of ILK with ILK shRNA, up-regulation of pro-apoptotic bax expression and down-regulation of the anti-apoptotic bcl-2 expression were found in ovarian cancer SKOV3 cell line. These were associated with an increasing cleaved caspase-3 activity and chromatin condensation of cell nuclear. Furthermore, the expressions of fas and fas ligand (fasL), belonging to the tumor necrosis factor family and controlling the cell apoptosis, were also enhanced.

Conclusions: Thus, these findings indicate that both the intrinsic pathway and the extrinsic death receptor pathway are involved in the process that silencing of the ILK gene induces the apoptosis in ovarian carcinoma SKOV3 cell.     

Role of GPER on proliferation,migration and invasion in ligand‐independent manner in human ovarian cancer cell line SKOV3

G protein‐coupled estrogen receptor (GPER) is identified as a critical estrogen receptor, in addition to the classical estrogen receptors ERα and ERβ. In ERα‐negative ovarian cancer cells, our previous studies have found that estrogen stimulated cell proliferation and metastasis via GPER. However, the ligand‐independent function of GPER in ovarian cancer cells is still not clear. Herein, we describe that GPER has a co‐expression with ERα and ERβ, which are first determined in SKOV3 ovarian cancer cell line. In the absence of estrogen, GPER depletion by specific siRNA inhibits the proliferation, migration and invasion of SKOV3 cells. Whereas abrogation of ERα or ERβ by specific antagonist MPP and PHTPP has the opposite effects for stimulation of cell growth. Markedly, GPER knockdown attenuates MPP or PHTPP‐induced cell proliferation, migration and invasion. Furthermore, GPER modulates protein expression of the cell cycle critical components, c‐fos and cyclin D1 and factors for cancer cell invasion and metastasis, matrix metalloproteinase 2 (MMP‐2) and MMP‐9. These findings establish that GPER ligand‐independently stimulates the proliferation, migration and invasion of SKOV3 cells. Knockdown of GPER attenuates the progression of ovarian cancer that caused by functional loss of ERα or ERβ. Targeting GPER provides new aspect as a potential therapeutic strategy in ovarian cancer. Copyright © 2015 John Wiley & Sons, Ltd.     

Nuclear translocation of EGF receptor regulated by Epstein-Barr virus encoded latent membrane protein 1

Epstein-Barrvirus(EBV),oneoftheDNAon-cogenicviruses,iscloselyassociatedwiththegenesisofBurkitt抯lymphoma,undifferentiatednasopharyn-gealcarcinoma(NPC),Hodgkin抯disease,gastriccancerand,lungcancer,etc.[1].EBVencodedlatentmembraneprotein1(LMP1)isconsideredtobethemajoroncogenicproteinofEBVencodedproteins.Biologicallyspeaking,LMP1isanintegralmembraneproteincontaining386aminoacids.Thethreedo-mains(CTAR1,CTAR2,CTAR3)intheC-terminusofLMP1havebeenshowntoinitiatethesignalingproc-ess.The…     

瘦素对卵巢癌细胞 SKOV3 增殖及凋亡的影响

目的:探讨瘦素对人卵巢癌SKOV3细胞增殖及凋亡的影响及其作用机制。方法:用不同浓度的瘦素(0、50、100、200 ng/m L)处理人卵巢癌SKOV3细胞48 h后,采用MTT法检细胞的生长;以血清饥饿诱导细胞凋亡,同时给予瘦素刺激,Annexin V/PI双染法检测细胞凋亡的变化;western blotting分析p21、cyclin D1、Bcl-2、Bax蛋白的表达水平和ERK1/2通路的活化情况。结果:瘦素以剂量依赖性的方式促进人卵巢癌SKOV3细胞的增殖,同时抑制血清饥饿诱导的细胞凋亡。瘦素处理可下调p21和上调cyclin D1的表达,抑制促凋亡分子Bax的表达和上调抗凋亡分子Bcl-2的表达。瘦素可诱导细胞中ERK1/2通路的活化,其抑制剂PD98059可明显抑制瘦素诱导的促细胞增殖和抗凋亡作用,同时伴随有cyclin D1、Bcl-2蛋白表达的下调和Bax的上调。结论:瘦素可能通过活化ERK1/2通路调节细胞有丝分裂进程,进而促进卵巢癌细胞的增殖;同时通过调节凋亡相关蛋白Bcl-2和Bax的表达抑制卵巢癌细胞的凋亡。     

Overexpression of the lncRNA FER1L4 inhibits paclitaxel tolerance of ovarian cancer cells via the regulation of the MAPK signaling pathway

To determine how the lncRNA FER1L4 in ovarian cancer cells influences paclitaxel (PTX) resistance, we examined the expression level of FER1L4 in human ovarian epithelial cell lines IOSE80 and HOSEpiC and human ovarian cancer cell lines OVCAR-3, Caov-3, and SKOV3 through RNA isolation and quantitative polymerase chain reaction (qRT-PCR). SKOV3 cell lines were treated with PTX. The cell survival rate and apoptosis rate of SKOV3 and SKOV3-PR at different PTX dose levels were evaluated. Next, qRT-PCR was performed to detect the expression of FER1L4 in SKOV3 and SKOV3-PR cell lines. SKOV3-PR cell lines were transfected with pcDNA3.1 as the control group (SKOV3-PR/pcDNA3.1) or pcDNA3.1-FER1L4 to upregulate the expression level of FER1L4 (SKOV3-PR/pcDNA3.1-FER1L4). The level of cell survival, apoptosis, and colony formation were compared between the two groups using MTT, flow cytometry analysis, and colony formation assay. To reveal the molecular mechanism, we measured the relative protein phosphorylation level of ERK and MAPK in SKOV3, SKOV3-PR, SKOV3-PR/pcDNA3.1, and SKOV3-PR/pcDNA3.1-FER1L4 groups using an enzyme-linked immunosorbent assay. The effects of SB203580 (a p38 MAPK inhibitor) on PTX were also investigated to reveal the function of the MAPK pathway on the PTX tolerance of SKOV3. In comparison with normal ovarian epithelial cells, FER1L4 was downregulated. The FER1L4 level was decreased in human ovarian cancer cells with drug resistance than in common ovarian cancer cells. The upregulation of FER1L4 could promote the PTX sensitivity of ovarian cancer cells. The increased level of FER1L4 could suppress the PTX resistance of ovarian cancer cells through the inhibition of the MAPK signaling pathway.     

miR-335靶向Rho相关卷曲螺旋形成蛋白激酶1对卵巢癌细胞增殖的影响

目的: 探讨miR-335 靶向Rho相关卷曲螺旋形成蛋白激酶1(rho associated coiled-coil forming protein kinase 1,ROCK1)对卵巢癌细胞系SKOV3增殖的调控作用。方法:(1)选取卵巢癌细胞系SKOV3及人正常卵巢上皮细胞系IOSE80,采用RT-PCR检测各组细胞中miR-335表达;采用Western blot检测各组细胞中ROCK1蛋白表达;(2)选取卵巢癌细胞系SKOV3,分别转染miR-335 mimic及mimic control,采用RT-PCR检测细胞中miR-335表达;(3)选取卵巢癌细胞系SKOV3,将SKOV3荧光素酶报告载体与miR-335 mimic共转染,采用荧光素酶活性实验验证miR-335对SKOV3的靶向作用;(4)选取卵巢癌细胞系SKOV3,分为3组,即SKOV3组(转染mimic control)、miR-335 mimic组(转染miR-335 mimic)及miR-335 mimic+ROCK1组(共转染miR-335 mimic+ROCK1),采用MTT法检测各组细胞增殖活性,采用Western blot检测各组细胞中ROCK1蛋白表达,采用RT-PCR检测细胞中Cyclin D1表达。结果: (1)RT-PCR结果显示,卵巢癌细胞SKOV3中miR-335表达显著低于人正常卵巢上皮细胞IOSE80(P < 0.05);Western blot结果显示,卵巢癌细胞SKOV3中ROCK1蛋白表达显著高于人正常卵巢上皮细胞IOSE80(P < 0.05);(2)RT-PCR结果显示,转染miR-335 mimic可使卵巢癌细胞SKOV3中miR-335表达上调,与转染mimic control相比较差异具有统计学意义(P < 0.05);(3)双荧光素酶活性检测结果显示,miR-335 mimic可显著抑制野生型ROCK1-Wt报告载体的荧光素酶活性,但对突变型ROCK1-Mut报告载体的荧光素酶活性并无显著抑制作用;(4)转染miR-335mimic后,卵巢癌细胞SKOV3增殖活性及Cyclin D1表达较阴性对照组显著降低(P < 0.05);而转染miR-335 mimic+ROCK1后,卵巢癌细胞SKOV3增殖活性及Cyclin D1表达较单纯转染miR-335 mimic组显著提高(P < 0.05),但仍显著低于阴性对照组(P < 0.05)。Western blot检测结果显示,转染miR-335mimic后,卵巢癌细胞SKOV3中ROCK1蛋白表达较阴性对照组显著降低(P < 0.05);而转染miR-335 mimic+ROCK1后,ROCK1蛋白表达较单纯转染miR-335mimic组显著增高(P < 0.05),且显著高于阴性对照组(P < 0.05)。结论: miR-335可通过靶向ROCK1抑制卵巢癌细胞系SKOV3增殖。     

转录因子FOXM1在上皮性卵巢癌中的表达及临床意义

FOXM1(Forkhead box protein M1)是调控细胞增殖的重要转录因子,近年来研究表明与肿瘤发生密切相关,但与卵巢癌的关系尚不明确.通过检测68例卵巢癌标本、21例卵巢良性肿瘤标本、24例正常卵巢标本以及3株卵巢癌细胞系(A2780细胞、OVCAR3细胞、SKOV3细胞)中FOXM1的表达情况,分析其与临床参数之间的相关性及临床意义.结果显示卵巢癌中FOXM1表达明显高于卵巢良性肿瘤及正常卵巢组织,差异极为显著,其中低分化细胞中表达强于中高分化细胞(P=0.013),Ⅲ～Ⅳ期表达强于Ⅰ～Ⅱ期(P=0.011),但与病理类型无关;FOXM1在3株卵巢癌细胞系中均有较强表达.FOXM1在卵巢癌组织及3种卵巢癌细胞系中存在高表达,且与卵巢癌分化程度及临床分期有关.     

Deletion of SMURF 1 represses ovarian cancer invasion and EMT by modulating the DAB2IP/AKT/Skp2 feedback loop

SMAD ubiquitination regulatory factor 1 (SMURF1) has been described as a tumor suppressor in multiple aggressive cancers. Nevertheless, the potential role of SMURF1 in ovarian cancer invasion and epithelial-to-mesenchymal transition (EMT) remains unclear. The aim of this study was to evaluate the efficacy of SMURF1 on tumor migration and EMT and elucidate the underlying molecular mechanism in ovarian carcinoma. We found elevated SMURF1 in several ovarian cancer cells in both messenger RNA and protein. Additionally, silencing SMURF1 apparently repressed cell proliferation and invasion capacity of SKOV3 and A2780 cells and markedly attenuated expression of linked proteins such as proliferating cellnuclear antigen, matrix metalloproteinase (MMP)-2, and MMP-9. Furthermore, depletion of SMURF1 dramatically impeded EMT progress by modulating EMT biomarkers, with a notable increase in E-cadherin expression accompanied by the decrease in N-cadherin and vimentin in both SKOV3 and A2780 cells. Interestingly, elimination of SMURF1 led to disabled homolog 2 DOC-2/DAB2 interacting protein (DAB2IP) activation and dampened AKT/Skp2 signaling. Most important, depleted of DAB2IP or treatment with the AKT agonist 740Y-P effectively abolished the suppressive effects of SMURF1 knockout on cell invasiveness and EMT process. Taken all data together, these findings demonstrated that the absence of SMURF1 repressed cell proliferation, invasive capability, and EMT process in ovarian cancer through DAB2IP/AKT/Skp2 signaling loops, suggesting that SMURF1 may serve as a new potential therapeutic agent for ovarian cancer.     

The role of nuclear matrix proteins binding to matrix attachment regions (Mars) in prostate cancer cell differentiation

In tumor progression definite alterations in nuclear matrix (NM) protein composition as well as in chromatin structure occur. The NM interacts with chromatin via specialized DNA sequences called matrix attachment regions (MARs). In the present study, using a proteomic approach along with a two-dimensional Southwestern assay and confocal laser microscopy, we show that the differentiation of stabilized human prostate carcinoma cells is marked out by modifications both NM protein composition and bond between NM proteins and MARs. Well-differentiated androgen-responsive and slowly growing LNCaP cells are characterized by a less complex pattern and by a major number of proteins binding MAR sequences in comparison to 22Rv1 cells expressing androgen receptor but androgen-independent. Finally, in the poorly differentiated and strongly aggressive androgen-independent PC3 cells the complexity of NM pattern further increases and a minor number of proteins bind the MARs. Furthermore, in this cell line with respect to LNCaP cells, these changes are synchronous with modifications in both the nuclear distribution of the MAR sequences and in the average loop dimensions that significantly increase. Although the expression of many NM proteins changes during dedifferentiation, only a very limited group of MAR-binding proteins seem to play a key role in this process. Variations in the expression of poly (ADP-ribose) polymerase (PARP) and special AT-rich sequence-binding protein-1 (SATB1) along with an increase in the phosphorylation of lamin B represent changes that might trigger passage towards a more aggressive phenotype. These results suggest that elucidating the MAR-binding proteins that are involved in the differentiation of prostate cancer cells could be an important tool to improve our understanding of this carcinogenesis process, and they could also be novel targets for prostate cancer therapy.     

A comparison of caveolae and caveolin-1 to folate receptor alpha in retina and retinal pigment epithelium

Caveolae are flask-shaped membrane invaginations present in most mammalian cells. They are distinguished by the presence of a striated coat composed of the protein, caveolin. Caveolae have been implicated in numerous cellular processes, including potocytosis in which caveolae are hypothesized to co-localize with folate receptor and participate in folate uptake. Our laboratory has recently localized folate receptor to the basolateral surface of the retinal pigment epithelium (RPE). It is present also in many other cells of the retina. In the present study, we asked whether caveolae were present in the RPE, and if so, whether their pattern of distribution was similar to folate receptor . We also examined the distribution pattern of caveolin-1, which can be a marker of caveolae. Extensive electron microscopical analysis revealed caveolae associated with endothelial cells. However, none were detected in intact or cultured RPE. Laser scanning confocal microscopical analysis of intact RPE localized caveolin-1 to the apical and basal surfaces, a distribution unlike folate receptor . Western analysis confirmed the presence of caveolin-1 in cultured RPE cells and laser scanning confocal microscopy localized the protein to the basal plasma membrane of the RPE, a distribution like that of folate receptor . This distribution was confirmed by electron microscopic immunolocalization. The lack of caveolae in the RPE suggests that these structures may not be essential for folate internalization in the RPE.     

Nuclear localization of profilin III-ArpM1 complex in mouse spermiogenesis

Actin-related proteins (Arps) have been reported to be localized in the cell nucleus, and implicated in the regulation of chromatin and nuclear structure, as well as being involved in cytoplasmic functions. We demonstrate here that mouse ArpM1, which closely resembles the conventional actin, is expressed exclusively in the testis, particularly in haploid germ cells. ArpM1 protein first appears in the round spermatid and changes its localization dynamically in the nucleus during spermiogenesis. By co-immunoprecipitation analysis, profilin III was identified as ArpM1-interacting protein. Our findings suggest that the testis-specific profilin III-ArpM1 complex may be involved in conformational changes in the organization of the sperm-specific nucleus. STRUCTURED SUMMARY:     

Resveratrol potentially increased the tumoricidal effect of doxorubicin on SKOV3 cancer stem cells in vitro

Ovarian cancer is associated with a high percentage of recurrence of tumor and resistance to chemotherapy. Cancer stem cells (CSCs) form a rare population with a significant capacity to begin and expand malignant diseases. Eliminating the drug resistance of CSCs by factors that have fewer side effects to the patient is vital. To investigate the effect of resveratrol (RES) and doxorubicin (DOX) on drug resistance and apoptosis of CSCs; at the first, isolation of CSCs from SKOV3 ovarian carcinoma cells and their dosage adjustment (IC₅₀) with RES and DOX was performed. Then, isolated CSCs were treated with RES and DOX IC ₅₀ of 55 and 250 nM, respectively. Subsequently, their effects on drug resistance and cell death were evaluated using real-time polymerase chain reaction, rhodamine 123 uptakes. The results of the present study demonstrated that treatment of SKOV3 with 55 μM of RES and 250 nM of DOX simultaneously increased cell viability in CSCs to DOX after 24 and 48 hours by increasing the expression of Bcl-2-associated X protein (BAX) and caspase-3 genes, and decreased the expression and function of multidrug resistance protein 1 (MDR1) and multidrug resistance-associated protein 1 (MRP1) genes indicated by intracellular the rhodamine 123 content. Treatment of RES could increase the activity of DOX cell viability in CSCs originated from SKOV3 ovarian carcinoma and decrease drug resistance capacity to DOX.