Brigitte L Thériault

Primary culture of ovarian surface epithelial cells and ascites-derived ovarian cancer cells from patients

Our laboratory has refined the technique for isolating primary cultures of normal human ovarian surface epithelial (OSE) cells by combining two different protocols involving the enzymatic and mechanical removal of OSE cells from ovarian biopsies. A simple protocol of obtaining primary epithelial ovarian cancer (EOC) cells from the ascites fluid removed from patients with high-grade ovarian cancer is also described. These methods allow for the direct application of many molecular and cellular analyses of normal versus cancer cells isolated freshly from patients, with the added potential for retrospective analyses of archived cells and tissues. Thus, we have included optional steps for the immediate preparation of ascites-derived EOC cells to be used for subsequent cytological analyses. Initial isolation of OSE or EOC cells can be completed in 1 h, and primary cells are further expanded in culture for several weeks.

Autocrine BMP4 signalling regulates ID3 proto-oncogene expression in human ovarian cancer cells.

Bone morphogenetic protein (BMP)-4 signalling leads to the direct upregulation of ID3 proto-oncogene expression in human ovarian cancer cells. An upstream BMP4-responsive enhancer element consisting of a palindromic BMP response element (BRE) site and CAGA box was identified ~3.0 kb upstream of the human ID3 gene, and a nearly-identical element exists in the second intron of the ID3 gene. BMP4 stimulation leads to the direct binding of Smads 1/5 and Smad4 to the upstream and intronic enhancers, and together both enhancers cooperate to yield heightened BMP4-mediated ID3 promoter activity. We further demonstrate that ID3 is overexpressed in human ovarian cancer cells when compared to normal ovarian surface epithelial cells, and treatment of ovarian cancer cells with the BMP4 antagonist Noggin abrogates endogenous ID3 gene expression. Our findings define the mechanism of BMP4-mediated ID3 gene expression, and support the notion that ovarian cancer cells possess autocrine BMP4 signalling required to sustain ID3 overexpression which may contribute to human ovarian cancer pathogenesis.

Kinesin family member 14: An independent prognostic marker and potential therapeutic target for ovarian cancer

The novel oncogene KIF14 (kinesin family member 14) shows genomic gain and overexpression in many cancers including OvCa (ovarian cancer). We discovered that expression of the mitotic kinesin KIF14 is predictive of poor outcome in breast and lung cancers. We now determine the prognostic significance of KIF14 expression in primary OvCa tumors, and evaluate KIF14 action on OvCa cell tumorigenicity in vitro. Gene‐specific multiplex PCR and real‐time QPCR were used to measure KIF14 genomic (109 samples) and mRNA levels (122 samples) in OvCa tumors. Association of KIF14 with clinical variables was studied using Kaplan–Meier survival and Cox regression analyses. Cellular effects of KIF14 overexpression (stable transfection) and inhibition (stable shRNA knockdown) were studied by proliferation (cell counts), survival (Annexin V immunocytochemistry) and colony formation (soft‐agar growth). KIF14 genomic gain (>2.6 copies) was present in 30% of serous OvCas, and KIF14 mRNA was elevated in 91% of tumors versus normal epithelium. High KIF14 in tumors independently predicted for worse outcome (p = 0.03) with loss of correlation with proliferation marker expression and increased rates of recurrence. Overexpression of KIF14 in OvCa cell lines increased proliferation and colony formation (p < 0.01), whereas KIF14 knockdown induced apoptosis and dramatically reduced colony formation (p < 0.05). Our findings indicate that KIF14 mRNA is an independent prognostic marker in serous OvCa. Dependence of OvCa cells on KIF14 for maintenance of in vitro colony formation suggests a role of KIF14 in promoting a tumorigenic phenotype, beyond its known role in proliferation.

KIF14 negatively regulates Rap1a–Radil signaling during breast cancer progression

The kinesin KIF14 associates with the PDZ domain of Radil and negatively regulates Rap1-mediated inside-out integrin activation by tethering Radil on microtubules.

Regulation of p14ARF expression by miR-24: a potential mechanism compromising the p53 response during retinoblastoma development

BackgroundMost human cancers show inactivation of both pRB- and p53-pathways. While retinoblastomas are initiated by loss of the RB1 tumor suppressor gene, TP53 mutations have not been found. High expression of the p53-antagonist MDM2 in human retinoblastomas may compromise p53 tumor surveillance so that TP53 mutations are not selected for in retinoblastoma tumorigenesis. We previously showed that p14ARF protein, which activates p53 by inhibiting MDM2, is low in retinoblastomas despite high mRNA expression.MethodsIn human fetal retinas, adult retinas, and retinoblastoma cells, we determined endogenous p14ARF mRNA, ARF protein, and miR-24 expression, while integrity of p53 signalling in WERI-Rb1 cells was tested using an adenovirus vector expressing p14ARF. To study p14ARF biogenesis, retinoblastoma cells were treated with the proteasome inhibitor, MG132, and siRNA against miR-24.ResultsIn human retinoblastoma cell lines, p14ARF mRNA was disproportionally high relative to the level of p14ARF protein expression, suggesting a perturbation of p14ARF regulation. When p14ARF was over-expressed by an adenovirus vector, expression of p53 and downstream targets increased and cell growth was inhibited indicating an intact p14ARF-p53 axis. To investigate the discrepancy between p14ARF mRNA and protein in retinoblastoma, we examined p14ARF biogenesis. The proteasome inhibitor, MG132, did not cause p14ARF accumulation, although p14ARF normally is degraded by proteasomes. miR-24, a microRNA that represses p14ARF expression, is expressed in retinoblastoma cell lines and correlates with lower protein expression when compared to other cell lines with high p14ARF mRNA. Transient over-expression of siRNA against miR-24 led to elevated p14ARF protein in retinoblastoma cells.ConclusionsIn retinoblastoma cells where high levels of p14ARF mRNA are not accompanied by high p14ARF protein, we found a correlation between miR-24 expression and low p14ARF protein. p14ARF protein levels were restored without change in mRNA abundance upon miR-24 inhibition suggesting that miR-24 could functionally repress expression, effectively blocking p53 tumor surveillance. During retinal tumorigenesis, miR-24 may intrinsically compromise the p53 response to RB1 loss.

Human ovarian cancer cell morphology, motility, and proliferation are differentially influenced by autocrine TGFβ superfamily signalling.

TGFβ superfamily signalling participates in normal and pathophysiologic cellular processes. Despite several reports demonstrating active TGFβ superfamily signalling pathways in OvCa cell lines and primary cultures, few studies examine their functional outcome. Herein we show that primary human ovarian cancer cells possess intact autocrine BMP, TGFβ and activin signalling. Blocking autocrine signalling resulted in differential cellular responses affecting cellular morphology, motility and proliferation. Additionally, BMP4-induced alterations in morphology and motility are dependent on Smad signalling. These results suggest that a balance between BMP and TGFβ/activin signalling may be altered to favour BMP signalling during ovarian cancer metastatic progression.

Establishment of Primary Cultures from Ovarian Tumor Tissue and Ascites Fluid

We have refined the technique for isolating and propagating cultures of primary epithelial ovarian cancer (EOC) cells derived from solid tumors and ascites. Both protocols involve a simple yet rapid method for the growth and propagation of EOC tumor and ascites cells in a basal culture medium without the addition of growth factors. Isolation of tumor EOC cells involves the mechanical disruption of the tumor tissue with the help of a cell scraper, while ascites-derived EOC cells are mixed with growth medium and placed directly into culture with very little manipulation. We further describe a partial trypsinization method to eliminate fibroblast contamination from primary EOC cells derived from solid tumors. These methods allow for the direct application of many molecular, cellular, and functional analyses within a few weeks of initial isolation, with the added potential of retrospective analyses of archived cells and tissues. Thus, we have included steps for long-term cryopreservation of early-passage EOC cells. Initial isolation of EOC cells can be completed within 1 h, and primary cells are further expanded in culture for several weeks.

The role of KIF14 in patient-derived primary cultures of high-grade serous ovarian cancer cells

ObjectivePreviously, it has been shown that KIF14 mRNA is overexpressed in ovarian cancer (OvCa), regardless of histological subtype. KIF14 levels are independently predictive of poor outcome and increased rates of recurrence in serous OvCa patients. Furthermore, it has been shown that KIF14 also controls the in vivo tumorigenicity of OvCa cell lines. In this study, we evaluate the potential of KIF14 as a therapeutic target through selective inhibition of KIF14 in primary high-grade serous patient-derived OvCa cells.MethodsTo assess the dependence of primary serous OvCa cultures on KIF14, protein levels in 11 prospective high grade serous ovarian cancer samples were increased (KIF14 overexpression by transfection) or decreased (anti-KIF14 shRNA) in vitro, and proliferative capacity, anchorage independence and xenograft growth were assessed.ResultsSeven of eleven samples demonstrated increased/decreased in vitro proliferation in response to KIF14 overexpression/knockdown, respectively. When examining in vitro tumorigenicity (colony formation) and in vivo growth (subcutaneous xenografts) in response to KIF14 manipulation, none of the samples demonstrated growth in soft agar (11 samples), or xenograft growth (4 samples).ConclusionsAlthough primary high-grade serous OvCa cells may depend on KIF14 for in vitro proliferation we were unable to demonstrate a role for KIF14 on tumorigenicity or develop an in vivo model for assessment. We have, however developed an effective in vitro method to evaluate the effect of target gene manipulation on the proliferative capacity of primary OvCa cultures.

On the path to translation: Highlights from the 2010 Canadian Conference on Ovarian Cancer Research

Ovarian cancer continues to be the most lethal of the gynaecologic malignancies due to the lack of early detection, screening strategies and ineffective therapeutics for late-stage metastatic disease, particularly in the recurrent setting. The gathering of researchers investigating fundamental pathobiology of ovarian cancer and the clinicians who treat patients with this insidious disease is paramount to meeting the challenges we face. Since 2002, the Canadian Conference on Ovarian Cancer Research, held every two years, has served this essential purpose. The objectives of this conference have been to disseminate new information arising from the most recent ovarian cancer research and identify the most pressing challenges we still face as scientists and clinicians. This is best accomplished through direct encounters and exchanges of innovative ideas among colleagues and trainees from the realms of basic science and clinical disciplines. This meeting has and continues to successfully facilitate rapid networking and establish new collaborations from across Canada. This year, more guest speakers and participants from other countries have extended the breadth of the research on ovarian cancer that was discussed at the meeting. This report summarizes the key findings presented at the fifth biennial Canadian Conference on Ovarian Cancer Research held in Toronto, Ontario, and includes the important issues and challenges we still face in the years ahead to make a significant impact on this devastating disease.

BMP4 (bone morphogenetic protein 4)

Review on BMP4 (bone morphogenetic protein 4), with data on DNA, on the protein encoded, and where the gene is implicated.