The transcription factor ZNF217 is often amplified in ovarian cancer, but its role in neoplastic progression is unknown. We introduced ZNF217-HA by adenoviral and retroviral infection into normal human ovarian surface epithelial cells (OSE), i.e., the source of ovarian cancer, and into SV40 Tag/tag expressing, p53/ pRB-deficient OSE with extended but finite life spans (IOSE). In OSE, ZNF217-HA reduced cell-substratum adhesion and accelerated loss of senescent cells, but caused no obvious proneoplastic changes. In contrast, ZNF217-HA transduction into IOSE yielded two permanent lines, I-80RZ and I-144RZ, which exhibited telomerase activity, stable telomere lengths, anchorage independence and reduced serum dependence, but were not tumorigenic in SCID mice. This immortalization required short-term EGF treatment near the time of crisis. The permanent lines were EGF-independent, but ZNF217-dependent since siRNA to ZNF217 inhibited anchorage independence and arrested growth. Array CGH revealed genomic changes resembling those of ovarian carcinomas, such as amplicons at 3q and 20q, and deletions at 4q and 18, associated with underexpressed annexin A10, N-cadherin, desmocollin 3 and PAI-2, which have been reported as tumor suppressors. The lines overexpressed EEF1A2, SMARA3 and STAT1 and underexpressed other oncogenes, tumor suppressors and extracellular matrix/adhesion genes. The results implicate ZNF217 as an ovarian oncogene, which is detrimental to senescing normal OSE cells but contributes to neoplastic progression in OSE with inactivated p53/RB. The resemblance of the genomic changes in the ZNF217-overexpressing lines to ovarian carcinomas provides a unique model to investigate interrelationships between these changes and ovarian neoplastic phenotypes. ' 2007 Wiley-Liss, Inc.Key words: ZNF217; oncogene; ovarian cancer; immortalization The candidate oncogene ZNF217, predicted to encode alternatively spliced Krúppel-like transcription factors, was originally identified because of its location in an amplicon on chromosome 20q13.2 in breast cancer cell lines and tumors and by its recurrent expression in other malignancies. 1 ZNF217 is expressed in normal tissues, and is overexpressed in all cell lines and tumors where the gene locus is amplified. 2 Amplification of 20q, which involves a large number of potentially relevant genes, has since been described in many types of human cancers. 3-10 The 20q region, and ZNF217 specifically, is amplified in a high proportion of ovarian carcinomas, and expression levels of ZNF217 correlate with their copy numbers in primary ovarian cancers. 11,12 However, because of the coexistence of other amplified genes in the same region, it has been difficult to define the specific influence of ZNF217 on malignant progression. An increased copy number of ZNF217 is associated with reduced survival of ovarian cancer patients. 13,14 In experimental systems, 20q13 amplification has been associated with genome instability and immortalization in cultured human uroepithelial cells. 15,16 Furthermor...
