PURPOSE: We previously determined that NAC-1, a transcription factor and member of the BTB/POZ gene family, is associated with recurrent ovarian carcinomas. In the current study, we investigated further the relationship between NAC-1 expression and ovarian cancer. EXPERIMENTAL DESIGN: NAC-1 expression was assessed by immunohistochemistry, and clinical variables were collected by retrospective chart review. SiRNA system and NAC-1 gene transfection were used to asses NAC-1 function in Taxol resistance in vivo. RESULTS: Overexpression of NAC-1 correlated with shorter relapse-free survival in patients with advanced stage (stage III/IV) ovarian carcinoma treated with platinum and taxane chemotherapy. Furthermore, overexpression of NAC-1 in primary tumors predicted recurrence within 6 months after primary cytoreductive surgery followed by standard platinum and taxane chemotherapy. NAC-1 expression levels were measured and compared among the human ovarian cancer cell line (KF28), cisplatin-resistant cell line (KFr13) induced from KF28, and paclitaxel-resistant cell lines (KF28TX and KFr13TX) induced by exposing KF28 and KFr13 to dose-escalating paclitaxel. Overexpression of NAC-1 was observed in only the Taxol-resistant KF28TX and KFr13 TX cells but not in KF28 or cisplatin-resistant KFr13 cells. To confirm that NAC-1 expression was related to Taxol resistance, we used two independent but complementary approaches. NAC-1 gene knockdown in both KF28TX and KFr13TX rescued paclitaxel sensitivity. Additionally, engineered expression of NAC-1 in RK3E cells induced paclitaxel resistance. CONCLUSIONS: These results suggest that NAC-1 regulates Taxol resistance in ovarian cancer and may provide an effective target for chemotherapeutic intervention in Taxol-resistant tumors.
PURPOSE: We previously determined that NAC-1, a transcription factor and member of the BTB/POZ gene family, is associated with recurrent ovarian carcinomas. In the current study, we investigated further the relationship between NAC-1 expression and ovarian cancer. EXPERIMENTAL DESIGN:NAC-1 expression was assessed by immunohistochemistry, and clinical variables were collected by retrospective chart review. SiRNA system and NAC-1 gene transfection were used to asses NAC-1 function in Taxol resistance in vivo. RESULTS: Overexpression of NAC-1 correlated with shorter relapse-free survival in patients with advanced stage (stage III/IV) ovarian carcinoma treated with platinum and taxane chemotherapy. Furthermore, overexpression of NAC-1 in primary tumors predicted recurrence within 6 months after primary cytoreductive surgery followed by standard platinum and taxane chemotherapy. NAC-1 expression levels were measured and compared among the humanovarian cancer cell line (KF28), cisplatin-resistant cell line (KFr13) induced from KF28, and paclitaxel-resistant cell lines (KF28TX and KFr13TX) induced by exposing KF28 and KFr13 to dose-escalating paclitaxel. Overexpression of NAC-1 was observed in only the Taxol-resistant KF28TX and KFr13 TX cells but not in KF28 or cisplatin-resistant KFr13 cells. To confirm that NAC-1 expression was related to Taxol resistance, we used two independent but complementary approaches. NAC-1 gene knockdown in both KF28TX and KFr13TX rescued paclitaxel sensitivity. Additionally, engineered expression of NAC-1 in RK3E cells induced paclitaxel resistance. CONCLUSIONS: These results suggest that NAC-1 regulates Taxol resistance in ovarian cancer and may provide an effective target for chemotherapeutic intervention in Taxol-resistant tumors.
Authors: Stefanie M Ueda; Kai Lee Yap; Ben Davidson; Yuan Tian; Vivek Murthy; Tian-Li Wang; Kala Visvanathan; Francis P Kuhajda; Robert E Bristow; Hui Zhang; Ie-Ming Shih Journal: J Oncol Date: 2010-05-19 Impact factor: 4.375
Authors: M T Rahman; K Nakayama; M Rahman; H Katagiri; A Katagiri; T Ishibashi; M Ishikawa; K Iida; N Nakayama; Y Otsuki; S Nakayama; K Miyazaki Journal: Br J Cancer Date: 2012-05-31 Impact factor: 7.640