OBJECTIVES: To identify proteins unique to metastatic ovarian cancer and test their potential involvement in cell adhesion. METHODS: We purified plasma membrane from paired metastatic and primary tumor tissues from patients with stage IIIC ovarian cancer. Membrane proteins unique to metastases were identified by liquid chromatographic mass spectrometry (LC-MS). The role of one of the identified proteins, ovarian cancer immuno-reactive antigen domain containing 1 (OCIAD1) in cell adhesion was determined in the presence of LPA using both over-expression and down regulation approaches. RESULTS: We identified a differentially expressed 29 kDa protein as OCIAD1 over-expressed in metastatic tissues, when compared to primary tumor tissues. OCIAD1 over-expression in HEY ovarian cancer cells increased LPA-induced, but not basal level cell adhesion to extracellular matrix proteins collagen I and laminin 10/11. This enhancement was not blocked by LY294002 and GF109203X, suggesting that OCIAD1 does not use PKC and PI3K signaling pathways to exert its effect on adhesion. In addition, LPA induced cell adhesion to collagen I was unaffected by paclitaxel (5 microM) in OCIAD1 overexpressing cells. CONCLUSIONS: This is the first report that OCIAD1 is over-expressed in metastatic ovarian cancer tissues. The effect of OCIAD1 on cell adhesion may be related to its function in ovarian cancer. Failure of paclitaxel to affect ovarian cancer cell adhesion in presence of OCIAD1 raises the possibility of OCIAD1's role in tumor metastasis. Ongoing studies using a mouse orthotopic LPA-dependent ovarian cancer metastasis model are focused on strategies to inhibit the potential role of OCIAD1 in tumor metastasis.
OBJECTIVES: To identify proteins unique to metastatic ovarian cancer and test their potential involvement in cell adhesion. METHODS: We purified plasma membrane from paired metastatic and primary tumor tissues from patients with stage IIIC ovarian cancer. Membrane proteins unique to metastases were identified by liquid chromatographic mass spectrometry (LC-MS). The role of one of the identified proteins, ovarian cancer immuno-reactive antigen domain containing 1 (OCIAD1) in cell adhesion was determined in the presence of LPA using both over-expression and down regulation approaches. RESULTS: We identified a differentially expressed 29 kDa protein as OCIAD1 over-expressed in metastatic tissues, when compared to primary tumor tissues. OCIAD1 over-expression in HEY ovarian cancer cells increased LPA-induced, but not basal level cell adhesion to extracellular matrix proteins collagen I and laminin 10/11. This enhancement was not blocked by LY294002 and GF109203X, suggesting that OCIAD1 does not use PKC and PI3K signaling pathways to exert its effect on adhesion. In addition, LPA induced cell adhesion to collagen I was unaffected by paclitaxel (5 microM) in OCIAD1 overexpressing cells. CONCLUSIONS: This is the first report that OCIAD1 is over-expressed in metastatic ovarian cancer tissues. The effect of OCIAD1 on cell adhesion may be related to its function in ovarian cancer. Failure of paclitaxel to affect ovarian cancer cell adhesion in presence of OCIAD1 raises the possibility of OCIAD1's role in tumor metastasis. Ongoing studies using a mouse orthotopic LPA-dependent ovarian cancer metastasis model are focused on strategies to inhibit the potential role of OCIAD1 in tumor metastasis.
Authors: Vani Kulkarni; Rohan J Khadilkar; Srivathsa S Magadi; M S Srivathsa; Maneesha S Inamdar Journal: PLoS One Date: 2011-11-14 Impact factor: 3.240
Authors: Tommaso De Marchi; Ning Qing Liu; Cristoph Stingl; Mieke A Timmermans; Marcel Smid; Maxime P Look; Mila Tjoa; Rene B H Braakman; Mark Opdam; Sabine C Linn; Fred C G J Sweep; Paul N Span; Mike Kliffen; Theo M Luider; John A Foekens; John W M Martens; Arzu Umar Journal: Mol Oncol Date: 2015-08-07 Impact factor: 6.603