Abstract
Ovarian cancer is a lethal gynecological disease that is characterized by peritoneal metastasis and increased resistance to conventional chemotherapies. This increased resistance and the ability to spread is often attributed to the formation of multicellular aggregates or spheroids in the peritoneal cavity, which seed abdominal surfaces and organs. Given that the presence of metastatic implants is a predictor of poor survival, a better understanding of how spheroids form is critical to improving patient outcome, and may result in the identification of novel therapeutic targets. Thus, we attempted to gain insight into the proteomic changes that occur during anchorage-independent cancer cell aggregation. As such, an ovarian cancer cell line, OV-90, was cultured in adherent and non-adherent conditions using stable isotope labeling with amino acids in cell culture (SILAC). Anchorage-dependent cells (OV-90AD) were grown in tissue culture flasks, whereas anchorage-independent cells (OV-90AI) were grown in suspension using the hanging-drop method. Cellular proteins from both conditions were then identified using LC-MS/MS, which resulted in the quantification of 1533 proteins. Of these, 13 and 6 proteins were up-regulated and down-regulated, respectively, in aggregate-forming cells compared with cells grown as monolayers. Relative gene expression and protein expression of candidates were examined in other cell line models of aggregate formation (TOV-112D and ES-2), which revealed an increased expression of calcium-activated chloride channel regulator 1 (CLCA1). Moreover, inhibitor and siRNA transfection studies demonstrated an apparent effect of CLCA1 on cancer cell aggregation. Further elucidation of the role of CLCA1 in the pathogenesis of ovarian cancer is warranted.
Highlights
Cancer spheroid formation is a hallmark during ovarian cancer progression
An ovarian cancer cell line, OV-90, was cultured in adherent and non-adherent conditions using stable isotope labeling with amino acids in cell culture (SILAC)
3 The abbreviations used are: OvCa, ovarian cancer; SILAC, stable isotope labeling with amino acids in cell culture; AD, anchorage-dependent; AI, anchorage-independent; CLCA1, calcium-activated chloride channel regulator 1; multicellular aggregates (MCAs), multicellular aggregate; Niflumic Acid (NFA), niflumic acid; MUC5AC, mucin 5AC; CLIC, chloride intracellular channel protein
Summary
Cancer spheroid formation is a hallmark during ovarian cancer progression. Results: Quantitative proteomics were used to delineate proteomic alterations during aggregate formation. The standard treatment for late stage patients continues to be cytoreductive surgery followed by chemotherapy [3] This approach may lead to a partial or complete remission, the probability that residual cancer cells not removed during surgery will develop resistance is high, and will eventually lead to recurrent disease [3]. The formation of metastatic implants on the peritoneum relies on the detachment and spread of cancerous cells from the primary tumor [4] During this process, detached cells remain suspended in ascites fluid within the peritoneal cavity and form multicellular aggregates (MCAs), known as spheroids, which obtain an anchorage-independent behavior that is resistant to apoptosis [4, 5]. It has been shown that MCAs facilitate ovarian cancer metastasis, by breaching the mesothelium and causing widespread peritoneal
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