Ovarian cancer is the leading cause of death in women with gynecological malignancies, with prognosis of advanced stage tumors determined by chemotherapeutic response and the success of tumor resection. Since aberrant RAS pathway activation is frequent in ovarian cancer, study of in vitro RAS-induced transformation and accompanying genomic expression changes in ovarian surface epithelial cells is imperative for development of new therapeutic modalities and for understanding tumorigenesis. cDNA microarray analysis revealed TROPHONIN (TRO), a homophilic adhesion molecule involved in blastocyst implantation, was among the genes most downregulated by RAS induction. TRO expression is higher in cisplatin-sensitive cancer cell lines and positively correlates with prognoses in ovarian cancers. TRO knockdown by RNA interference conferred cisplatin resistance and led to increased invasiveness of cultured ovarian cancer cells. These findings underscore the importance of TRO in tumorigenesis, and suggest that TRO may be a useful biomarker for cisplatin sensitivity and invasive potential.