Knockout and expression studies suggest that estrogen receptor beta (ERbeta) plays a prominent role in ovarian function and pathology. Moreover, ovarian cancers are characterized by high morbidity and low responsiveness to anti-estrogens. Here we demonstrate, using quantitative PCR to measure ERalpha and ERbeta levels in 58 ovarian cancer patients, that ERbeta expression decreased in cysts and ovarian carcinomas as compared with normal ovaries and that this decrease is attributable only to a selective loss in ERbeta expression during cancer progression. To address the question of a possible involvement of ERbeta in ovarian cancers, we restored ERalpha and ERbeta expression in two human ovarian cancer cell lines PEO14 (ERalpha-negative) and BG1 (ERalpha-positive) using adenoviral delivery. ERalpha, but not ERbeta, could induce progesterone receptor and fibulin-1C. Moreover, ERalpha and ERbeta had opposite actions on cyclin D1 gene regulation, because ERbeta down-regulated cyclin D1 gene expression, whereas ERalpha increased cyclin D1 levels. Interestingly, ERbeta expression strongly inhibited PEO14 and BG1 cell proliferation and cell motility in a ligand-independent manner, whereas ERalpha had no marked effect. Induction of apoptosis by ERbeta also contributed to the decreased proliferation of ovarian cancer cells, as shown by Annexin V staining. This study shows that ERbeta is an important regulator of proliferation and motility of ovarian cancer and provides the first evidence for a proapoptotic role of ERbeta. The loss of ERbeta expression may thus be an important event leading to the development of ovarian cancer.