Abstract
The origin of most ovarian tumors is undefined. Here, we report development of a novel mouse model in which conditional inactivation of the tumor suppressor gene Rb1 in oocytes leads to the formation of ovarian teratomas (OTs). While parthenogenetically activated ooctyes are a known source of OT in some mutant mouse models, enhanced parthenogenetic propensity in vitro was not observed for Rb1-deficient oocytes. Further analyses revealed that follicle recruitment and growth is disrupted in ovaries of mice with conditional inactivation of Rb1, leading to abnormal accumulation of secondary/preantral follicles. These findings underpin the concept that miscues between the germ cell and somatic compartments cause premature oocyte activation and the formation of OTs. Furthermore, these results suggest that defects in folliculogenesis and a permissive genetic background are sufficient to drive OT development, even in the absence of enhanced parthenogenetic activation. Thus, we have discovered a novel role of Rb1 in regulating the entry of primordial oocytes into the pool of growing follicles and signaling between the oocyte and granulosa cells during the protracted process of oocyte growth. Our findings, coupled with data from studies of other OT models, suggest that defects in the coordinated regulation between growth of the oocyte and somatic components in follicles are an underlying cause of OT formation.
Highlights
Ovarian tumors are a major source of cancer in women of all ages and can arise from both germ cells and somatic cells
We found that conditional deletion of the tumor suppressor retinoblastoma protein 1 (Rb1) in the oocyte leads to ovarian teratomas (OTs) development in young adult female mice
Oocytes from mutants did not exhibit an enhanced propensity for parthenogenetic activation–a proposed source of OTs–premature meiotic resumption was evident in oocytes of immature follicles
Summary
Ovarian tumors are a major source of cancer in women of all ages and can arise from both germ cells and somatic cells. Germ cell tumors account for approximately 5 to 20% of ovarian cancers and mainly affect young women [1,2]. These neoplasias are classified in many ways including dysgerminoma, yolk sac tumor, embryonal carcinoma, polyembryoma, ovarian teratoma (OT), and gonadoblastoma [3]. Immature and monodermal OT subtypes constitute 95% of germ cell tumors in adult women [4,5]. The majority are benign, immature and cystic mature teratomas are capable of malignant transformation [6,7]. The origins and molecular etiology of ovarian germ cell tumorigenesis are poorly understood
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