| First Author | Yu C | Year | 2015 |
| Journal | Mol Hum Reprod | Volume | 21 |
| Issue | 2 | Pages | 195-205 |
| PubMed ID | 25371539 | Mgi Jnum | J:302872 |
| Mgi Id | MGI:6509503 | Doi | 10.1093/molehr/gau103 |
| Citation | Yu C, et al. (2015) CRL4DCAF1 is required in activated oocytes for follicle maintenance and ovulation. Mol Hum Reprod 21(2):195-205 |
| abstractText | In mammals, oocytes within the primordial follicles require a number of essential factors to maintain their survival. However, the survival factors for activated oocytes have been poorly characterized. Recently we reported that damaged DNA binding protein-1 (DDB1), the linker subunit of the cullin ring-finger ubiquitin E3 ligase-4 (CRL4) complex, and its substrate adaptor, DDB1-CUL4 associated factor-1 (DCAF1), were essential for primordial follicle maintenance. In this study we specifically deleted these in the oocytes of growing follicles, to investigate if DDB1 and DCAF1 were also survival factors for activated oocytes. In the ovaries of Ddb1(fl/fl);Zp3-Cre mice, the primordial follicle pool was intact, but awakened oocytes and growing follicles beyond the primary stage were rapidly depleted. In the ovaries of Dcaf1(fl/fl);Pten(fl/fl);Gdf9-Cre and Ddb1(fl/fl);Pten(fl/fl);Gdf9-Cre mice, global primordial follicle activation was stimulated by enhanced PI3K signaling, but the awakened oocytes were rapidly lost due to no CRL4(DCAF1) activity. These mouse models provided original evidence that CRL4(DCAF1) was essential for maintaining oocyte survival, not only those in dormancy at the primordial follicle stage, but also naturally awakened oocytes and those awakened by hyper-activation of PI3K signaling. Interestingly, the oocyte-specific Ddb1 or Dcaf1 knockout mice had ovulation defects even before oocyte exhaustion. CRL4(DCAF1) within oocytes was required for cumulus expansion and ovulation-related somatic gene expression in a cell non-autonomous manner. Granulosa cells that surrounded these Ddb1 or Dcaf1-deleted oocytes exhibited increased rates of apoptosis and showed poor responses to ovulation signals. These results suggested that CRL4 in oocytes also regulated granulosa cell functions in a cell non-autonomous manner. |
