Knockdown of Endogenous XGPR3 Expression Enhanced Oocyte Maturation
A, Injection of antisense, but not sense, oligonucleotides prevented the expression of exogenous XGPR3. Denuded oocytes were injected with buffer (−), sense (S), or antisense (AS) oligodeoxynucleotides, as well as mRNA encoding FLAG-tagged XGPR3. After 48 h, oocytes were lysed, and equal amounts of extracts were loaded in each lane. FLAG-tagged XGPR3 was then detected by Western blot. B and C, Injection of denuded oocytes (without attached follicle cells) with an antisense, but not sense, oligodeoxynucleotide directed against XGPR3 mRNA reduced intracellular cAMP (B) and enhanced testosterone-mediated oocyte maturation (C). Values in panel B represent the average ± sd (n = 3). Similarly, injection of manually defolliculated oocytes (still with attached follicle cells) with antisense, but not sense, oligodeoxynucleotide directed against XGPR3 mRNA enhanced testosterone-mediated oocyte maturation (E). Importantly, coinjection of cRNA encoding XGPR3 rescued this enhancement in both instances (C and E). Oocytes were incubated with 100 nm testosterone for 16 h (C) or 7 h (E), and oocytes were then scored for germinal vesicle breakdown. Expression of XGPR3 mRNA was reduced by approximately 90% in both cases, as determined by real-time PCR (D, denuded; and F, defolliculated). G, Manually defolliculated oocytes (still with attached follicle cells) that were injected with the antisense oligodeoxynucleotide directed against XGPR3 while still in ovarian fragments matured more quickly in response to hCG (150 units/ml) relative to uninjected oocytes. Expression of XGPR3 mRNA was reduced by approximately 75% in these oocytes, as determined by real-time PCR (H). All experiments were repeated at least twice with similar results.