Mary D Hinckley scite author profile

In mammalian and amphibian oocytes, the meiotic arrest at the G2/M transition is dependent on cAMP regulation. Because genetic inactivation of a phosphodiesterase expressed in oocytes prevents reentry into the cell cycle, suggesting autonomous cAMP synthesis, we investigated the presence and properties of the G-protein-coupled receptors (GPCRs) in rodent oocytes. The pattern of expression was defined using three independent strategies, including microarray analysis of GV oocyte mRNAs, EST database scanning, and RT-PCR amplification with degenerated primers against transmembrane regions conserved in the GPCR superfamily. Clustering of the GPCR mRNAs from rat and mouse oocytes indicated the expression of the closely related Gpr3, Gpr12, and Edg3, which recognize sphingosine and its metabolites as ligands. Expression of these mRNAs was confirmed by RT-PCR with specific primers as well as by in situ hybridization. That these receptors are involved in the control of cAMP levels in oocytes was indicated by the finding that expression of the mRNA for Gpr3 and Gpr12 is downregulated in Pde3a-deficient oocytes, which have a chronic elevation of cAMP levels. Expression of GPR3 or GPR12 in Xenopus laevis oocytes prevented progesterone-induced meiotic maturation, whereas expression of FSHR had no effect. A block in spontaneous oocyte maturation was also induced when Gpr3 or Gpr12 mRNA was injected into mouse oocytes. Downregulation of GPR3 and GPR12 caused meiotic resumption in mouse and rat oocytes, respectively. However, ablation of the Gpr12 gene in the mouse did not cause a leaky meiotic arrest, suggesting compensation by Gpr3. Incubation of mouse oocytes with the GPR3/12 ligands SPC and S1P delayed spontaneous oocyte maturation. We propose that the cAMP levels required for maintaining meiotic arrest in mouse and rat oocytes are dependent on the expression of Gpr3 and/or Gpr12.

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Cyclic nucleotide phosphodiesterase 3A–deficient mice as a model of female infertility

Masciarelli¹,

Horner²,

Liu³

et al. 2004

J. Clin. Invest.

213

132

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Since cAMP blocks meiotic maturation of mammalian and amphibian oocytes in vitro and cyclic nucleotide phosphodiesterase 3A (PDE3A) is primarily responsible for oocyte cAMP hydrolysis, we generated PDE3A-deficient mice by homologous recombination. The Pde3a -/-females were viable and ovulated a normal number of oocytes but were completely infertile, because ovulated oocytes were arrested at the germinal vesicle stage and, therefore, could not be fertilized. Pde3a -/-oocytes lacked cAMP-specific PDE activity, contained increased cAMP levels, and failed to undergo spontaneous maturation in vitro (up to 48 hours). Meiotic maturation in Pde3a -/-oocytes was restored by inhibiting protein kinase A (PKA) with adenosine-3′,5′-cyclic monophosphorothioate, Rp-isomer (Rp-cAMPS) or by injection of protein kinase inhibitor peptide (PKI) or mRNA coding for phosphatase CDC25, which confirms that increased cAMP-PKA signaling is responsible for the meiotic blockade. Pde3a -/-oocytes that underwent germinal vesicle breakdown showed activation of MPF and MAPK, completed the first meiotic division extruding a polar body, and became competent for fertilization by spermatozoa. We believe that these findings provide the first genetic evidence indicating that resumption of meiosis in vivo and in vitro requires PDE3A activity. Pde3a -/-mice represent an in vivo model where meiotic maturation and ovulation are dissociated, which underscores inhibition of oocyte maturation as a potential strategy for contraception.

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Incidence of monozygotic twinning with blastocyst transfer compared to cleavage stage transfer

Milki¹,

Jun

Hinckley

et al. 2002

Fertility and Sterility

126

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Rodent oocytes express an active adenylyl cyclase required for meiotic arrest

Horner

Livera

Hinckley

et al. 2003

Developmental Biology

140

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The intracellular levels of cAMP play a critical role in the meiotic arrest of mammalian oocytes. However, it is debated whether this second messenger is produced endogenously by the oocytes or is maintained at levels inhibitory to meiotic resumption via diffusion from somatic cells. Here, we demonstrate that adenylyl cyclase genes and corresponding proteins are expressed in rodent oocytes. The mRNA coding for the AC3 isoform of adenylyl cyclase was detected in rat and mouse oocytes by RT-PCR and by in situ hybridization. The expression of AC3 protein was confirmed by immunocytochemistry and immunofluorescence analysis in oocytes in situ. Cyclic AMP accumulation in denuded oocytes was increased by incubation with forskolin, and this stimulation was abolished by increasing intraoocyte Ca(2+) with the ionophore A23187. The Ca(2+) effects were reversed by an inhibitor of Ca(2+), calmodulin-dependent kinase II. These regulations of cAMP levels indicate that the major cyclase that produces cAMP in the rat oocyte has properties identical to those of recombinant or endogenous AC3 expressed in somatic cells. Furthermore, mouse oocytes deficient in AC3 show signs of a defect in meiotic arrest in vivo and accelerated spontaneous maturation in vitro. Collectively, these data provide evidence that an adenylyl cyclase is functional in rodent oocytes and that its activity is involved in the control of oocyte meiotic arrest.

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1,000 office hysteroscopies for infertility: feasibility and findings

Hinckley

Milki

2003

Fertility and Sterility

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Mary D Hinckley

The G-protein-coupled receptors GPR3 and GPR12 are involved in cAMP signaling and maintenance of meiotic arrest in rodent oocytes

Cyclic nucleotide phosphodiesterase 3A–deficient mice as a model of female infertility

Incidence of monozygotic twinning with blastocyst transfer compared to cleavage stage transfer

Rodent oocytes express an active adenylyl cyclase required for meiotic arrest

1,000 office hysteroscopies for infertility: feasibility and findings

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