Your search keyword '"PDE3A"' showing total 6 results

1. High cGMP and low PDE3A activity are associated with oocyte meiotic incompetence.

Author

Gershon, Eran, Maimon, Iris, Galiani, Dalia, Elbaz, Michal, Karasenti, Sharon, and Dekel, Nava

Subjects

CYCLIC guanylic acid, OVARIAN follicle, CYCLIC nucleotides, SOMATIC cells, LUTEINIZING hormone

Abstract

Resumption of meiosis in mammalian oocytes, defined as oocyte maturation, is stimulated by luteinizing hormone (LH). Fully grown oocytes can also mature spontaneously, upon their release from the ovarian follicle. However, growing oocytes fail to resume meiosis in vitro and the mechanism underlying their meiotic incompetence is unknown. It is commonly accepted that a drop in intraoocyte cyclic guanosine monophosphate (cGMP) resulting in the elevated activity of the oocyte-specific PDE3A leads to a decrease in cAMP content, essential for reinitiation of meiosis. We explored the regulation of these cyclic nucleotides and their degrading PDE3A in growing oocytes. Our research addressed the LH-induced rather than spontaneous oocyte maturation. We examined 16–21 as compared to 25-day-old, PMSG-primed rats, treated with the LH analog, hCG. The effect of LH was also examined ex vivo, in isolated ovarian follicles. We found that hCG failed to induce oocyte maturation and ovulation in the younger animals and that ovulation-associated genes were not upregulated in response to this gonadotropin. Furthemore, the drop of intraoocyte cGMP and cAMP observed in fully grown oocytes upon exposure of the ovary to LH, was not detected in growing oocytes. Interestingly, whereas the global expression of PDE3A in growing and fully grown oocytes is similar, a significantly lower activity of this enzyme was determined in growing oocytes. Our findings show that meiotic incompetence is associated with a relatively high oocyte cGMP concentration and a low activity of PDE3A, which in follicle-enclosed oocytes may represent the failure of the somatic follicle cells to respond to LH. [ABSTRACT FROM AUTHOR]

Published

2019

2. Di (2-ethylhexyl) phthalate impairs primordial follicle assembly by increasing PDE3A expression in oocytes

Author

Hong-Chen Yan, Jing-Cai Liu, Zi-Hui Yan, Bo Li, Wei Shen, and Massimo De Felici

Subjects

Oocyte, endocrine system, Health, Toxicology and Mutagenesis, Granulosa cell, Phthalic Acids, 010501 environmental sciences, Toxicology, 01 natural sciences, Oogenesis, Primordial follicle assembly, Transcriptome, 03 medical and health sciences, chemistry.chemical_compound, Follicle, Mice, FIGLA, Ovarian Follicle, cAMP, Diethylhexyl Phthalate, medicine, Animals, 030304 developmental biology, 0105 earth and related environmental sciences, 0303 health sciences, Settore BIO/17, DEHP, Chemistry, Phthalate, General Medicine, Pollution, Cyclic Nucleotide Phosphodiesterases, Type 3, Cell biology, Pde3a, medicine.anatomical_structure, Oocytes, Female, Reproductive toxicology, Folliculogenesis

Abstract

It is known that Di (2-ethylhexyl) phthalate (DEHP) may impact mammalian reproduction and that in females one target of the drug’s action is follicle assembly. Here we revisited the phthalate’s action on the ovary and from bioinformatics analyses of the transcriptome performed on newborn mouse ovaries exposed in vitro to DEHP, up-regulation of PDE3A, as one of the most important alterations caused by DEHP on early folliculogenesis, was identified. We obtained some evidence suggesting that the decrease of cAMP level in oocytes and the parallel decrease of PKA expression, consequent on the PDE3A increase, were a major cause of the reduction of follicle assembly in the DEHP-exposed ovaries. In fact, Pde3a RNAi on cultured ovaries reducing cAMP and PKA decrease counteracted the primordial follicle assembly impairment caused by the compound. Moreover, RNAi normalized the level of Kit, Nobox, Figla mRNA and GDF9, BMP15, CX37, γH2AX proteins in oocytes, and KitL transcripts in granulosa cells as well as their proliferation rate altered by DEHP exposure. Taken together, these results identify PDE3A as a new critical target of the deleterious effects of DEHP on early oogenesis in mammals and highlight cAMP-dependent pathways as major regulators of oocyte and granulosa cell activities crucial for follicle assembly. Moreover, we suggest that the level of intracellular cAMP in the oocytes may be an important determinant for their capability to repair DNA lesions caused by DNA damaging compounds including DEHP.

Published

2020

3. Female infertility in PDE3A-/- mice.

Author

Weixing Shen, Ahmad, Faiyaz, Hockman, Steven, Ma, John, Omi, Hitoshi, Raghavachari, Nalini, and Manganiello, Vincent

Published

2010

4. Generation of mouse oocytes defective in cAMP synthesis and degradation: Endogenous cyclic AMP is essential for meiotic arrest

Author

Vaccari, Sergio, Horner, Kathleen, Mehlmann, Lisa M., and Conti, Marco

Subjects

*OVUM, *LABORATORY mice, *HYDROLYSIS, *CELL division

Abstract

Abstract: Although it is established that cAMP accumulation plays a pivotal role in preventing meiotic resumption in mammalian oocytes, the mechanisms controlling cAMP levels in the female gamete have remained elusive. Both production of cAMP via GPCRs/Gs/adenylyl cyclases endogenous to the oocyte as well as diffusion from the somatic compartment through gap junctions have been implicated in maintaining cAMP at levels that preclude maturation. Here we have used a genetic approach to investigate the different biochemical pathways contributing to cAMP accumulation and maturation in mouse oocytes. Because cAMP hydrolysis is greatly decreased and cAMP accumulates above a threshold, oocytes deficient in PDE3A do not resume meiosis in vitro or in vivo, resulting in complete female infertility. In vitro, inactivation of Gs or downregulation of the GPCR GPR3 causes meiotic resumption in the Pde3a null oocytes. Crossing of Pde3a −/− mice with Gpr3 −/− mice causes partial recovery of female fertility. Unlike the complete meiotic block of the Pde3a null mice, oocyte maturation is restored in the double knockout, although it occurs prematurely as described for the Gpr3 −/− mouse. The increase in cAMP that follows PDE3A ablation is not detected in double mutant oocytes, confirming that GPR3 functions upstream of PDE3A in the regulation of oocyte cAMP. Metabolic coupling between oocytes and granulosa cells was not affected in follicles from the single or double mutant mice, suggesting that diffusion of cAMP is not prevented. Finally, simultaneous ablation of GPR12, an additional receptor expressed in the oocyte, does not modify the Gpr3 −/− phenotype. Taken together, these findings demonstrate that Gpr3 is epistatic to Pde3a and that fertility as well as meiotic arrest in the PDE3A-deficient oocyte is dependent on the activity of GPR3. These findings also suggest that cAMP diffusion through gap junctions or the activity of additional receptors is not sufficient by itself to maintain the meiotic arrest in the mouse oocyte. [Copyright &y& Elsevier]

Published

2008

5. A New Nonhydrolyzable Reactive cAMP Analog, (Sp)-Adenosine-3′,5′-cyclic-S-(4-bromo-2,3-dioxobutyl)monophosphorothioate Irreversibly Inactivates Human Platelet cGMP-Inhibited cAMP Phosphodiesterase

Author

Hung, Su H., Madhusoodanan, K. S., Beres, James A., Boyd, Robert L., Baldwin, James L., Zhang, Wei, Colman, Robert W., and Colman, Roberta F.

Subjects

*CYCLIC nucleotides, *AFFINITY labeling

Abstract

Levels of cAMP that control critical platelet functions are regulated by cGMP-inhibited cAMP phosphodiesterase (PDE3A). We previously showed that millimolar concentrations of the hydrolyzable 8-[(4-bromo-2,3-dioxobutyl)thioadenosine 3′,5′-cyclic monophosphate (8-BDB-TcAMP) inactivate PDE3A. We have now synthesized a nonhydrolyzable affinity label to probe the active site of PDE3A. The nonhydrolyzable adenosine 3′,5′-cyclic monophosphorothioates, Sp-cAMPS and Rp-cAMPS, function as competitive inhibitors of PDE3A with Ki = 47.6 and 4400 μM, respectively. We therefore coupled Sp-cAMPS with 1,4-dibromobutanedione to yield (Sp)-adenosine-3′,5′-cyclic-S-(4-bromo-2,3-dioxobutyl)monophosphorothioate, [Sp-cAMPS-(BDB)]. Sp-cAMPS-(BDB) inactivates PDE3A in a time-dependent, irreversible reaction with kmax = 0.0116 min−1 and KI = 10.1 μM. The order of effectiveness of protectants in decreasing the rate of inactivation (with Kd in μM) is: Sp-cAMPS (24) > Rp-cGMPS (1360), Sp-cGMPS (1460) > GMP (4250), AMP (10600), Rp-cAMPS (22170). These results suggest that the inactivation of PDE3A by Sp-cAMPS-(BDB) is a consequence of reaction at the overlap of the cAMP and cGMP binding regions in the active site. [Copyright &y& Elsevier]

Published

2002

6. Di (2-ethylhexyl) phthalate impairs primordial follicle assembly by increasing PDE3A expression in oocytes.

Author

Liu, Jing-Cai, Yan, Zi-Hui, Li, Bo, Yan, Hong-Chen, De Felici, Massimo, and Shen, Wei

Subjects

OOGENESIS, DNA repair, DNA damage, PHTHALATE esters, GRANULOSA cells, OVARIES, OVUM

Abstract

It is known that Di (2-ethylhexyl) phthalate (DEHP) may impact mammalian reproduction and that in females one target of the drug's action is follicle assembly. Here we revisited the phthalate's action on the ovary and from bioinformatics analyses of the transcriptome performed on newborn mouse ovaries exposed in vitro to DEHP, up-regulation of PDE3A, as one of the most important alterations caused by DEHP on early folliculogenesis, was identified. We obtained some evidence suggesting that the decrease of cAMP level in oocytes and the parallel decrease of PKA expression, consequent on the PDE3A increase, were a major cause of the reduction of follicle assembly in the DEHP-exposed ovaries. In fact, Pde3a RNAi on cultured ovaries reducing cAMP and PKA decrease counteracted the primordial follicle assembly impairment caused by the compound. Moreover, RNAi normalized the level of Kit, Nobox , Figla mRNA and GDF9, BMP15, CX37, γH2AX proteins in oocytes, and KitL transcripts in granulosa cells as well as their proliferation rate altered by DEHP exposure. Taken together, these results identify PDE3A as a new critical target of the deleterious effects of DEHP on early oogenesis in mammals and highlight cAMP-dependent pathways as major regulators of oocyte and granulosa cell activities crucial for follicle assembly. Moreover, we suggest that the level of intracellular cAMP in the oocytes may be an important determinant for their capability to repair DNA lesions caused by DNA damaging compounds including DEHP. Image 1 • DEHP exposure impairs the primordial follicle assembly of newborn mouse ovaries. • DEHP exposure promotes PDE3A expression in the early stage of folliculogenesis. • Pde3a RNAi counteracted the influence of DEHP on ovaries by reducing cAMP and PKA. PDE3A is one of the most important regulators caused by DEHP exposure on impairment of early folliculogenesis. [ABSTRACT FROM AUTHOR]

Published

2021