2009
DOI: 10.1095/biolreprod.108.074450
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Characterization of Novel Phosphodiesterases in the Bovine Ovarian Follicle1

Abstract: The phosphodiesterase (PDE) family is a group of enzymes that catalyzes the transformation of cyclic nucleotides into 5' nucleotides. Based on rodents, the current mammalian model of PDE distribution in the ovarian follicle predicts Pde3a in the oocyte and Pde4d in the somatic cells. Using bovine as an experimental model, the present results showed that PDE3 was the predominant PDE activity in oocytes. However, cumulus cell cAMP-PDE activity was predominantly resistant to inhibition by 3-isobutyl-methylxantine… Show more

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Cited by 83 publications
(102 citation statements)
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“…Comparatively, SPOM pre-IVM in bovine generated a 100-fold increase in cAMP concentrations [13]. Apparent differences between the two species may be due to the presence and expression of different PDE and adenylate cyclase isoforms [11]. However, since cAMP concentrations do not substantially differ between ovine and bovine COCs in the presence of IBMX and FSK (< 20 fmol/COC), perhaps peripubertal ovine COCs have greater endogenous production of cAMP, or ovine PDEs degrade cAMP at a slower rate than in bovine COCs.…”
Section: Discussionmentioning
confidence: 96%
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“…Comparatively, SPOM pre-IVM in bovine generated a 100-fold increase in cAMP concentrations [13]. Apparent differences between the two species may be due to the presence and expression of different PDE and adenylate cyclase isoforms [11]. However, since cAMP concentrations do not substantially differ between ovine and bovine COCs in the presence of IBMX and FSK (< 20 fmol/COC), perhaps peripubertal ovine COCs have greater endogenous production of cAMP, or ovine PDEs degrade cAMP at a slower rate than in bovine COCs.…”
Section: Discussionmentioning
confidence: 96%
“…This was expected due to differences among species in PDE kinetics, the presence of other PDE subtypes within the oocyte, and varying concentrations of endogenous oocyte cAMP production [46]. In the pre-IVM phase, 10-fold higher concentrations of IBMX were needed in bovine compared to murine models (500 versus 50 μM, respectively), perhaps due to expression of PDE8 in bovine COCs, which accounted for more than 20% of total PDE activity and is not inhibited by IBMX [11]. Conversely, murine cumulus cells did not express PDE8, but expressed the IBMXsensitive PDE4 as its major cumulus cell PDE [12].…”
Section: Discussionmentioning
confidence: 99%
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“…In that system, treatment with the uncoupler 1-heptanol induced abrupt chromatin condensation and decreased in transcription. However, the addition of the oocyte-specific PDE3 inhibitor cilostamide [31][32][33] to the culture medium nullified this effect indicating that the functional status of GJC may affect both transcriptional activity and remodeling of largescale chromatin configuration in growing oocytes, potentially through cAMP-dependent mechanism(s) [19].…”
Section: Discussionmentioning
confidence: 99%
“…Both of these chemicals have been used extensively in multiple species with consistent, predicted effects (Bilodeau et al 1993;Fan et al 2002;Thomas et al 2002;Chen et al 2009;Downs 2011). In mice, rats, pigs, cattle, macaques and humans, the majority of PDE activity within the oocyte is due to PDE3, which is sensitive to IBMX (Downs et al 1989;Conti et al 1998;Richard et al 2001;Jensen et al 2002;Thomas et al 2002;Liang et al 2005;Nogueira et al 2006;Sasseville et al 2009). By inhibiting PDE3 activity, IBMX maintains meiotic arrest by preventing a decline in cAMP concentrations within the oocyte after recovery (Schultz et al 1983;Luciano et al 2004;Albuz et al 2010) or permitting the accumulation of cAMP produced by intra-oocyte adenylate cyclase(s) (Mehlmann 2005).…”
Section: Introductionmentioning
confidence: 99%