Simona Bussolati scite author profile

A growing body of evidence indicates that the pro-oxidant/anti-oxidant balance inside the ovarian follicle plays an important role in folliculogenesis. Therefore, the aim of the present study was to assess the redox status of follicular fluids collected from different-sized swine follicles. We quantified the most important reactive oxygen species (ROS), namely superoxide anion (O(2)(-)), hydrogen peroxide and hydroperoxides (ROOH); in addition, we examined the activity of the detoxifying enzymes superoxide dismutase, catalase (CAT) and glutathione peroxidase and the total non-enzymatic antioxidant capacity as determined by the ferric-reducing anti-oxidant power assay. Our data demonstrate that oxidative stress does not affect follicle growth because O(2)(-) levels do not change during follicle development, whereas concentrations of H2O2 and ROOH are reduced (P < 0.05). Surprisingly, all non-enzymatic and enzymatic scavengers examined in the present study, except for CAT, demonstrated reduced activity during follicle development (P < 0.05). Taken together, these results suggest that other factors could be involved in ROS detoxification during follicle development.

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Effects of VEGF and bFGF on Proliferation and Production of Steroids and Nitric Oxide in Porcine Granulosa Cells

Grasselli

Basini

Bussolati

et al. 2002

Reprod Domestic Animals

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Ovarian angiogenesis, which is currently considered to be of crucial importance in controlling the growth of developing follicles, is a physiological process driven by a variety of angiogenic factors. Among these, vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF) have been recognized as key players in promoting cell growth and differentiation. Porcine granulosa cells from small (<3 mm), medium (3-5 mm) and large (>5 mm) follicles were seeded at different densities in DMEM:Ham's F12 (1:1) with or without different concentrations of VEGF or bFGF. After 48 h of culture, media were assayed for oestradiol (E2) 17beta, progesterone (P4), nitric oxide (NO) and VEGF levels; in addition, cell proliferation was evaluated by 3H-thymidine incorporation assay. Both bFGF and VEGF effects on E2 and P4 production by cultured granulosa cells resulted to be dependent on follicle size. The bFGF was always ineffective in modulating cell proliferation, while VEGF exerted an inhibitory effect on the proliferation in the small follicle group and a stimulatory one in the medium and large follicle groups. The bFGF consistently reduced NO levels in culture media. The VEGF appeared to be ineffective in modifying NO production in the small follicle group, while it was stimulatory in the medium follicle group and inhibitory in the large follicle group. Basal VEGF production was higher in cells from the large follicle as compared with the small and medium follicle groups, and it was unaffected by bFGF. These results suggest that VEGF plays a modulatory role in granulosa cell functional activity and it is possibly involved in the regulation of follicle growth; on the contrary, bFGF does not appear to represent a significant regulatory factor in our cellular model, except for an inhibitory action on the production of NO, whose anti-angiogenic properties need to be further substantiated.

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Is nitric oxide an autocrine modulator of bovine granulosa cell function?

Basini

Baratta²,

Ponderato³

et al. 1998

Reprod. Fertil. Dev.

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Nitric oxide (NO) is an important intra- and intercellular messenger controlling many biological processes. It is synthesized by NO synthases, which have been found also in granulosa cells. The present study examined whether NO is present in bovine follicular fluid and is produced by granulosa cells in culture. Secondly, it aimed to determine if NO affects the main parameters of granulosa cell function. The NO donor S-nitroso-L-acetyl-penicillamine (10(-3), 10(-4), 10(-5) M) was used to evaluate whether NO might influence steroidogenesis, proliferation and apoptosis in bovine granulosa cells collected from follicles divided according to their size in small (<5 mm) and large (>8 mm). The data demonstrate the presence of NO in follicular fluid and its production by granulosa cells in culture: the most active cells in producing NO are those from the small follicles, as confirmed by the NO levels in follicular fluid. This study also shows that NO donor significantly (P<0.001) inhibits progesterone (P4) and oestradiol 17beta (E2) production by the granulosa cells from both kinds of follicle; moreover, the highest concentration of NO donor significantly (P<0.001) inhibits DNA fragmentation in all the cells whereas the lowest concentration stimulates (P<0.001) cellular apoptosis only in granulosa cells from large follicles. NO donor does not seem to modify cell proliferation. Taken together these data lead point to NO as a local modulator of granulosa cell function.

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