Effect of androgen substrates on the steroidogenic pattern of cumulus cells: correlation with cumulus culture morphology

Immunolocalization of androgen receptor and steroidogenic enzymes in cumuli oophori of pre- and post-ovulatory rats

Immunolocalization of 3β-hydroxysteroid dehydrogense (3β-HSD), cytochrome P450c17 (P450c17) and androgen receptor (AR) were investigated in rat cumuli oophori (COCs) of late pre-ovulatory follicles and in post-ovulatory COCs bearing fertilized oocytes. A gradient of intensity of 3β-HSD immunolabelling was observed in the granulosa layer of pre-ovulatory follicles, with almost negative immunolabelling in COCs and with the strongest immunoreaction in the mural granulosa cells. Post-ovulatory COCs showed strong 3β-HSD immunolabelling in the peripheral regions and weak labelling near the oocyte, suggestive of responsiveness of cumulus cells to an anti-luteinizing effect exerted by the fertilized oocyte. In pre-ovulatory follicles, a weak P450c17 immunopositivity was limited to expanded cumulus granulosa cells and the positive labelling persisted in post-ovulatory COCs. P450c17 immunopositivity was also found in ampullary epithelial cells. A strong AR immunopositivity was confined mainly to the COCs in pre-ovulatory follicles and a similar immunoreaction was present in the granulosa cells of ovulated COCs. Simultaneous AR and cytochrome P450c17 immunolabelling in the pre- and post-ovulatory COCs is suggestive of an intra- and paracrine androgen regulation of the cumulus granulosa cell function.

In vitro maturation of human oocytes and cumulus cells using a co-culture three-dimensional collagen gel system

BACKGROUND

Deficiencies remain in the ability of in vitro-matured human oocytes to acquire full developmental competence and give rise to a healthy pregnancy. A clear deficiency of current systems utilizing human oocytes has been the absence of cumulus cells. In the present study, a three-dimensional (3D) co-culture system exploiting an extracellular matrix was developed and compared to conventional methods for its ability to support maturation of human oocytes.

METHODS AND RESULTS

Cumulus cells were embedded into a 3D collagen gel matrix with individual oocytes added to each gel. Oocytes from the same patient cultured in the gel matrix matured to metaphase II at rates similar to those of cumulus-free oocytes cultured in individual microdrops. Following maturation of oocytes and fixation of intact gels, chromatin and cytoskeletal elements were assessed in oocytes and cumulus cells. The activities of the key cell cycle kinases, maturation-promoting factor (MPF) and mitogen-activated protein kinase (MAPK), were compared in oocytes matured under the two culture conditions. Compared with denuded oocytes, co-cultured oocytes exhibited increased MAPK activity, but no difference in MPF levels.

CONCLUSIONS

This work characterizes a novel and efficacious culture system that takes advantage of the unique properties of the extracellular matrix, a 3D microenvironment, and the presence of cumulus cells for maturing human oocytes in vitro.

Increased progesterone secretion and 3 beta-hydroxysteroid dehydrogenase activity in human cumulus cells by pregnenolone is limited to the high steroidogenic active cumuli

PURPOSE

Several reports imply that lower progesterone secretion by cumulus-oocyte complexes (COCs) is associated with lower fertilization in the corresponding oocyte. The possible role of progesterone in oocyte fertilization in humans was studied using two approaches: (a) increasing the total progesterone secretion by culturing more than one COC per dish; and (b) increasing the cumulus cell progesterone secretion by providing pregnenolone as a substrate.

METHODS

Mature COCs were cultured individually or cocultured in groups. Oocyte fertilization and progesterone secretion were tested after 20 hr and 3 days in culture, respectively. The cumuli from individually plated COCs were cultured in the absence of oocyte for an additional 3 days in order to test the effects of pregnenolone on progesterone secretion and the 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) activity. A comparable study with pregnenolone was performed on the corresponding granulosa-lutein cells.

RESULTS

Increasing the number of COC to two instead of one led to a significant increase in both fertilization rate and progesterone secretion. The addition of pregnenolone during days 3-6 increased significantly both progesterone secretion and 3 beta-HSD activity. Comparable results were observed in granulosa-lutein cells subjected to pregnenolone treatment. Following the first 3 days culture, cumulus masses were categorized as secreting high or low progesterone levels. Adding pregnenolone had a greater effect on both progesterone secretion and 3 beta-HSD activity in the high-progesterone-secreting cumuli.

CONCLUSIONS

Addition of pregnenolone increased progesterone secretion and 3 beta-HSD more efficiently in the higher-progesterone-secreting cumuli. Coculture of two COCs instead of one led to a higher fertilization rate and greater progesterone secretion.