Evidence for autocrine or paracrine roles of alpha2-macroglobulin in regulation of estradiol production by granulosa cells and development of dominant follicles.

alpha(2)-Macroglobulin (alpha(2)-M) inhibits proteinases and modulates the actions of growth factors and cytokines. Despite the key roles proteinases, growth factors, and cytokines have in folliculogenesis, the role of alpha(2)-M in follicular development is unknown. Our objectives were to: 1) determine whether granulosa cells produce alpha(2)-M and have alpha(2)-M receptors, 2) examine the effect of alpha(2)-M on estradiol production by granulosa cells, 3) establish whether amounts of alpha(2)-M and alpha(2)-M receptors were altered during dominant nonovulatory follicle development, and 4) examine alpha(2)-M's mechanism of action. The results demonstrated that bovine granulosa cells contain 5.2- and 15-kb mRNAs and 720- and 500-kDa proteins that correspond, respectively, to sizes of mRNAs and proteins for alpha(2)-M and the alpha(2)-M receptor. Treatment of granulosa cells with alpha(2)-M resulted in a specific dose-responsive increase in estradiol production. Cell viability, cell number, and the amount of aromatase in granulosa cells were not altered by alpha(2)-M. Treatment of granulosa cells with factors that bind alpha(2)-M or its receptor did not mimic alpha(2)-M action. Although intrafollicular amounts of alpha(2)-M remained unchanged, amounts of alpha(2)-M receptor in granulosa cells were strongly inversely associated with concentrations of estradiol in dominant and subordinate follicles. Based on these results, we concluded that alpha(2)-M may have autocrine or paracrine roles in granulosa cells potentially important for regulation of estradiol production and development of dominant follicles.

Identification of genes involved in apoptosis and dominant follicle development during follicular waves in cattle.

We hypothesize that granulosa and theca cells from growing dominant follicles, with relatively high intrafollicular concentrations of estradiol, have a greater expression of genes involved in inhibiting apoptosis pathways and lower expression of genes involved in apoptosis pathways than growing subordinate follicles with lower estradiol concentrations. Using the well-characterized bovine dominant follicle model, we collected granulosa and theca cells from individual dominant and the largest subordinate follicle 3 days after initiation of a follicular wave in four animals. Based on ultrasound analysis, both follicle types were in the growth phase at the time of ovariectomy. However, dominant follicles were larger (9.8 +/- 1.0 versus 7.6 +/- 0.6 mm in diameter, P < 0.05) and had greater intrafollicular concentrations of estradiol (132.2 +/-3 8.5 versus 24.1 +/- 12.1 ng/ml, P < 0.05), compared with the largest subordinate follicles. We used bovine cDNA microarrays, which contained a total of 1400 genes, including a subset of 53 genes known to be involved in apoptosis pathways, to determine which apoptosis and marker genes from each of the four dominant versus subordinate follicles were potentially differentially expressed. Using a low stringency-screening criterion, 22 genes were identified. Quantitative real-time polymerase chain reaction confirmed that 16 of these genes were differentially expressed. Our novel results demonstrate that the high intrafollicular concentrations of estradiol in growing dominant follicles were positively associated with enhanced expression of mRNAs in granulosa cells for aromatase, LH receptor, estradiol receptor beta, DICE-1, and MCL-1, compared with granulosa cells from subordinate follicles (all survival-associated genes). In contrast, the relatively low intrafollicular concentrations of estradiol in growing subordinate follicles were positively associated with enhanced expression of mRNAs in granulosa cells for beta glycan, cyclo-oxygenase-1, tumor necrosis factor alpha, caspase-activated DNase, and DRAK-2, and in theca cells for beta glycan, caspase 13, P58(IPK), Apaf-1, BTG-3, and TS-BCLL, compared with granulosa or theca cells from dominant follicles (genes that are all associated with cell death and/or apoptosis). We suggest that that these genes may be candidate estradiol target genes and that they may be early markers for the final stages of follicle differentiation or initiation of apoptosis and thus selection of dominant follicles during follicular waves.

Evidence for a negative intrafollicular role for inhibin in regulation of estradiol production by granulosa cells.

Intrafollicular concentrations of inhibin A and estradiol vary inversely during development of dominant follicles in cattle. Thus, we hypothesized that inhibin has a negative autocrine or paracrine effect on estradiol production by granulosa cells. To examine this hypothesis, a homologous model system was used to test the effects of bovine antibovine inhibin antibodies, bovine inhibin, and a peptide fragment of bovine inhibin (bINH) on capacity of granulosa cells isolated from individual estrogen-active or -inactive dominant or subordinate follicles to produce estradiol during short-term (18 h) serum-free culture. Immunoblot analysis of media demonstrated that granulosa cells basally produce different molecular weight forms of inhibin, similar to those in bovine follicular fluid. Immunoneutralization of endogenous inhibin in culture with different doses (12.5-1000 microg) of highly purified bovine antibovine inhibin antibodies increased estradiol production 2- to 15-fold, compared with controls. Preadsorption of the anti-inhibin antibodies with bINH precursors or bovine pro-alpha(C) suppressed the capacity of anti-inhibin antibodies to enhance estradiol production by granulosa cells, compared with controls. Treatment of granulosa cells with an immunoaffinity-purified preparation of bINH suppressed basal estradiol production 60%, compared with controls. In contrast, treatment of granulosa cells with the bINH peptide increased estradiol production 14-fold, compared with controls. Based on these results, we concluded that both anti-inhibin antibodies and bINH blocked the suppressive local effects of basally produced inhibin on estradiol production during culture of granulosa cells and that inhibin has a negative autocrine or paracrine effect on the in vitro capacity of granulosa cells isolated from dominant or subordinate follicles to produce estradiol.