Alterations in follicular fluid estradiol, progesterone and insulin concentrations during ovarian acyclicity in water buffalo (Bubalus bubalis)

Ovarian acyclicity is one of the most important causes of infertility in water buffalo. Recent studies have indicated alterations in the composition of follicular fluid during the condition. The aim of this study was to determine the changes in follicular fluid concentrations of estradiol, progesterone and insulin during ovarian acyclicity in water buffalo. Ovaries were collected from 50 acyclic and 95 cyclic (control) buffaloes and follicular fluid was aspirated from small (5.0-6.9 mm), medium (7.0-9.9 mm) and large (≥10.0 mm) sized follicles. Estradiol concentration was lower (P<0.0001) in acyclic (1.4 ± 0.09 ng/ml) than in cyclic (3.3 ± 0.18 ng/ml) buffaloes. Regardless of the ovarian cyclic status, there was an increase (P<0.01) in estradiol concentration with the increase in follicle size; the mean concentrations were 2.4 ± 0.16 ng/ml, 2.8 ± 0.29 ng/ml and 3.5 ± 0.41 ng/ml in small, medium and large follicles, respectively. A higher (P<0.001) progesterone concentration was recorded in acyclic (24.3 ± 2.61 ng/ml) compared to the cyclic (7.6 ± 0.79 ng/ml) group. Furthermore, acyclic buffaloes had a lower (P<0.05) concentration of insulin in the follicular fluid than that of cyclic buffaloes (15.2 ± 1.55 μIU/ml versus 25.9 ± 2.78 μIU/ml, respectively). In conclusion, acyclic buffaloes have lower concentrations of estradiol and insulin concurrent with higher concentrations of progesterone in the follicular fluid. These hormonal changes in the follicular microenvironment are possibly a manifestation of the disturbances in the normal follicular development leading to anovulation and anestrus in acyclic buffaloes.     

Follicular fluid nitric oxide and ascorbic acid concentrations in relation to follicle size, functional status and stage of estrous cycle in buffalo

The objective of this study was to evaluate the changes in follicular fluid nitric oxide (NO) and ascorbic acid (AA) concentrations with varying follicle size and functional status, and stage of estrous cycle in buffalo. The main effect of follicle size on NO concentration and size-by-status interaction were statistically significant (P<0.05). Small follicles had a higher (P<0.05) NO concentration compared to medium and large follicles. Further, estrogen-active (EA) small follicles showed increased (P<0.05) NO concentrations than the corresponding estrogen-inactive (EI) follicles. Within EA category, higher (P<0.01) concentrations were recorded in small compared to medium and large follicles. There was no significant main effect of stage (P>0.1) on NO concentration but the stage-by-size interaction was significant (P<0.05) with medium follicles showing a higher (P<0.05) concentration during late luteal stage compared to the mid luteal stage. During early and mid luteal stages, higher (P<0.05) NO concentrations were recorded in small than in medium follicles. A significant (P<0.01) main effect of size on AA concentration was observed with higher values in medium than in small and large follicles. Size-by-status interaction for AA approached statistical significance (P<0.06) with higher (P<0.05) concentrations recorded in medium than in large EA follicles. The main effect of stage on AA concentration was, however, non-significant (P>0.1) but the stage-by-size interaction approached statistical significance (P<0.06) with lower (P<0.05) levels recorded in large compared to medium size follicles during the follicular stage. In conclusion, the present study demonstrates that the concentrations of follicular fluid NO and AA vary according to the follicle size, functional status and stage of estrous cycle suggesting their possible role in process of follicular development during estrous cycle in buffalo.     

A comparison of hormone levels in follicle-lutein-cysts and in normal bovine ovarian follicles

Insulin-like growth factors 1 and 2 (IGF-1 and 2), oxytocin, progesterone, estradiol and ubiquitin were measured in bovine follicle-lutein-cysts and in follicular fluid after the classification of ovarian follicles by size (Class I = <4 mm; Class II = 5-8 mm; Class III = 9-12 mm; Class IV = preovulatory; Class V = cystic). It was found that IGF-1 concentrations increased during growth from 280 ng/ml in small follicles to 489 ng/ml in preovulatory follicles; IGF-2 appeared to remain constant in follicular fluid and in cysts (275 ng/ml). Oxytocin values were low in Class I, II and III follicles (30 pg/ml) but increased in preovulatory and cystic follicles (75 pg/ml). Estradiol increased significantly only in preovulatory follicles. Ubiquitin, a protein reflecting cellular replicative activity, could be found in bovine follicular fluid in high concentrations: 1.6 mug/ml in Class I,II and III follicles with the highest amounts in preovulatory follicles (2.3 mug/ml). In contrast with normal follicles, cysts were found to have a minimal concentration of ubiquitin (0.3 mug/ml). Progesterone levels were 5 times higher in cysts (325 ng/ml) and IGF-1 concentrations were markedly higher in cystic follicles (881 ng/ml) than in the other follicles. Simultaneously, maximum gene expression for IGF-1 was found in granulosa/lutein cells of cystic follicles (Class V), suggesting de novo synthesis of IGF-1. Between the different follicle classes progesterone, oxytocin and IGF-1 concentrations correlated positively (r=0.82). Hormonal levels in follicle-lutein-cysts indicated an arrested stage of insufficient luteinization as a possible result from the premature release of LH or from the release of amounts of LH inadequate to cause ovulation.     

Concentrations of steroids and gonadotropins in follicular fluid from normal heifers and heifers primed for superovulation

The concentrations of six steroids and of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) were measured in follicular fluid from preovulatory and large atretic follicles of normal Holstein heifers and from preovulatory follicles of heifers treated with a hormonal regimen that induces superovulation. Follicular fluid from preovulatory follicles of normal animals obtained prior to the LH surge contained extremely high concentrations of estradiol (1.1 +/- 0.06 micrograms/ml), with estrone concentrations about 20-fold less. Androstenedione was the predominant aromatizable androgen (278 +/- 44 ng/ml; testosterone = 150 +/- 39 ng/ml). Pregnenolone (40 +/- 3 ng/ml) was consistently higher than progesterone (25 +/- 3 ng/ml). In fluid obtained at 15 and 24 h after the onset of estrus, estradiol concentrations had declined 6- and 12-fold, respectively; androgen concentrations had decreased 10- to 20-fold; and progesterone concentrations were increased, whereas pregnenolone concentrations had declined. Concentrations of LH and FSH in these follicles were similar to plasma levels of these hormones before and after the gonadotropin surges. The most striking difference between mean steroid levels in large atretic follicles (greater than 1 cm in diameter) and preovulatory follicles obtained before the LH surge was that estradiol concentrations were about 150 times lower in atretic follicles. Atretic follicles also had much lower concentrations of LH and slightly lower concentrations of FSH than preovulatory follicles. Hormone concentrations in follicles obtained at 12 h after the onset of estrus from heifers primed for superovulation were similar to those observed in normal preovulatory follicles at estrus + 15 h, except that estrogen concentrations were about 6-40 times lower and there was more variability among animals for both steroid and gonadotropin concentrations. Variability in the concentrations of reproductive hormones in fluid from heifers primed for superovulation suggests that the variations in numbers of normal embryos obtained with this treatment may be due, at least in part, to abnormal follicular steroidogenesis.     

Relationship between concentrations of cortisol in ovarian follicular fluid and various biochemical markers of follicular differentiation in cyclic and anovulatory cattle

Concentrations of cortisol were determined in pooled fluid of small (less than 10 mm) and large (greater than or equal to 10 mm) follicles of cyclic cattle (Exp. 1), and in fluid of the largest follicle of 17 post-partum anovulatory cows (Exp. 2). In Exp. 1, concentrations of cortisol in small follicles were greater (P less than 0.05) than in large follicles (14.7 versus 13.2 ng/ml), and varied significantly with stages of the cycle; small and large follicles had the highest cortisol concentration during the early luteal phase of the cycle. Large follicles had 2-fold greater concentrations of oestradiol than did small follicles, whereas small follicles had 2-fold greater concentrations of androstenedione than did large follicles. Across pools of follicular fluid, cortisol concentrations were correlated only to androstenedione concentrations (r = 0.65, P = 0.07). In Exp. 2, concentrations of cortisol did not significantly differ between oestrogen-active (oestradiol greater than progesterone in follicular fluid) and oestrogen-inactive (progesterone greater than oestradiol) follicles, although oestrogen-active follicles had a 24-fold greater concentration of oestradiol than did oestrogen-inactive follicles. Cortisol concentrations were correlated to hCG binding capacity of thecal cells (r = -0.35, P = 0.08) and to follicular diameter (r = 0.45, P less than 0.05). These results suggest that normally fluctuating concentrations of cortisol in follicular fluid of cattle play little or no active role in follicular differentiation in vivo.     

Progesterone, 17α-hydroxyprogesterone,androgens and oestrogens in bovine ovarian cysts

The concentration of steroid hormones in cystic follicular fluid was determined in cows with cystic ovaries. There was a significant difference in concentrations of the hormones from the cysts with granulosa cell layers, and the cysts without granulosa cell layers or only 2 to 3 layers with pycnotic nuclei in the granulosa cells (P < 0.01). The cystic follicles that consist of both thecal- and granulosa cell layers contained a low amount of progesterone and high levels of 17α-hydroxyprogesterone, androgens and oestrogens, not different from preovulatory follicles.In contrast, cysts that consist only of thecal cell layers contained a very high amount of progesterone, but very low levels of 17α-hydroxyprogesterone, androgens and oestrogens. That is functionally similar to the bovine corpus luteum which produces high concentrations of progesterone but has no or very low 17α-hydroxylase activity.In conclusion, the cystic follicles without granulosa cells are not capable of secreting 17α-hydroxyprogesterone, androgens and oestrogens, in spite of high levels of progesterone. It may be suggested that in these cysts there is a blockade of 17α-hydroxylase activity.     

Concentrations of nitric oxide in equine preovulatory follicles before and after administration of human chorionic gonadotropin

In the present study, follicular fluids of estrous mares treated with saline solution (Control) or nitric oxide synthase (NOS) inhibitors were analyzed for nitric oxide (NO), estradiol-17beta (E2) and progesterone (P4) concentrations before and 36h after administration of human chorionic gonadotropin (hCG). Follicular fluids obtained before (0h) hCG administration from control mares had lower concentrations of NO than those obtained 36h after administration of hCG (58.3+/-17.8 micromol versus 340.4+/-57.7 micromol; P<0.05). A similar pattern was also noted for intrafollicular P4 in control mares, which had lower concentrations of intrafollicular P4 before hCG than 36h post-hCG administration (P<0.05). As expected, E2 concentrations of control follicles sampled before hCG administration were higher than those sampled 36h post-hCG administration (P<0.05). However, the E2 concentrations in follicles of mares treated with the NOS inhibitors N(omega)-nitro-L-arginine methyl ester (L-NAME) or aminoguanidine (AG) did not decrease after hCG administration, unlike those in control mares (P>0.10). In addition, mares treated with NOS inhibitors had lower intrafollicular concentrations of NO and P4 than control mares, both before and after hCG administration (P<0.05). Increased intrafollicular concentrations of NO in control, hCG-stimulated mares provide evidence for the presence of an NO-generating system in the equine preovulatory follicle that is likely upregulated following administration of hCG.     

Ovarian cysts in high-yielding dairy cows

We examined the hormonal and morphologic changes associated with ovarian cyst formation in high-yielding dairy cows. Follicle fluid was aspirated from 90 cysts and 15 preovulatory and 18 subordinate follicles and used for hormonal determination. Pieces of cystic wall were subjected to morphologic and immunohistochemical evaluation. Cysts were characterized by low concentrations of insulin, insulin-like growth factor-I (IGF-I), and glucose and high activity of IGF binding proteins (IGFBPs). Insulin and IGF-I levels were (mean ± SEM) 205 ± 22 pg/mL and 146 ± 42 ng/mL in preovulatory follicles and 3 ± 1 pg/mL and 61 ± 6 ng/mL in cysts, respectively (P < 0.001). Insulin-like growth factor-binding proteins activity was about 10 times higher in cysts than in preovulatory follicles. Cysts were classified into three types according to their estradiol-to-progesterone (E/P) ratio. Type 1 cysts (n = 23) exhibited the highest E/P ratio (10.8 ± 2.3), partial loss of granulosa cells, and severe morphologic changes in the theca interna. Expression of P₄₅₀ side-chain cleavage and P₄₅₀ 17α-hydroxylase was noted in theca cells and expression of inhibin-α in granulosa cells. Type 2 cysts (n = 35) had a low E/P ratio (0.07 ± 0.02), and patches of luteal-like tissue in the cystic wall. Type 3 cysts (n = 32) had an E/P ratio of 0.91 ± 0.17, and no recognizable granulosa or theca cells. In summary, intrafollicular steroid levels as expressed by E/P ratio, together with IGF-I and insulin levels and morphologic changes in the follicular wall, may serve as accurate cyst-classification parameters. Because IGF-I and/or insulin play an essential role in the final stage of follicle development, it can be speculated that abnormal levels of these metabolic hormones might lead to follicle dysfunction, resulting in follicular regression or cyst formation.     

Elevated peripheral concentrations of LH block ovulation and increase thecal and serum progesterone in the hamster

Insertion of osmotic minipumps containing 1 mg ovine LH on Day 1 (oestrus) elevated circulating serum concentrations of LH, progesterone and androstenedione when compared with values at pro-oestrus. Ovulation was blocked for at least 2 days at which time there were twice the normal numbers of preovulatory follicles. Follicular and thecal progesterone production in vitro was elevated when compared with that in pro-oestrous controls. Follicular and thecal androstenedione production in vitro was lower than in controls even though serum concentrations of androstenedione were elevated; the higher androstenedione values may be due to the increase in number of preovulatory follicles when compared with pro-oestrous controls. Follicles from LH-treated hamsters aromatized androstenedione to oestradiol and follicular production of oestradiol was similar to that in pro-oestrous follicles despite low follicular androstenedione production in the LH-treated group. Treatment with 20 i.u. hCG on Days 4 or 6 after insertion of an LH osmotic minipump on Day 1 induced ovulation of approximately 30 ova, indicating that the blockade of ovulation was not due to atresia of the preovulatory follicles. Serum progesterone concentrations on Days 2, 4 and 6 in LH-treated hamsters were greater than 17 nmol/l, suggesting that the blockade of ovulation might have been due to prevention of the LH surge by high serum progesterone concentrations.     

Changes in biochemical composition of follicular fluid during reproductive acyclicity in water buffalo (Bubalus bubalis)

This study describes the changes in biochemical composition of follicular fluid during reproductive acyclicity in buffalo. A total of 73 pairs of ovaries collected from 26 reproductively acyclic and 47 reproductively cyclic buffaloes were used in the investigation. Ovarian follicles were classified into small (5.0-6.9 mm), medium (7.0-9.9 mm) and large (≥10.0 mm) sized categories depending upon their diameter. Follicular fluid was aspirated, processed and assayed for glucose, cholesterol, total protein, acid phosphatase and alkaline phosphatase. Glucose concentration was lesser in reproductively acyclic compared to cyclic buffaloes (19.3 ± 2.59 mg/dl compared to 32.6 ± 2.60 mg/dl; P<0.05), mainly due to difference in concentration between small sized follicles (12.4 ± 2.59 mg/dl compared to 28.0 ± 3.32 mg/dl; P<0.05). Cholesterol concentration was also lesser in reproductively acyclic compared to cyclic buffaloes (32.2 ± 2.14 mg/dl compared to 35.5 ± 2.16 mg/dl; P<0.05) and this was related to the lesser concentration found in large follicles (13.8 ± 3.45 mg/dl compared to 37.2 ± 4.10mg/dl; P<0.001). Total protein and acid phosphatase levels were not affected by either the reproductive cyclicity status or the follicular size (4.9 ± 1.07 g/dl to 6.0 ± 0.28 g/dl and 1.2 ± 0.17 U/dl to 2.5 ± 1.22 U/dl, respectively). An increased alkaline phosphatase activity was, however, observed in reproductively acyclic compared to cyclic buffaloes (27.5 ± 3.08 U/dl compared to 14.0 ± 1.09 U/dl; P<0.0001). In conclusion, results of the present study indicate an alteration in the biochemical composition of follicular fluid during reproductive acyclicity in buffalo. The findings provide further support to the notion that poor nutrition is an important factor triggering reproductive acyclicity in buffalo.     

Exogenous progesterone reduces follicular prostaglandin E and 6-keto prostaglandin F-1 alpha in the cyclic hamster

In cyclic hamsters, exogenous progesterone (100 micrograms) administered s.c. at 09:00 h on the day of dioestrus II reduced prostaglandin (PG) E and 6-keto PGF-1 alpha but not PGF concentrations in preovulatory follicles measured at 09:00 h of pro-oestrus. The injection of 10 micrograms ovine LH (NIADDK-oLH-25) concurrently with 100 micrograms progesterone on dioestrus II prevented the decline in follicular PGE and 6-keto PGF-1 alpha values. Administration of LH alone did not significantly alter follicular PG concentrations. Inhibition of follicular PGE accumulation by progesterone was due to a decline in granulosa PGE concentration and not thecal PGE. Progesterone administration also reduced follicular oestradiol concentrations. Administration of oestradiol-17-cyclopentanepropionate (ECP) (10 micrograms) with progesterone did not prevent the decline in follicular PGE and 6-keto PGF-1 alpha but did increase follicular PGF concentrations. However, ECP given alone on dioestrus II reduced follicular PGE and increased PGF concentrations in preovulatory follicles on pro-oestrus. It is concluded that exogenous progesterone administered on dioestrus II inhibits granulosa PGE and 6-keto PGF-1 alpha accumulation in preovulatory follicles, probably by reducing serum LH concentrations, and that the granulosa cells, which are LH-dependent, are a major source of follicular PGE.     

Intrafollicular steroids and anti-mullerian hormone during normal and cystic ovarian follicular development in the cow

Development of follicular cysts is a frequent ovarian dysfunction in cattle. Functional changes that precede cyst formation are unknown, but a role for anti-Müllerian hormone (AMH) in the development of follicular cysts has been suggested in humans. This study aimed to characterize intrafollicular steroids and AMH during follicular growth in a strain of beef cows exhibiting a high incidence of occurrence of follicular cysts. Normal follicular growth and cyst development were assessed by ovarian ultrasonography scanning during the 8 days before slaughtering. Experimental regression of cysts was followed by rapid growth of follicles that reached the size of cysts within 3-5 days. These young cysts exhibited higher intrafollicular concentrations of testosterone, estradiol-17beta, and progesterone than large early dominant follicles did in normal ovaries, but they exhibited similar concentrations of AMH. Later-stage cysts were characterized by hypertrophy of theca interna cells, high intrafollicular progesterone concentration, and high steroidogenic acute regulatory protein mRNA expression in granulosa cells. Progesterone and AMH concentrations in the largest follicles (> or =10 mm) and cysts were negatively correlated (r = -0.45, P < 0.01). Smaller follicles (<10 mm) exhibited higher intrafollicular testosterone and estradiol-17beta concentrations in ovaries with cysts compared to normal ovaries. During follicular growth, AMH concentration dropped in follicles larger than 5 mm in diameter and in a similar way in ovaries with and without cysts. In conclusion, enhanced growth and steroidogenesis in antral follicles <10 mm preceded cyst formation in cow ovaries. Intrafollicular AMH was not a marker of cystic development in the cow, but low AMH concentrations in cysts were associated with luteinization.     

Sex steroid changes in porcine cystic ovarian disease

Ten sex steroids were measured in the peripheral serum and ovarian follicular fluid of female pigs with or without cystic ovarian disease. In general, progestin, especially progesterone, accumulated excessively in the fluid contained in cystic compared with normal follicles. Nonluteinized cystic follicles contained up to four times the progesterone concentration found in large normal preovulatory follicles. Levels of this steroid increased with luteinization of cystic follicles to as much as 10 times those found in large preovulatory follicles. In contrast, the concentration of follicular fluid androgens and estrogens in cystic follicles were, at best, barely detectable (5 to 10 pg/ml). These results are indicative of a steroidogenic blockade in the conversion of C21 progestin to C19 androgens and C18 estrogens in the cystic follicles. In spite of an enormous accumulation of follicular progestin and subnormal concentration of androgens and estrogens, circulating levels of these hormones in pigs bearing cystic ovaries were in the normal range for cycling sows. Clearly, the hormonal abnormalities in the cystic follicles are not reflected in the serum profiles of these steroids.     

Development and characterization of an in vitro ovulation model using mouse ovarian follicles.

To investigate ovulation, an in vitro model with cultured mouse follicles was developed and compared with an in vivo ovulation model. In this model, secondary follicles were grown in vitro with immature mouse serum (5%) and recombinant human FSH. Addition of ascorbic acid and selenium to the medium increased follicular survival (from 29% to 86%) and resulted in the development of healthy preovulatory follicles (> 400 microm) producing estradiol. Depending on the starting size of the follicles, the preovulatory stage was reached after 4-6 days. The ovulatory response to hCG was maximal in follicles exceeding a diameter of 400 microm. The in vitro-ovulated oocytes could be fertilized and were able to develop to the blastocyst stage. Ovulation induced by hCG was dose dependent, reaching a maximum of 80% at 1 IU/ml. Concomitantly, progesterone production increased from 3.6 +/- 0.5 to 29 +/- 2 ng/ml. Both in vivo and in vitro, hCG induced expression of the progesterone receptor and the prostaglandin endoperoxide synthase-2 (PGS-2) gene within 3 h. Ovulation could be completely blocked with the anti-progestogen Org-31710 and partially (50%) with the PGS inhibitor indomethacin in vitro and in vivo. Org-31710 and indomethacin did not affect progesterone production. In summary, a physiologically relevant in vitro ovulation model of cultured mouse follicles that can be used to study the process of follicular rupture has been developed.     

Histological evidence for heterogeneity in the development of preovulatory pig follicles

Ovaries were collected from naturally cycling gilts during the preovulatory period and the stage relative to the LH surge estimated by measurement of oestradiol and progesterone concentrations in follicular fluid. Many of the follicles recovered had become flaccid with an associated increase in follicular fluid viscosity. Marked infolding of both the granulosa and theca tissue in some follicles suggested early luteinization. However, these morphological changes did not necessarily occur simultaneously in the same follicle, or in all follicles within an ovary. Moreover, they were not consistently related to characteristic differences in the concentration of follicular fluid steroids, suggesting either that the morphological and biochemical aspects of the luteinization of follicles may be independently controlled, or may respond at different rates to the same signal.     

Dominant bovine ovarian follicular cysts express increased levels of messenger RNAs for luteinizing hormone receptor and 3 beta-hydroxysteroid dehydrogenase delta(4),delta(5) isomerase compared to normal dominant follicles

The objective was to compare ovarian steroids and expression of mRNAs encoding cytochrome P450 side-chain cleavage, cytochrome P450 17 alpha-hydroxylase, cytochrome P450 aromatase, 3 beta-hydroxysteroid dehydrogenase Delta(4),Delta(5) isomerase, LH, and FSH receptors and estrogen receptor-beta in ovaries of cows with dominant and nondominant ovarian follicular cysts and in normal dominant follicles. Estradiol-17 beta, progesterone, and androstenedione concentrations were determined in follicular fluid using specific RIAs. Dominant cysts were larger than young cysts or dominant follicles, whereas nondominant cysts were intermediate. Estradiol-17 beta (ng/ml) and total steroids (ng/follicle) were higher in dominant cysts than in dominant follicles. Expression of LH receptor and 3 beta-hydroxysteroid dehydrogenase mRNAs was higher in granulosa cells of dominant cysts than in dominant follicles. Nondominant cysts had higher follicular concentrations of progesterone, lower estradiol-17 beta concentrations, and lower expression of steroidogenic enzyme, gonadotropin receptor, and estrogen receptor-beta mRNAs than other groups. In summary, increased expression of LH receptor and 3 beta-hydroxysteroid dehydrogenase mRNAs in granulosa and increased follicular estradiol-17 beta concentrations were associated with dominant cysts compared to dominant follicles. Study of cysts at known developmental stages is useful in identifying alterations in follicular steroidogenesis.     

Changes in the expression of cytochrome P450c17 associated with ovarian cystic follicles. An immunocytochemical and enzymatic analysis of porcine ovaries.

The steroidogenic activity of normal preovulatory and cystic follicles, and corpora lutea of porcine ovaries was investigated by immunocytochemical and radioenzymatic techniques. Using a specific antibody to porcine cytochrome P450c17, immunocytochemical staining was specifically localized in the theca interna layer of normal follicles and undetectable in the granulosa layer. The theca interna layers of non-luteinized cystic follicles were immunoreactive while those of luteinized follicles were not. Corpora lutea cells were essentially negative. The 3 beta-hydroxysteroid dehydrogenase/delta 5-delta 4 isomerase activity was similar in luteinized cystic follicular and corpora lutea tissues, which had 8 times higher activity than found in normal preovulatory follicles. The formation of either corpora lutea or luteinized cysts led to a profound decline (12- to 15-fold) in 17 alpha-hydroxylase and 17,20 lyase activities compared to normal preovulatory follicles. In agreement with these enzyme findings, radioimmunoassays revealed very high levels of progesterone with nearly undetectable levels of androgens in the luteinized cysts. These studies demonstrate the functional similarities between cells of luteinized cysts and those of normal corpora lutea and suggest a pathology associated suppression of P450c17 expression in porcine cystic follicles.     

Preovulatory follicular status and diet affect the insulin and glucose content of follicles in high-yielding dairy cows

Insulin and glucose may be limiting factors for ovarian function in dairy cows genetically selected for high milk yield. The effects of nutrition on the intrafollicular content of insulin and glucose were investigated in Israeli Holstein dairy cattle fed a basic total mixed ration and producing 34-39kg of milk daily. In experiment 1, carried out in 11 oestrus-synchronised cows, little variation in insulin concentration was found in plasma sampled during the luteal phase, but high variation was found in plasma sampled during the follicular phase. Therefore, in order to prevent confounding the effects of diet and of phase in cycle in the following experiments, experimental diets were fed during the luteal phase of synchronised oestrus cycles. In experiment 2, designed as Latin-Square, six cows received sequentially diets containing 17.1 (control) or 19.7% of crude protein, using two sources of supplementary protein, i.e. soyabean meal (SBM) and corn gluten meal (CGM), differing in ruminal degradability and leucine content. When dry matter intake was used as covariant, plasma insulin on day 16 was 29.5 and 26.4% higher in cows fed diets containing SBM and CGM than in the control (P<0.05). In experiment 3, 17 cows were individually fed the basic diet and then switched to isoenergetic diets containing SBM (n=5), CGM (n=6) or corn grain (CG, n=6) given from day 10 to 16 of the synchronised oestrus cycle. On the eve of day 16, and in the morning of day 17, they were administered PGF(2alpha) and the content of 26 largest follicles was aspirated by using the transvaginal ovum pick-up technique. Follicles were sorted into two classes (preovulatory and subordinate) according to oestradiol concentration and the progesterone:oestradiol ratio in follicular fluid (FF). Higher concentrations of insulin (0.282 versus 0.127ng/ml, P<0.0001) and of glucose (0.614 versus 0.386g/l, P<0.002), were found in FF from preovulatory follicles. The insulin concentration in the FF of cows fed the CG diet was 26% higher than in their counterparts fed CGM (P<0.04), SBM being intermediate. Dietary effects did not reach significance in subordinate follicles.The finding that preovulatory follicular status is associated with increased intrafollicular insulin and glucose suggests that insulin is involved in follicular maturation. The nutritional effect on intrafollicular glucose and insulin may have practical implications to optimise feeding in dairy cows during phases of the oestrus cycle.     

A CIDR-based timed AI protocol can be effectively used for dairy cows with follicular cysts

The present study evaluated whether a controlled internal drug release (CIDR)-based timed AI (TAI) protocol could be used as an efficient tool for the treatment of ovarian follicular cysts in lactating dairy cows. In the first experiment, lactating dairy cows diagnosed with follicular cysts were randomly assigned to two treatments: (1) a single injection of GnRH at diagnosis (Day 0) and AI at estrus (AIE) within 21 days (GnRH group, n=70), or (2) insertion of a CIDR device containing progesterone and an injection of GnRH on Day 0, PGF(2alpha) injection at the time of CIDR removal on Day 7, GnRH injection on Day 9, and TAI 16h after the GnRH injection (CIDR-based TAI group, n=65). Conception rate after the CIDR-based TAI protocol (52.3%) was greater (P<0.05) than that after AIE following a single GnRH injection (26.9%). In the second experiment, lactating dairy cows diagnosed with follicular cysts (Cyst group, n=16) and cows having normal estrous cycles (CYC group, n=15) received the same treatment: a CIDR device containing progesterone and an injection of GnRH on Day 0, PGF(2alpha) injection at the time of CIDR removal on Day 7, and GnRH injection on Day 9. The proportion of cows with follicular wave emergence and the interval from treatment to follicular wave emergence did not differ (P>0.05) between groups. The mean diameters of dominant follicles on Days 4 and 7 as well as preovulatory follicles on Day 9, and the synchrony of ovulation following the second injection of GnRH did not differ (P>0.05) between groups. These data suggest that the CIDR-based TAI protocol results in an acceptable conception rate in dairy cows with follicular cysts.     

Follicular fluid modulation of functional LH receptor induction in pig granulosa cells

Follicular fluid was collected from small (1-2 mm), medium (3-5 mm) and large (6-12 mm) follicles of pigs, treated with charcoal to remove steroids, and tested for effects on the induction of functional LH/hCG receptors in cultures of granulosa cells from small antral pig follicles. Granulosa cells were cultured for 2, 4 or 6 days in Medium 199 + 10% pig serum. Granulosa cells cultured in the presence of purified human FSH (0.1 microgram/ml, LER 8/117), insulin (1 mU/ml), cortisol (0.01 microgram/ml) and thyroxine (10(-7) M) accumulated a 4- to 8-fold increase in LH/hCG receptors compared to control cultures. The amounts of cyclic AMP and progesterone secreted after exposure to ovine LH (1 microgram/ml: NIH-S19) were also increased 2-3-fold and 80-100-fold, respectively. Exposure to FSH alone resulted in lower amounts of LH/hCG receptors with a concomitant decrease in optimum LH responses. Addition of 12.5-50% follicular fluid obtained from small (1-2 mm) follicles led to a dose-dependent inhibition of the FSH plus insulin, cortisol and thyroxine induction of LH/hCG receptors after 4 days of culture. Fluid from medium follicles showed reduced ability to inhibit LH/hCG receptor induction, and fluid from large follicles exerted only a slight inhibition or no inhibition of receptor induction. Fluid from medium-sized and large follicles exerted a progressive dose-dependent stimulation of progesterone secretion by the granulosa cell cultures. The inhibitory activity was precipitated primarily with 70% ethanol and to a lesser degree by 36 and 90% ethanol. These studies demonstrate that induction of functional LH/hCG receptors in cultures of pig granulosa cells from immature follicles is enhanced by including insulin, cortisol and thyroxine, in addition to FSH, in the culture medium, and that follicular fluid modulates both receptor induction and progesterone secretion as a function of follicular maturation.