Oxytocin and estradiol concentrations in follicular fluid as a means for the classification of large bovine follicles

Large antral follicles (13 to 20 mm in diameter) were collected from ovaries of 109 cows and 17 heifers that also had a regressed corpus luteum at slaughter. Thirty percent of the animals had been injected once with prostaglandin F(2)alpha 48 hours before slaughter. Follicles were divided into 3 groups based on estradiol and oxytocin concentrations in the follicular fluid: Group I follicles, estradiol>/=100 ng/ml and oxytocin<65 pg/ml (preovulatory and assumed pre-gonadotropin surge); Group II follicles, estradiol<100 ng/ml and oxytocin>/=65 pg/ml (preovulatory and assumed post-gonadotropin surge); and Group III follicles, estradiol<100 ng/ml and oxytocin<65 pg/ml (atretic follicles). Treatment with prostaglandin F(2)alpha significantly increased the number of viable granulosa cells and estradiol content in Group I follicles. The estradiol: progesterone ratio was significantly higher in Group I vs Groups II and III, but it was similar for Group II healthy follicles and Group III atretic follicles. To ascertain the classification of follicles, PGF(2)alpha was administered on Day 6 of the cycle to induce corpus luteum regression, and a GnRH analog was administered 24 hours later. At 23 hours after GnRH analog treatment, follicular oxytocin levels significantly rose to 103 pg/ml. Concomitantly, estradiol concentrations fell to below 100 ng/ml. This response was not evident by 13 h after injection of the GnRH analog. The results indicate that follicular estradiol and oxytocin concentrations may be used as a means for the physiological classification of large bovine follicles.     

Distribution of Oestrone and Oestradiol in the Bovine Ovary

The levels of oestrone (oe1) and oestradiol (oe2) were estimated with chemical methods in single bovine ovaries of various categories, including ovaries from different phases of the oestrous cycle and from early pregnancy and in cystic ovaries. In the luteal tissue the levels of the two oestrogens were generally found to be very low. In the follicular apparatus (including follicular fluid and residual tissue) the oestrogen contents varied considerably and were higher in the preovulatory ovaries (means: 165 ng. oe1 868 ng. oe2) than in ovaries representing other phases of the oestrous cycle (means during the estimated week 1, 2 and 3 after ovulation respectively: 28 — 18 — 30 ng., oe1 and 91 — 63 — 96 ng. oe2) and from early pregnancy (means: 25 ng. oe1, 42 ng. oe2, foetal length: 2–12 cm.). In the cystic ovaries the contents of oestrogens were higher (means: 230 ng. oe1, 1140 ng. oe2) than in the preovulatory ovaries but the concentrations were lower (means: 45 ng. oe2 per g. as compared to 142 ng. oe2 per g.). The means of the ratios between oestradiol and oestrone in preovulatory and in cystic ovaries were almost identical (mean percentages oe2 of the sum total oe1 and oe2: 83.3 as compared to 82.5). The contents of oestrogens (as oe1 + oe2) of the fluid in follicles or cysts were highly correlated with the contents of oestrogens in the corresponding residual tissue (r = 0.90) and on the average about four times as large. The percentages oestradiol of the sum total oestrone and oestradiol in the fluid and in the corresponding residual tissue were also correlated (r = 0.79). The concentration of oestradiol (and oestrone) in the fluid of follicles and cysts was extremely variable (0.7–600 ng. per ml.) and was apparently not related to the size of the structures except that the concentration in the fluid of preovulatory follicles tended to be higher than in the fluid of small follicles (containing less than 1.5 ml. fluid) and of large follicles or cysts (2–30 ml. fluid).     

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.     

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.     

Relationship between concentrations of immunoreactive insulin-like growth factor-I in follicular fluid and various biochemical markers of differentiation in bovine antral follicles

Three experiments were conducted to determine the relationship between concentrations of insulin-like growth factor-I (IGF-I) in ovarian follicular fluid and various biochemical markers of follicular differentiation in bovine follicles. In Experiment I, ovaries were removed on Days 7, 14, 28, 42, or 56 after parturition from a total of 21 cows. In Experiment II, ovaries of 31 cows were removed between Days 20 and 30 postpartum after 48 or 96 h of either saline (0.9% NaCl, 5 ml) or luteinizing hormone-releasing hormone (LHRH, 500 ng/5 ml saline) injections given every 2 h via jugular cannulae. In Experiment III, ovaries of six cows were removed 48-50 h after a 35-mg injection of prostaglandin F2 alpha during the midluteal phase of an estrous cycle. In Experiments I and II, all follicles greater than or equal to 8.0 mm in diameter were removed from each ovary (n = 33 and 46, respectively). In Experiment III, fluid from all follicles greater than 4 mm in diameter were removed individually (n = 10), and fluid from follicles 1-4 mm in diameter were pooled for each cow. Follicles for each experiment were further categorized as either estrogen-active (E-A, concentration of estradiol greater than progesterone in follicular fluid) or estrogen-inactive (E-I, concentration of progesterone greater than estradiol in follicular fluid). Measurements of immunoreactive IGF-I (i-IGF-I) were made after separating IGFs from their binding proteins with an acid-ethanol extraction.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of insulin-like growth factor-1 on steroidogenesis in cultured carp ovarian follicles: interactions with estradiol

The biological action of insulin like growth factor-1 (IGF-1) on follicular steroidogenesis during follicular development in common carp was examined. Studies were carried out by culturing small (1-2 mm diam.) and large (> 2 mm diam.) follicles. IGF-1 (0.3-100 ng/ml) had no effect on progesterone accumulation or aromatase activity during 48 hr culture of small follicles. Progesterone accumulation by large follicles was also unaffected by IGF-1 over the same period, although aromatase activity was stimulated in a dose dependent manner (8-fold increase over basal levels with a maximum stimulatory dose of 30 ng IGF-1/ml). In contrast, small and large follicles responded to IGF-1 in terms of both progesterone accumulation and aromatase activity after longer periods of culture (4 days for progesterone and 6 days for aromatase). Concurrent treatment of small follicles with estradiol (10(-7) M) enhanced the action of IGF-1 on both indices of steroidogenesis and advanced the time at which IGF-1 stimulated activity was first detectable. The effect of estradiol on follicular IGF-1 responsiveness were independent of cell number. In summary, these results demonstrate varied actions of IGF-1 carp ovarian follicular steroidogenesis in vitro. The results indicate that carp follicles acquire responsiveness to IGF-1 in terms of aromatase activity during follicular development in vivo and that estradiol can induce the response in vitro. The results also suggest that estrogen and progesterone biosynthesis by cultured carp ovarian follicles is differentially regulated by IGF-1. Together, these results provide new insights into the biological actions of IGF-1 in fish ovary.     

Preovulatory biosynthesis and granulosa cell secretion of immunoreactive oxytocin by goat ovaries

Oestrous cycles of goats were synchronized hormonally. Immunoreactive oxytocin was undetectable (less than 0.1 ng/mg protein) in media from granulosa cells isolated before the LH surge for small (1-2 mm), medium (3-5 mm) and large (greater than 5 mm diameter) follicles when cultured for 24 h without or with added hormones. Granulosa cells from large and medium, but not small, follicles isolated 6-12 h after spontaneous preovulatory LH surges secreted high concentrations of oxytocin (4-12 ng/mg protein). Addition of PGE-2 (1 microgram/ml) caused a further significant (P less than 0.05) increase in oxytocin secretion by cultured granulosa cells, whereas PGF-2 alpha, FSH and LH were ineffective when added to culture media. Ovarian venous blood and granulosa cells were collected at 0, 6, 12 or 18 h after GnRH injection in hormonally synchronized goats. Peripheral serum LH values were increased significantly in all but 2 of 22 goats within 2 h of GnRH injection. At the earliest sampling time after GnRH (6 h), ovarian venous levels of oxytocin were increased significantly from basal levels of 0.4 pg/ml to 2.4 pg/ml. Oxytocin concentrations in follicular fluid increased from a basal value of 67 pg/ml to 155 pg/ml by 6 h and to 372 pg/ml by 18 h after GnRH injection. Oxytocin secretion by cultured granulosa cells was not increased significantly by 6 h (0.1 ng/mg protein) but rose to 1.4 and 3.5 ng/mg protein at 12 and 18 h, respectively. Approximately parallel increases occurred in progesterone in ovarian venous blood and granulosa cell culture media over the same time period. (ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of oxytocin on follicular development and duration of the estrous cycle in heifers

Holstein heifers were used to study effects of exogenous administration of oxytocin on luteal function and ovarian follicular development. Twelve heifers were monitored for 1 estrous cycle to confirm normal ovarian function. At the subsequent estrus, these animals were randomly assigned to 1 of 3 treatments: saline control, (Group 1, n=4), oxytocin (Group 2, n=4) and saline pregnant (Group 3, n=4). Group 2 received continuous infusion of oxytocin (1.9 mg/d) from Days 14 to 26 after estrus, while Groups 1 and 3 received saline infusion during the same period. Group 3 were artificially inseminated at estrus. Daily blood samples were collected for oxytocin and progesterone assay. Ovarian follicles and corpus luteum (CL) development were monitored daily by transrectal ultrasonography until Day 32 after estrus. Plasma progesterone (P4) concentrations prior to initiation of infusion were 7.6+/-1.3 ng/mL on Day 14. They then decreased to <1 ng/mL on Day 19 for Group 1 and on Day 28 for Group 2. The interestrous interval was longer (P <0.05) for heifers that received oxytocin infusion. During the infusion period P4 concentrations were not different (P >0.05) between Group 2 and 3 but declined gradually from Day 20 in Group 2 despite the presence of high plasma oxytocin concentrations. Control heifers had 2 waves of follicular growth, with the second dominant follicle ovulating. Three of the 4 oxytocin-infused animals had an additional wave, with the third dominant follicle ovulating. Oxytocin infusion had no effect on size of the ovulating follicle (P >0.05) and the number of Class 1 follicles (3 to 5 mm, P >0.1). Differences in the number of Class 2 follicles (6 to 9 mm) among treatments on Days 15 to 22 after estrus were not detected (P >0.1) except on Days 23 to 26, when Group 2 had fewer follicles than Group 3 (P <0.05). The results show that continuous infusion of oxytocin during normal luteolysis delays luteal regression without inhibiting follicular development.     

Relationship between endogenous progesterone and follicular dynamics in lactating dairy cows with ovarian follicular cysts

Two experiments were conducted to examine circulating concentrations of progesterone (P4) in cows with ovarian follicular cysts (OFCs) and to relate differing levels of P4 to subsequent follicular events. In experiment 1, peripheral concentrations of P4 were determined in cows diagnosed with OFCs. Nonpregnant, lactating Holstein and Jersey cows (n = 32) were diagnosed as having OFCs by rectal palpation. Ovarian follicular cysts were then examined by transrectal ultrasonography to confirm the presence of OFCs (follicle diameter, >/=17 mm; absence of luteal tissue). At confirmation, a blood sample was collected for quantification of P4. The concentration of P4 at confirmation was classified as low (<0.1 ng/ml), intermediate (0.1-1.0 ng/ml), or high (1.0-2.0 ng/ml). More OFCs were associated with intermediate (66%) than with either low (28%) or high (6%) concentrations of P4. In experiment 2, the fate of follicles (diameter, >/=10 mm) that formed in the presence of an OFC was determined and related to circulating concentrations of P4 during follicular development. Follicles (n = 59) that formed in the presence of an OFC ovulated (n = 19), formed a cyst (n = 30), or underwent normal growth and regression (NGR; n = 10). Endogenous P4 in the 7-day period during follicular development was classified as low (if P4 dropped to <0.1 ng/ml for 1 day or longer), intermediate (if P4 averaged between 0.1 and 1.0 ng/ml and never dropped to <0.1 ng/ml), or high (if P4 averaged >1.0 ng/ml and never dropped to <0.1 ng/ml). In the presence of intermediate P4, 75% of observed follicles formed cysts, compared with 10% that ovulated and 15% that experienced NGR. In the presence of low P4, 53%, 41%, and 6% of follicles ovulated, formed a follicular cyst, or experienced NGR, respectively. Thus, an association between intermediate P4 and the formation of OFCs was established.     

Follicular and luteal expression of insulin-like growth factors I and II and the type 1 IGF receptor in the bovine ovary.

The localization of mRNAs for insulin-like growth factors I (IGF-I) and II (IGF-II) and the type 1 IGF receptor (IGF-1R) in bovine follicles and corpora lutea was determined using in situ hybridization on sectioned ovaries collected from nonpregnant, cyclic Holstein cows in either the follicular (n = 3) or luteal (n = 5) phases of the cycle. Concentrations were measured as absorbance units of individual regions or follicles from autoradiographs. There was intense follicular expression of mRNAs encoding IGF-II and IGF-1R. For mRNA encoding IGF-II, expression was significantly higher in smaller follicles (< 5 mm diameter, P < 0.01) and, in this size range, expression was significantly greater in healthy compared with atretic follicles (P < 0.01). For mRNA encoding IGF-1R, there was no effect of size but concentrations were again significantly greater in healthy compared with atretic follicles of < 5 mm. In medium (5-10 mm) and large (> 10 mm) follicles, there was no effect of health for expression of either IGF-II or IGF-1R. mRNA encoding IGF-II was found exclusively in the theca, whereas mRNA encoding IGF-1R was confined to the granulosa layer. IGF-I expression was not detectable in 83% of the 53 follicles examined. In the remaining 17% of follicles, expression was very low and was unrelated to size or state of atresia. mRNAs encoding IGF-I, -II and IGF-1R were all present in the corpus luteum, whereas only those for IGF-II and IGF-1R were found in ovarian stroma. These data indicate that the insulin-like growth factors play a significant role in follicular and luteal development in the bovine ovary. Locally produced IGF-II is probably an important regulator of follicular growth, whereas most of the IGF-I present in follicular fluid is likely to be derived from the circulation.     

Ultrasonic evaluation of the preovulatory follicle in the mare

Ultrasonically visible characteristics of preovulatory follicles in mares which single ovulated were studied daily for 79 preovulatory periods in 40 mares. The preovulatory follicle became the largest follicle in the ovary from which ovulation later occurred six or more days before ovulation in 65 of 79 (82%) preovulatory periods; the mean was day -7 (range, day -14 to day -4). The increase in mean diameter of the preovulatory follicle was linear (R(2)=99.5%) over day -7 (29.4 +/- 0.8 mm) to day -1 (45.2 +/- 0.5 mm; growth rate, 2.7 mm/day). Follicles which double-ovulated were smaller (P<0.05) on day -1 (36 +/- 1.6 mm; n=12 follicles). Preovulatory follicles exhibited a pronounced change in shape from a spherical to a conical or pear-shaped structure in 84% of the preovulatory periods. Remaining follicles retained a spherical shape. Scores representing thickness of the follicular wall increased (P<0.05) as the interval to ovulation decreased. There was no significant difference among days in mean gray-scale value of the follicular wall or in echogenicity of the follicular fluid. Although diameter and shape of the follicle and thickness of the follicular wall changed during the preovulatory period, no reliable ultrasonically visible predictor of impending ovulation was found.     

Follicular dynamics and superovulatory response in Holstein cows treated with FSH-P in different endocrine states

The effect of follicular and/or endocrine environments on superovulatory response was tested. Eighteen nonlactating Holstein cows were superovulated with 32 mg FSH-P given in decreasing doses at 12-h intervals plus two injections of prostaglandin F2-alpha (25 mg each) on the third day of treatment. Cows were assigned randomly to treatments: T1, superovulatory treatment initiated on estrous cycle Day 10.5; T2, CIDR (intravaginal device containing 1.9 g of progesterone) inserted from Days 3 to 9 and superovulation initiated on Day 6.5; T3, identical to T2 but Buserelin (GnRH agonist) was injected (8 mug, i.m.) on Day 3 at the time of CIDR insertion. Embryos were recovered on Day 7 after the superovulatory estrus. Cows were examined daily by ultrasonography and blood was collected for progesterone and estradiol determinations. Mean diameter of the dominant follicle (frequency of first-wave dominant follicle) at the beginning of FSH injections was 13.7 mm (4 6 ), 11.2 mm (6 6 ) and 8.7 mm (6 6 ) (P<0.01) for T1, T2 and T3, respectively. Following initiation of superovulation, follicles moved into larger follicle classes (Class I, <3 mm; Class II, 3 to 4 mm; Class III, 5 to 9 mm; Class IV >9 mm) earliest in T1 (P<0.01). Cumulative follicular diameter and plasma concentrations of estradiol at Day 4 of superovulation were higher (P<0.01) in T1 (200 mm, 82 pg/ml) compared with T2 (123 mm, 24 pg/ml) and T3 (130 mm, 18 pg/ml). Proportion of cows in estrus prior to 12 h vs 12 to 24 h differed (P<0.05) between groups (T1: 5 vs 1; T2: 2 vs 4; T3: 1 vs 5). Mean number of follicles on the last day of superovulation treatment, number of CL and number of embryos plus unfertilized ova recovered were 17.5, 12.2 and 13.3; 13.8, 10 and 8.2 (P<0.1) and 8.7, 4.5 and 2.3 (P<0.05) for T1, T2 and T3, respectively. The developmental stage of the dominant follicle was associated with not only the number of ovulations, but also the size and periestrous concentrations of plasma estradiol associated with the recruited follicles.     

A combined radioimmunoassay and immunocytochemical study of ovarian oxytocin production during the periovulatory period in the ewe

Corpora lutea and follicles were taken from the ovaries of 12 ewes at intervals from the start of luteolysis until 3 days after ovulation. RIA analysis of the tissue oxytocin content showed that luteal oxytocin concentrations declined during luteolysis to reach basal values at about the time of the next ovulation. Oxytocin was first measurable in the walls of 3 out of 6 preovulatory follicles during the LH surge, with a small increase in concentration to 26.1 +/- 6.6 pg/mg before ovulation, and a further increase in the young corpus luteum to concentrations exceeding 1 ng/mg 2-3 days later. After the LH surge, oxytocin was also found in the follicular fluid at a concentration of 3.4 +/- 0.3 ng/ml. Using immunocytochemical techniques, oxytocin and neurophysin were first detected in the follicle wall immediately before ovulation, and were localized in the granulosa cells. After ovulation the stained cells initially formed strands which appeared to break down to clusters and then to individual cells as the corpus luteum matured. The immunocytochemical picture also suggested that neurophysin immunoreactivity increased within a few hours of ovulation but that processing to oxytocin may be delayed. Measurements of circulating oxytocin concentrations revealed a pulsatile release pattern throughout the follicular phase with the height of the pulses decreasing from 25 +/- 5 pg/ml during luteolysis to a minimum of 11 +/- 2 pg/ml during the LH surge.     

Relationships between concentrations of ovarian steroids,insulin-like growth factor-1 and IGF-binding proteins during follicular development in the ewe

The objective of the present study was to determine how insulin-like growth factor-1 (IGF-1) and IGF-binding proteins (IGFBPs) are related to in vivo follicular development in the sheep. Oestrus was synchronised in 20 cyclic ewes and the animals were slaughtered 44 h after the second injection, just before the start of preovulatory luteinising hormone (LH) surge. Normal growing follicles were dissected from the ovaries of each ewe and their diameters measured. The follicular fluid was aspirated and assayed for oestradiol, testosterone and total IGF-1 content. The follicles were classified as either non-oestrogenic or oestrogenic if the follicular fluid content of oestradiol was less than 60 ng ml⁻¹ or more than 60 ng ml⁻¹, respectively. The mean diameter of oestrogenic follicles was significantly (P < 0.001) higher than that of non-oestrogenic ones, but testosterone concentrations did not differ. IGF-1 concentrations in oestrogenic follicles were significantly (P < 0.01) lower than those in non-oestrogenic ones, with a significant (P < 0.01) negative correlation between follicular oestradiol content and IGF-1 concentration. IGFBPs were identified by Western ligand blot analysis using 12% sodium dodecyl sulphate polyacrylamide gel electrophoresis under non-reducing conditions and band intensities on autoradiographs were quantified by scanning densitometry. The intensity of the doublet of IGFBP at 42–44 kDa was significantly (P < 0.02) higher in follicular fluid from oestrogenic follicles, whereas the intensity of the band at 35 kDa was significantly (P < 0.001) higher in follicular fluid from non-oestrogenic follicles. Some of the non-oestrogenic follicles also exhibited bands at 32.0-28.5 kDa with variable intensities, but such bands were totally absent in oestrogenic follicles. The results of this study suggest an involvement of both IGF-1 and IGFBPs in ovine follicular development.     

Follicular atresia and LH concentrations during the follicular phase of the estrous cycle in the goat (Capra hircus)

The objective of the study was to identify the effects of LH on the final follicle maturation process as well as the incidence of atresia during the follicular phase of the goat's estrous cycle. In Experiment 1, concentrations of the LH were measured during the follicular phase of a synchronized cycle in 8 Canary goats. In Experiment 2, the same animals were synchronized again. On each day of a 4-day experimental period (day 0=day of sponges withdrawal), 2 of the goats were bilaterally ovariectomized. Follicles with a diameter >1 mm were dissected out to obtain qualitative histological data in normal, early atretic I, early atretic II, advanced atretic I and advanced atretic II follicles. The total interval from sponge withdrawal to LH peak was 77.5±9.8 h. LH peak concentration averaged 44±5.3 ng/ml and the mean length of the preovulatory surge (amounts over 10 ng/ml) was 8.9±0.9 h. During the total follicular phase, there were more atretic follicles than normal follicles (58 vs. 30, P<0.05). The number of early and advanced atretic follicles was similar. There were more early atresia I than early atresia II follicles (23 vs. 6, P<0.05). On day 2, the number of advanced atretic follicles was greater than early atretic follicles (10 vs. 4, P<0.05). There was an increase in the number of early atretic follicles from day 2 to day 4 (4 vs. 9, P<0.05), which was consistent with the effects of the preovulatory LH surge.     

Biochemical and hormonal composition of follicular cysts in water buffalo (Bubalus bubalis)

The objective of this study was to examine the follicular fluid biochemical and hormonal changes associated with ovarian follicular cysts in buffalo. Follicular fluid was aspirated from eight cysts and eight preovulatory follicles, and subjected to biochemical and hormonal analyses. Cysts were characterized by a greater (P<0.01) concentration of nitric oxide and lesser concentrations of ascorbic acid and glucose than that of preovulatory follicles (P<0.01 and P<0.05, respectively). Furthermore, follicular cysts had greater concentrations of progesterone (P<0.001), triiodothyronine (T(3)) and cortisol (P<0.05) and lesser concentrations of insulin (P<0.001) than preovulatory follicles. The results indicate follicular cysts in buffalo have an altered biochemical and hormonal composition. The alterations include increases in nitric oxide, progesterone, cortisol and T(3) concentrations with a concurrent reduction in ascorbic acid, insulin and glucose concentrations. The study suggests that greater progesterone concentrations possibly inhibit the onset of LH surge resulting in formation of follicular cysts in buffalo. In addition, it implies the plausible role of intra-ovarian regulators such as nitric oxide, ascorbic acid and insulin in development of the condition.     

Interleukin-1 alpha increases thecal progesterone production of preovulatory follicles in cyclic hamsters

Adult cyclic hamsters were used to study the effects of interleukin-1 alpha (IL-1 alpha) on in vitro steroidogenesis in preovulatory follicles. IL-1 alpha increased progesterone secretion by preovulatory follicles during a 24-h incubation in RPMI-1640 medium containing hCG (100 mIU/ml) (progesterone levels: 17.5 +/- 2.2 vs. 10.6 +/- 1.9 ng/follicle/ml, p less than 0.05). IL-1 alpha alone had no effect on follicular steroidogenesis. The source of increased progesterone secretion was the thecae (9.8 +/- 1.0 vs. 5.8 +/- 0.4 ng/2 thecae/ml, p less than 0.01) and not the granulosa cells (6.6 +/- 0.2 vs. 6.8 +/- 0.5 ng/20,000 viable granulosa cells/ml). IL-1 alpha also stimulated production of testosterone in thecae of preovulatory follicles. The follicular progesterone increase was dependent on the time of incubation and dose of IL-1 alpha. IL-1 alpha at 5-50 U/ml maximally stimulated progesterone production in the preovulatory follicles, and no significant effect of IL-1 alpha was observed until the 12th hour of incubation. The effects of IL-1 alpha on in vitro steroidogenesis in preantral follicles, experimentally induced atretic preovulatory follicles, and newly formed corpora lutea were examined. IL-1 alpha in the presence of hCG also significantly increased progesterone secretion by atretic preovulatory follicles. In the incubation of preantral follicles or newly formed corpora lutea, however, IL-1 alpha did not alter steroidogenesis. These results indicate that IL-1 alpha stimulates progesterone secretion by preovulatory follicles and that the target tissue for this effect is the thecal layer.(ABSTRACT TRUNCATED AT 250 WORDS)     

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.     

Diagnosis of luteal and follicular ovarian cysts in dairy cows by sector scan ultrasonography

Sixty-seven ultrasonograms of ovarian cysts (cysts) from 35 cows were used to evaluate sector scan ultrasonography as a means for differentiating luteal cysts from follicular cysts. Initial diagnosis of cysts was made by ovarian palpation per rectum during weekly herd visits. The ovaries of each cow were then examined by ultrasonography. Ultrasonograms of cysts > 25 mm in diameter were diagnosed as either luteinized or follicular cysts and were recorded on video tape for evaluation by a second clinician. Serum progesterone concentrations at the time of examination were determined by radioimmunoassay and were used to classify luteal (> 0.5 ng/ml) or follicular (相似文献   

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.