Concentrations of steroids in the utero-ovarian vein blood,serially collected from the two sides of individual baboons,during the follicullar phase

The purpose of this study was to determine and compare the follicular phase steroid hormone secretion into the utero-ovarian vein by the ovary with a dominant follicle and the contralateral ovary in the same baboon. Serial utero-ovarian vein blood from both sides was collected in 25 baboons by the use of a laparoscope on alternate days, starting on day 1 or 3 of the cycle and continuing through 2 to 3 days post-ovulation. Approximately 3–4 days before the day of expected ovulation, samples were collected at 8-hr intervals. Steroids estradiol (E₂) and progesterone (P) were measured in all utero-ovarian vein plasma by radioimmunoassay. In the peripheral plasma, E₂, P, LH, and FSH measurements were carried out. Concentrations of steroids were significantly higher on the side of the ovulating ovary by day 5 before ovulation. Individual plots however, indicated that some baboons may establish the dominant side as early as day 11 before ovulation. The preovulatory gonadotropins had a differential effect on the two ovaries. For example, E₂ values on the ovulatory side ovary declined after increases in LH/FSH, whereas on the contralateral side these values had increased. Both sides showed increases in the level of P with the increases in LH. The mean interval from E₂ peak to LH peak was 24 hrs and LH peak to ovulation was 24 hrs.     

Synthesis of prostaglandin by reproductive tissue of the male house cricket, acheta domesticus

Whole reproductive tracts of male house crickets, Acheta domesticus, incubated with arachidonic acid and glutathione yielded an average of 17 ug of prostaglandin (PG) E₂/g of tissue. Biosynthesized PGE₂ was identified by mass spectroscopy. A compound with thin layer and gas chromatographic properties identical to PGE₁ was isolated from spermatophores of house crickets. This appears to be the first report of the occurrence of a PG in an insect species. The possible role of PG in insect reproduction is discussed.     

Fertility of Deep Frozen Boar Spermatozoa at Various Intervals between Insemination and Induced Ovulation

This study was performed to investigate the influence of boars and thawing diluents on the fertilizing capacity of deep frozen spermatozoa at various intervals between inseminations and ovulation. Forty-four Swedish crossbred gilts were inseminated following injection of HCG late in the prooestrus. Inseminations were performed 22, 28, 34 and 38 hrs. after injection of HCG. Ovulation was expected to occur 40 hrs. after injection of HCG. Two boars, previously tested for fertility with frozen semen, supplied the spermatozoa. Roar seminal plasma and OLEP were utilized as thawing diluents. The gilts were slaughtered 32–48 hrs. after estimated ovulation. The genital tracts were removed immediately after stunning and bleeding and the numbers of recent ovulations, recovered ova and fertilized ova were recorded. Additionally recovered ova were classified according to estimated numbers of spermatozoa attached to the zona pellucida. Similar fertilization rates were obtained when inseminations were performed 2 and 6 hrs. before estimated ovulation. A clear decline in fertility appeared when inseminations were performed earlier than 6 hrs. before expected ovulation. The results were influenced by the boars as well as by the thawing diluents. Seminal plasma yielded a higher fertilization rate than OLEP in inseminations performed 2 hrs. before estimated ovulation. The boars yielded similar fertility in inseminations performed 2 hrs. before estimated ovulation. With increasing intervals between inseminations and ovulation the difference between the boars increased. The single gilt in which fertilized ova were found after insemination 18 hrs. before ovulation was inseminated with spermatozoa from the superior boar, thawed in seminal plasma. The present results indicate that spermatozoa with low resistance to freezing-thawing have a short fertile life in the female genital tract after insemination.     

Estrus, ovulation and conception following timed insemination in Romney ewes treated with progestagen and gonadotropins.

The estrus — ovulation time relationships was examined in Romney ewes treated with progestogen (intravaginal sponge) and gonadotropins (PMSG + HCG or PMSG alone) prior to (January) and during (April) the breeding season. The conception rate of ewes inseminated at predetermined times after treatment was also investigated.Ewes exhibited estrus sooner after sponge removal in April than in January (34.9 v 38.9 hrs, P < 0.001). The interval from sponge removal to ovulation was also shorter in April than in January (56.3 – 62.1 hrs, P < 0.01). There were no significant differences between treatments or season on the mean interval from estrus to ovulation. Types of gonadotropin treatment had no effect on the estrus — ovulation time relationships. There were no significant effects of season, hormone treatment or time of insemination on lambing rate.     

Prostaglandins and functional specificity of central neurons of Helix pomatia

The effect of extra- and intracellularly injected prostaglandins (PG) E₂ and F₂ on electrical activity and responses to acetylcholine and serotonin were studied in experiments on identified neurons ofHelix pomatia. As a rule prostaglandins modified the typical electrical activity of the identified neurons: PG E₂ enhanced and PG F₂ depressed it. These substances mainly weakened responses of the nerve cells to mediators: PG E₂ caused a greater change in the response to serotonin and PG F₂ in the response to acetylcholine. Effects of the prostaglandins when injected extracellularly and intracellularly differed. The possible molecular-cellular mechanisms of the central action of prostaglandins are discussed in the light of their functional connections with other universal regulators of cellular metabolism and with proteins specific for nerve tissues.P. K. Anokhin Research Institute of Normal Physiology, Academy of Medical Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 13, No. 6, pp. 580–588, November–December, 1981.     

Effects of indomethacin and prostaglandins on ovulation of goldfish

A technique is described whereby elevated temperature and HCG injection yield a high percentage of ovulation in gravid goldfish. Indomethacin (10 μg/g; i.p. injection) completely inhibits ovulation if given within 6 hours following HCG (4 IU/g); the unovulated oocytes develop rapidly into corpora atretica. PGE₁, PGE₂, and PGF_2α (5 μg/g; i.p. injection) induce ovulation in fish treated with indomethacin and HCG; PGE₂ was most effective when given 11 hours after HCG. The results suggest that the ovulatory action of prostaglandins following HCG stimulation is at the level of the ovary and that it is restricted to a period between 7 and 12 hours after the gonadotropin injection.     

Prostaglandins and oxytocin: Their effects on uterine smooth muscle

A subcellular fraction was isolated from uteri of non-pregnant and pregnant cows. ATP-dependent calcium binding was shown to take place in this fraction. This calcium binding was inhibited in a dose related fashion when increasing amounts of prostaglandin (PG) E₂ or F_2α were added to the in vitro experimental medium. The physiologically inactive PGF_1β had no inhibitory effect. Oxytocin caused inhibition of calcium binding in preparations from both pregnant and non-pregnant cows. The response to PGE₂ and PGF_2α was somewhat greater in preparations from pregnant uteri than from non-pregnant uteri. The response to oxytocin was very much greater in pregnant uteri. Because of the high PG sensitivity of calcium binding in preparations from the non-pregnant uterus, it is concluded that the PGs may be the more suitable agent in the control of reproduction.     

Stimulation of the estrogen synthesizing system of the immature rat ovary by exogenous and endogenous gonadotropins

Immature rat ovaries increase their secretion of estradiol (E₂) when stimulated by gonadotropins but only after a lag period of several hours. Once established, estrogen secretion can be maintained, or increased, by the continued presence of gonadotropin. A combination of ovine FSH+LH given at 2 hr intervals stimulated the estrogen synthesizing system ($\text{ESS}$) of the ovary and serum E₂ showed a pronounced rise between 16 and 20 hrs after the initial injection. When given every 2 hrs for 5 doses (0–8 hrs) serum E₂ was undetectable. However, it was increased if 20 IU PMS was injected at the time of the last dose of FSH+ LH. Endogenous FSH&LH, increased by hourly injections of LH-releasing hormone for a period of 8 hrs, stimulated the $\text{ESS}$; serum E₂ increased at the expected time when this treatment was followed by an injection of PMS.Anti-PMS antiserum given 12 hrs after PMS, prevented the expected rise in serum E₂ at 24 hrs. However, FSH, LH or a combination of the two given every 2 hrs beginning at the time of the anti-PMS produced an increase in E₂ secretion; the combination was more effective than either hormone alone.These results are consistent with the interpretation that a combined FSH-LH action is responsible for induction of the $\text{ESS}$ in the immature rat ovary. The combination of hormones is also very effective in maintaining estrogen secretion but some function appears possible with FSH or LH alone.     

The synthesis of Δ2-prostaglandins

The effect of prostaglandin F_2α on ovulation and fertilization was studied in rabbits. The number of ovulation was not affected by subcutaneous injection of PGF_2α but the recovery of ova was significantly decreased when PGF_2α was given either at 12 or 16 h after HCG injection and autopsied 24 h latter. The results suggest that exogenous PGF_2α accelerates ovum transport and expels the eggs prematurely from the female tract and does not impair ovulation or the fertilization processes when given to rabbit at 1 mg/kg B.W.     

Temporal relationship of hormonal peaks to ovulation and sex skin deturgescence in the baboon

The purpose of this study was to determine the temporal relationship of peak levels of oestradiol (E₂), LH and progesterone to ovulation and sex skin deturgescence in the baboon. A total of 55 baboons were used in these studies. Hormonal levels were measured in 47 cycles and ovulation was documented by laparoscopic examination in 26 of these cycles. A temporal relationship of ovulation to sex skin deturgescence was established in 57 cycles. The mean interval from E₂ peak to ovulation was 41.4±2.3 hr, the interval from E₂ peak to LH peak was 17.3±2.0 hr and that from LH peak to ovulation was 18.4±2.0 hr. Eleven baboons showed an LH peak on the day of the E₂ peak. The number of days to the first sign of sex skin deturgescence after ovulation was 2.07±0.14 days (range 0–5 days). Nineteen cycles (33.3%) showed sex skin deturgescence 1 day after ovulation, another 19 cycles (33.3%) showed sex skin deturgescence 2 days after ovulation, and only 13 cycles (22.8%) showed sex skin deturgescence 3 days after ovulation. Sex skin deturgescence was observed on day 0, 4 or 5 postovulation in only two baboons.     

Follicle stimulating hormone and prolactin release induced by prostaglandins in rat

Ten to 60 minutes following a single i.v. injection of PGE₂ (500 μg/rat) into male rats of 30 to 35 days of age FSH concentration in the serum was raised significantly. The rise in FSH was maintained from 10 to 60 minutes after treatment, then at 90 minutes FSH had declined and was not significantly different from that of the control before treatment. Prostaglandin E₁, E₂ or F_2α (670μg/rat) significantly increased the serum prolactin level 10 to 60 minutes after a single i.v. injection in spayed rats primed with estrogen and progesterone. And, rats primed with estrogen and progesterone. And, increases in prolactin in the serum were observed with as little as 2μg of PGE₁ or E₂, and 20μg of PGF_2α. Twenty μg of PGE₂, and 200μg of PGE₁ or F_2α gave the maximum stimulation. These results indicate that release of pituitary hormones is affected by prostaglandins.Prostaglandins (PGs) are widely distributed in mammalian tissues, and they have been reported to have an almost equally wide variety of endocrine and metabolic effects. It was recently postulated that PGs may be involved in the process of ovulation because ovulation was blocked by inhibitors of PG synthesis (1–5).     

Estradiol and tamoxifen stimulation of lapine articular chondrocyte prostaglandin synthesis

The effect of estradiol and tamoxifen on prostaglandin (PG) synthesis by rabbit articular chondrocytes in secondary monolayer cultures was investigated. Radioimmunoassay for PGE₂, PGF_2α, 6-oxo-PGF_1α and thromboxane B₂ was performed on media from cultures containing estradiol and tamoxifen (10⁻¹²M-10⁻⁷-M). Radiometric thin-layer chromatography was also carried out. The time course of estradiol/tamoxifen effect on chondrocyte PG synthesis was evaluated and its relationship to cell density in culture examined. Estradiol stimulated the synthesis of PGs by chondrocytes. Stimulation was noted at picomolar concentrations of estradiol without further stimulation at markedly higher concentrations. In time studies, after a lag, the effect of estradiol was present fully by 5 hrs, remained steady for 24 hrs and then declined by 48 hrs. Estradiol stimulation of PG synthesis was dependent upon chondrocyte culture plating density. Tamoxifen stimulated chondrocyte PG synthesis to relatively lower levels than estradiol. The characteristics of estradiol/tamoxifen stimulation of chondrocyte PG synthesis suggest a mechanism involving estradiol cytoplasmic receptors.     

Effect of prostaglandin F2α on ovulation and fertilization in rabbit

The effect of prostaglandin F_2α on ovulation and fertilization was studied in rabbits. The number of ovulation was not affected by subcutaneous injection of PGF_2α but the recovery of ova was significantly decreased when PGF_2α was given either at 12 or 16 h after HCG injection and autopsied 24 h latter. The results suggest that exogenous PGF_2α accelerates ovum transport and expels the eggs prematurely from the female tract and does not impair ovulation or the fertilization processes when given to rabbit at 1 mg/kg B.W.     

Reproduction in the freshwater gastropod,Helisoma: involvement of prostaglandin in egg production

Summary

The introduction of nanogram quantities of prostaglandin E₂ (PGE₂) into the female genital opening of mated animals was found to increase both the number of egg masses produced and the number of eggs per mass. The intrahaemocoelic administration of a thousand-fold higher concentration of PGE₂ was without effect, suggesting an indirect role of prostaglandin(s) in the regulation of egg production.

Prostaglandin (PG) synthetase activity in both the bursa copulatrix and ovotestis varied with the reproductive status. High PG synthetase activity was present in virgin animals, and lower activity was found in mated animals.

Prostaglandins produced by the bursa copulatrix are proposed here to be involved in the production of a matedness factor, which acts upon the brain to initiate or modulate egg production. PG produced by the ovotestis may be involved in ovulation. A model is proposed for the involvement of PG in the regulation of reproduction in Helisoma.     

Study of the PG E2 synthetase activity of different regions of dog and rabbit hearts

Prostaglandin E₂ synthetase activity of the microsomal fraction from different parts of dog and rabbit heart was tested with 3H-arachidonic acid as substrate. PG E₂ synthesized was separated and purified by TLC and determined by the radiometric method or by bioassay. In the experimental conditions adopted, it was shown that the heart tissue is endowed with an enzyme system capable of synthesizing PG E₂ but this PG E₂ synthetase activity is not uniformly distributed in the different parts of the heart. It is highest in the right atrium and the activity of the atria is higher than that of the ventricles. It is species-dependent. The closely similar repartition of PG E₂ synthetase activity and sympathetic nerve endings strongly suggests that PG E₂ modulates adrenergic neurotransmission in the heart.     

Estradiol-17β and 2-hydroxyestradiol-17β-induced differential production of prostaglandins by cells dispersed from human intrauterine tissues at parturition

Prostaglandin (PGE, 6-keto PGF_1α) output by cells dispersed from human amnion and decidua in the presence of increasing levels (0–5000 ng/ml) of estradiol-17β (E₂) or 2-hydroxyestradiol-17β (2-OH E₂) was studied in relation to parturition. Tissues were obtained from women at term either before (CS) or after (SL) spontaneous labor and vaginal delivery. In the absence of estrogens, the output of both PGs from amnion increased significantly with labor. No significant increase in decidua PG output occurred with labor. Neither estrogen influenced CS amnion PG output. However, both E₂ and 2-OH E₂ stimulated SL amnion PGE output (2-OH E₂>E₂) while having no affect on 6-keto PGF_1α output. Only the highest dose of 2-OH E₂ stimulated PGE output in CS decidua, but both estrogens significantly inhibited 6-keto PGF_1α output in this tissue. In SL decidua only 2-OH E₂ significantly stimulated PGE, and neither estrogen affected 6-keto PGF_1α output. These results might suggest that estrogens modulate PG biosynthesis at the level of endoperoxide to primary PG conversion.     

Reproductive hormone secretions in pony mares subsequent to ovulation control during late winter

Beginning in December, pony mares were placed under a schedule of increasing light. Starting in February, onset of estrus was checked by daily teasing with a stallion. Mares were randomly assigned to one of three treatments (6 mares per group) administered in March. Treatments were: Group I — 75 mg progesterone injected intramuscularly every day for 10 days in combination with a 1.25 mg injection of PGF₂α on day 7 of progesterone treatment and a 2,000 IU injection of HCG on day 2 of estrus; Group II — a norgestomet ear implant inserted for 10 days in combination with 1.25 mg PGF₂α given 7 days after insertion and 2,000 IU HCG administered on day 2 of estrus; and Group III — same as II except that 2 mg of GnRH rather than HCG were administered on day 2 of estrus. Blood plasma for radioimmunoassay of progesterone, LH and estradiol was collected from the first day of treatment until 14 days after the end of estrus. Also in March, 6 mares were bled daily from the first day of estrus until subsequent estrus or day 21 (control estrus). Although estrus was detected in all mares, 14 of 18 mares ovulated subsequent to treatments and four of the six control estrus mares ovulated. Only among HCG treated mares was the ovulation rate higher (P < .05) than it was in the control estrus group. The interval from last progesterone injection or norgestomet implant removal to estrus did not differ between treatment groups. Concentrations of estradiol and LH were increased for several days around the time of ovulation and tended to be positively correlated with each other. In the mares that did not ovulate, concentrations of LH and estradiol appeared to be lower than in mares that ovulated. In summary, progestins in combination with PGF₂α and increasing light will synchronize estrus in mares during late winter and HCG will hasten ovulation in some mares.     

Induction of ovulation with gonadotropin-releasing hormone during proestrus in cattle: influence on subsequent follicular growth and luteal function

Induction of ovulation by administration of gonadotropin-releasing hormone (GnRH) is commonly practiced in cattle to treat repeat breeders or cows exhibiting long estrous periods. This treatment may, however, disturb normal reproductive functions if timing is incorrect. The objective of the present study was to investigate the effect of exogenous GnRH on estradiol secretion of the ovulatory follicle, occurrence of ovulation, development and function of the corpus luteum (CL) and growth of a dominant follicle after ovulation in the bovine, when GnRH treatment was given before the expected physiological LH-surge. Luteolysis was induced by cloprostenol (PG) in three cows and six heifers. Every animal was assigned once to each of the following treatment or control manipulations, receiving either a single dose (0.1 mg) of GnRH (gonadorelin) at (1) 24 h (T1), (2) 48 h (T2), or (3) 72 h (T3) after PG, or (4) no gonadorelin (control manipulation, C). Ovaries were scanned by ultrasound and blood samples were collected for progesterone (P₄) and estradiol-17β (E-17β) determination. Growth curves of dominant follicles between treatment 1 and the control differed significantly (P<0.01). One day after ovulation, the diameter of the dominant follicle was almost 1 mm larger in T1. This difference remained almost unchanged during the entire follow-up period. The recruitment of a new follicular wave after ovulation seemed to occur earlier. Development of CL and levels and profiles of P₄-production remained unaffected. When GnRH was given 1 day after PG injection, two animals showed significantly different development of CL (P<0.05) and of P₄-production (both in concentrations [P<0.05] and profile [P<0.01]). After normal ovulation and CL development, luteolysis took place on days 5 or 6 after ovulation, and animals ovulated on days 9 and 10. It is suggested that early induction of ovulation with GnRH can cause shortened luteal function in cattle and, ultimately, reduced fertility.     

Studies on themodulation of immunoglobulin production by prostaglandins

The present study investigated the effect of prostaglandins (PG) on the in vitro production of polyclonal IgG and IgM by pokeweed mitogen- stimulated normal human peripheral mononuclear cells. Concentrations of PGE₁ and PGA₁ in excess of 10⁻⁶M were suppressive. PGE₂ and PGs of the F series were less effective and significant suppression was seen in concentrations greater than 10⁻³M. Indomethacin added to cell cultures did not enhance Ig production. This discrepancy between physiologic PG concentrations and the very large pharmacologic concentration necessary to suppress Ig synthesis in vitro makes the physiologic role of PG in the modulation of Ig synthesis questionable.     

Role of prostaglandin F2alpha in ovulation.

Using radioimmunoassay procedures, the levels of plasma, uterine and ovarian prostaglandin (PG) F2alpha, and those of plasma estradiol and progesterone were measured in intact, hysterectomized or ovariectomized immature female rats pretreated with PMS and subsequent HCG. Occurrence of ovulation was confirmed at 8 hours after the HCG administration not only in the intact rats but also in the hysterectomzied rats. The levels of plasma estradiol and progesterone, and of uterine and ovarian PGF2alpha rose with the PMS injection alone, but they did not reach the peaks before the HCG administration. Both plasma estradiol and uterine PGF2alpha showed a peak at 2 hours after the HCG injection. These peaks were antecedent 2 or 6 hours before the peaks of ovarian and plasma PGF2alpha, respectively. However, such increase of uterine PGF2alpha does not seem to be indispensable for ovulation, because ovulation could occur in the hysterectomized rats. The levels of ovarian PGF2alpha showed a high plateau from 4 to 8 hours after the HCG injection, and then rapidly decreased after ovulation. The levels of plasma PGF2alpha peaked not only in the intact rats but also in the hysterectomized rats at 8 hours after the HCG treatment. But in the ovariectomized rats, this plasma PGF2alpha peak at 8 hours disappeared and there was no statistical change of plasma PGF2alpha throughout the PMS-HCG treatment. Plasma progesterone gradually increased and reached the maximum at 10 hours after the HCG injection. These results conclude that the main source of increased plasma PGF2alpha during the ovulatory process induced with the PMS-HCG treatment is the ovary, and it is strongly suggested that a rapid increase of PGF2alpha in the ovary may play some important role(s) in the ovulatory process.