scholarly journals Delayed effect of low progesterone concentrations on bovine uterine PGF(2alpha) secretion in the subsequent oestrous cycle

Reproduction ◽  
2001 ◽  
pp. 643-648 ◽  
Author(s):  
A Shaham-Albalancy ◽  
Y Folman ◽  
M Kaim ◽  
M Rosenberg ◽  
D Wolfenson
Keyword(s):  
Corpus Luteum ◽  
Luteal Phase ◽  
Oestrous Cycle ◽  
Delayed Effect ◽  
Plasma Progesterone ◽  
Progesterone Secretion ◽  
Progesterone Treatment ◽  
Late Luteal Phase ◽  
Subsequent Cycle ◽  
Concentration Curves

Low progesterone concentrations during the bovine oestrous cycle induce enhanced responsiveness to oxytocin challenge late in the luteal phase of the same cycle. The delayed effect of low progesterone concentrations during one oestrous cycle on uterine PGF(2alpha) secretion after oxytocin challenge on day 15 or 16 of the subsequent cycle was studied by measuring the concentrations of the major PGF(2alpha) metabolite (13,14-dihydro-15-keto PGF(2alpha); PGFM) in plasma. Two experiments were conducted, differing in the type of progesterone treatment and in the shape of the low progesterone concentration curves. In Expt 1, progesterone supplementation with intravaginal progesterone inserts, with or without an active corpus luteum, was used to obtain high, or low and constant plasma progesterone concentrations, respectively. In Expt 2, untreated cows, representing high progesterone treatment, were compared with cows that had low but increasing plasma progesterone concentrations that were achieved by manipulating endogenous progesterone secretion of the corpus luteum. Neither experiment revealed any differences in plasma progesterone concentrations between the high and low progesterone groups in the subsequent oestrous cycle. In both experiments, both groups had similar basal concentrations of PGFM on day 15 (Expt 1) or 16 (Expt 2) of the subsequent oestrous cycle, 18 days after progesterone treatments had ended. In both experiments, the increases in PGFM concentrations in the low progesterone groups after an oxytocin challenge were markedly higher than in the high progesterone groups. These results indicate that low progesterone concentrations during an oestrous cycle have a delayed stimulatory effect on uterine responsiveness to oxytocin during the late luteal phase of the subsequent cycle. This resulting increase in PGF(2alpha) secretion may interfere with luteal maintenance during the early stages of pregnancy.

EFFECT OF POST-OVULATORY ADMINISTERED OESTROGENS ON CORPUS LUTEUM FUNCTION

1975 ◽  
Vol 79 (2) ◽  
pp. 329-336 ◽  
Author(s):  
F. Lehmann ◽  
I. Just-Nastansky ◽  
B. Behrendt ◽  
P.-J. Czygan ◽  
G. Bettendorf
Keyword(s):  
Corpus Luteum ◽  
Luteal Phase ◽  
Plasma Samples ◽  
Plasma Progesterone ◽  
Lh Surge ◽  
The Third ◽  
Late Luteal Phase ◽  
Fourth Cycle ◽  
Normal Menstrual Cycle ◽  
The Mean

ABSTRACT The effect of orally given diethylstilboestroldiphosphate (DES) and 17α-ethinyl-oestradiol-3-methylether (EEM) on plasma progesterone levels was studied. Both compounds were administered for 5 days to 5 women in daily doses of 60 mg (DES) and 30 mg (EEM). The fully informed volunteers were found to have a normal menstrual cycle before the study. The mean corpus luteum phase (corpus luteum phase = days between LH surge and onset of menstruation) of all control cycles lasted 12.8 days. Daily plasma samples were collected for radioimmunoassay (RIA) of progesterone, immunoreactive oestrogens and LH. After a control cycle the first treatment was carried out with DES. The third and the fifth cycle were control cycles again. The EEM-treatment was done in the fourth cycle. Although the effect of the two compounds was different, a dependence of the age of the corpus luteum (CL) could be demonstrated for both. DES-treatment lowered plasma progesterone levels during administration. This effect was only demonstrable if the treatment was begun on the day of the LH-peak. The length of the CL-phase remained unaltered. EEM-treatment if started on the day of the LH surge, suppressed corpus luteum function in the late luteal phase. If the treatment was started later, the effect was less pronounced. The administration of both compounds did not shorten the time between ovulation and the next bleeding. After DES-treatment this interval was not altered. After EEM-treatment the subsequent bleeding was even delayed depending on slowly decreasing levels of plasma oestrogens.

EFFECT OF LOCAL OR PARENTERAL APPLICATION OF ACTH OR HYDROCORTISONE ON BOVINE CORPUS LUTEUM FUNCTION

1977 ◽  
Vol 85 (1) ◽  
pp. 158-168 ◽  
Author(s):  
W. C. Wagner ◽  
R. E. Strohbehn ◽  
P. A. Larson
Keyword(s):  
Corpus Luteum ◽  
Residual Effect ◽  
Oestrous Cycle ◽  
Perfusion Study ◽  
Local Effects ◽  
Plasma Progesterone ◽  
Progesterone Secretion ◽  
Bovine Corpus Luteum ◽  
And Control ◽  
Infusion Period

ABSTRACT Studies were conducted to determine the effect on corpus luteum (CL) function of ACTH or hydrocortisone administered by ovarian perfusion on day 11 of the oestrous cycle or by carotid infusion on days 2–9 of the oestrous cycle. No significant local effects on CL function were observed during the ovarian perfusion study. Continuous carotid infusion of ACTH or hydrocortisone on days 2–9 resulted in a decreased slope of the progesterone increase during the infusion period. However, no difference in plasma progesterone level on days 9–11 between control and treated cycles was detected and there was no difference between treated and control CL at day 11 with regard to CL weight or progesterone content. The data suggest a possible direct effect of hydrocortisone on either the hypothalamus or pituitary which results in decreased progesterone secretion but not CL development. No residual effect was observed.

SUPPRESSION OF LUTEAL PROGESTERONE SECRETION IN THE STUMPTAILED MACAQUE BY AN ANTAGONIST ANALOGUE OF LUTEINIZING HORMONE RELEASING HORMONE.

1985 ◽  
Vol 104 (2) ◽  
pp. R1-R4 ◽  
Author(s):  
H.M. Fraser ◽  
D.T. Baird ◽  
G.I. McRae ◽  
J.J. Nestor ◽  
B.H. Vickery
Keyword(s):  
Corpus Luteum ◽  
Luteal Phase ◽  
Releasing Hormone ◽  
Expected Time ◽  
Progesterone Secretion ◽  
Serum Lh ◽  
Late Luteal Phase ◽  
Serum Hormone ◽  
Lhrh Antagonist ◽  
Lh Releasing Hormone

ABSTRACT The dependence of progesterone secretion from the corpus luteum on pituitary gonadotrophin was examined in the cyclic stumptailed macaque by studying the effects of a single s.c. injection of a potent LH releasing hormone (LHRH) antagonist, [N–Ac–D–Nal(2)1, D–pCl–phe2, D–Trp3, D–hArg(Et2)6, D–Ala10] LHRH. A dose of 100 μg antagonist/kg administered on days 9/10 of the luteal phase in three monkeys caused a marked temporary suppression of serum concentrations of LH and progesterone during the following 32 h but levels still remained detectable and after 2 days serum hormone concentrations returned to the normal luteal-phase range. When the same animals were treated with 300 μg antagonist/kg at the same period during a subsequent cycle, serum LH levels were close to or at the limits of detection of the bioassay for the next 48 h and progesterone concentrations declined steadily, reaching non-detectable values by 48 h. In two monkeys the progesterone levels remained suppressed and they menstruated prematurely; in the third monkey the progesterone concentration rose to just above baseline and menstruation occurred at the expected time. Administration of 300μg antagonist/ kg on days 6/7 of the luteal phase in a further three monkeys also suppressed progesterone concentrations but not to baseline values, and after 2 days a normal progesterone profile was regained. These results suggest that the corpus luteum of the stumptailed macaque is largely dependent on pituitary gonadotrophin support during the mid to late luteal phase.

PROGESTERONE IN THE HUMAN PERIPHERAL BLOOD IN THE PREOVULATORY PERIOD OF THE MENSTRUAL CYCLE

1967 ◽  
Vol 55 (1) ◽  
pp. 91-96 ◽  
Author(s):  
Benno Runnebaum ◽  
Josef Zander
Keyword(s):  
Menstrual Cycle ◽  
Corpus Luteum ◽  
Peripheral Blood ◽  
Human Peripheral Blood ◽  
Progesterone Concentration ◽  
Plasma Progesterone ◽  
Progesterone Secretion ◽  
Graafian Follicle ◽  
The Mean ◽  
Mean Concentration

ABSTRACT Progesterone was determined and identified in human peripheral blood during the preovulatory period of the menstrual cycle, by combined isotope derivative and recrystallization analysis. The mean concentration of progesterone in 1.095 ml of plasma obtained 9 days before ovulation was 0.084 μg/100 ml. However, the mean concentration of progesterone in 1.122 ml of plasma obtained 4 days before ovulation was 0.279 μg/100 ml. These data demonstrate a source of progesterone secretion other than the corpus luteum. The higher plasma-progesterone concentration 4 days before ovulation may indicate progesterone secretion of the ripening Graafian follicle of the ovary.

scholarly journals Hubungan Kadar Progesteron pada Fase Awal Luteal dengan Kematian Embrio pada Sapi Aceh

2019 ◽  
Vol 19 (2) ◽  
pp. 107-112
Author(s):  
Budianto Panjaitan ◽  
Citra Chyntia Helwana ◽  
Nellita Meutia ◽  
Yusmadi Yusmadi ◽  
Tongku Nizwan Siregar ◽  
...  
Keyword(s):  
Body Weight ◽  
Corpus Luteum ◽  
Adult Female ◽  
Artificial Insemination ◽  
Luteal Phase ◽  
Embryonic Mortality ◽  
Progesterone Concentration ◽  
Double Injection ◽  
Progesterone Secretion ◽  
Embryonic Death

ABSTRAK.  Progesteron merupakan hormon yang berperan penting dalam proses pemeliharaan kebuntingan dan dihasilkan oleh corpus luteum. Penelitian ini bertujuan mengetahui hubungan antara kadar hormon progesteron pada fase awal luteal dengan kematian embrio pada sapi Aceh. Dalam penelitian ini digunakan empat ekor sapi betina dewasa berumur 3-5 tahun, bobot badan 150-250 kg, sehat secara klinis, dan memiliki reproduksi normal. Sapi disinkronisasi menggunakan 5 ml prostaglandin F2 alfa (PGF2α) dengan pola penyuntikan ganda berinterval 11 hari. Koleksi sampel darah untuk pengukuran konsentrasi progesteron dilakukan pada hari ke-5, 6, dan 7 pasca inseminasi. Pengukuran konsentrasi progesteron dilakukan menggunakan metode enzymelinked-immunoassay (ELISA), pemeriksaan kebuntingan dan kematian embrio menggunakan metode transrektal ultrasonografi pada hari ke-25 pasca inseminasi. Pemeriksaan diulang setiap 10 hari sampai hari ke-55 pasca inseminasi. Puncak sekresi progesteron pada sapi bunting dengan embrio yang bertahan hidup terdapat pada hari ke-7 (2,082 ng/ml), pada sapi Late Embryonic Mortality (LEM) di hari ke-5 (8,209 ng/ml) dan pada sapi tidak bunting di hari ke-7 (3,051±1,157 ng/ml). Sekresi progesteron sapi LEM pada hari ke-5 sampai dengan ke-7 cenderung menurun sedangkan pada sapi yang bertahan hidup cenderung meningkat.  (Correlation between progesterone levels in early luteal phase and embryonic death  in Aceh cattle) ABSTRACT. Progesterone is an important hormone that functions to maintain pregnancy and is produced by the corpus luteum. The aim of this study was to see a correlation between progesterone and the incidence of embryonic death in Aceh cattle. This study used four adult female cows, 3-5 years old, 150-250 kg body weight, clinically healthy, and have a normal reproduction. The synchronized with 5 ml prostaglandin F2 alfa hormone, and double injection pattern with 11-day intervals. The blood was collected for progesterone measurements on 5th, 6th, 7th day post artificial insemination. Measurement of progesterone concentration was carried out using an enzymelinked-immunoassay (ELISA), while pregnancy and embryo mortality was performed using the trans-rectal ultrasonography method on the 25th day after insemination. The examination was repeated every 10 days until day 55th after insemination. Progesterone secretion peaks in pregnant cows were on day 7th (2.082 ng/ml), in cattle Late Embryonic Mortality (LEM) on day 5th (8.209 ng/ml) and in cattle not pregnant on day 7th (3.051±1.157 ng/ml). The pattern of LEM progesterone secretion on days 5th to 7th tends to decrease while those that survive tend to increase.

A comparative study of the corpus luteum

1995 ◽  
Vol 7 (3) ◽  
pp. 303 ◽  
Author(s):  
RT Gemmell
Keyword(s):  
Corpus Luteum ◽  
Luteal Phase ◽  
Secretory Granules ◽  
Hormonal Control ◽  
Egg Laying ◽  
Oestrous Cycle ◽  
Corpora Lutea ◽  
Embryonic Diapause ◽  
Alternative Reproductive Strategy ◽  
Uterine Development

The corpus luteum (CL) is a transitory organ which has a regulatory role in reproduction. Sharks, amphibians and reptiles have corpora lutea that produce progesterone which influences the rate of embryonic development. The egg-laying monotremes and the two major mammalian groups, eutherian and marsupial, have a CL that secretes progesterone. Most eutherians have allowed for the uterine development of their young by extending the length of the oestrous cycle and the CL or placenta actively secretes progesterone until birth. Gestation in the marsupial does not extend beyond the length of an oestrous cycle and the major part of fetal development takes place in the pouch. Where the extension of the post-luteal phase in the eutherian has allowed for the uterine development of young, the marsupial has extended the pre-luteal phase of the oestrous cycle and has evolved an alternative reproductive strategy, embryonic diapause. The mechanism for the secretion of hormones from the CL has been controversial for many years. Densely-staining secretory granules have been observed in the CL of sharks, marsupials and eutherians. These granules have been reported to contain relaxin, oxytocin or mesotocin, and progesterone. A hypothesis to suit all available data is that all hormones secreted by the CL are transported within such granules. In conclusion, although there are obvious differences in the mode of reproduction in the two main mammalian groups, it is apparent that there is a great deal of similarity in the hormonal control of regression of the CL and parturition.

Synchronization of oestrus and subsequent fertility in cattle, using the prostaglandin F2α analogue, ICI 80996 (cloprostenol)

1976 ◽  
Vol 16 (81) ◽  
pp. 437 ◽  
Author(s):  
H Hearnshaw
Keyword(s):  
Artificial Insemination ◽  
Luteal Phase ◽  
Prostaglandin F2α ◽  
Optimum Time ◽  
Subcutaneous Injections ◽  
Late Luteal Phase ◽  
Initial Injection ◽  
Subsequent Fertility ◽  
Subsequent Cycle ◽  
Cycle Lengths

The prostaglandin analogue, ICI 80996 (cloprostenol), was administered subcutaneously to synchronize oestrus in cattle. One injection, or two injections 12 days apart, of 400 pg gave optimal results (78 and 72 per cent synchronized respectively) for the Hereford cross heifers used. Heifers treated with cloprostenol from days one to five of the cycle, did not respond to the first injection, but did so to a second injection given 12 days later. A greater percentage of heifers, treated in the mid or late luteal phase of the cycle, exhibited oestrus after the first injection of cloprostenol than after the second injection. The percentage of these heifers showing induced oestrus varied from 44 to 100 per cent. There was a peak in the incidence of oestrus between 49 and 72 hours after injection but the distribution ranged from 24 to 120 hours. Peripheral blood progesterone concentrations, palpation of the ovaries and subsequent cycle lengths, indicated that the cloprostenol had no adverse effects in the majority of heifers. However, about 30 per cent of the heifers that responded to an initial injection of cloprostenol given in the mid luteal phase of the cycle failed to respond to a second injection. Some of these heifers had abnormal progesterone profiles and subsequent reproductive patterns. Fertility, following one or two subcutaneous injections of cloprostenol and artificial insemination at the set times of 72 and 96 hours, was 30 and 46 per cent respectively. However, if only heifers inseminated at the optimum time were considered, fertility at pregnancy diagnosis (73 and 65 per cent) and calving (53 and 57 per cent) was acceptable.

scholarly journals Effect of ram introduction on the oestrous cycle of springbok ewes (Antidorcas marsupialis)

Reproduction ◽  
2002 ◽  
pp. 509-513 ◽  
Author(s):  
DC Skinner ◽  
SD Cilliers ◽  
JD Skinner
Keyword(s):  
Maximum Concentration ◽  
Luteal Phase ◽  
Follicular Phase ◽  
Oestrous Cycle ◽  
Arid Environments ◽  
Wild Ungulates ◽  
Plasma Progesterone ◽  
Before And After ◽  
Antidorcas Marsupialis

Springbok are aseasonally breeding wild ungulates that inhabit arid environments, and interest has been shown in domesticating them for agricultural purposes. The present study was conducted for husbandry purposes to determine the effect of introducing a vasectomized ram to an isolated herd of springbok ewes (n = 9). Blood was collected from ewes every third day, before and after introduction of a vasectomized ram. Ewes were subjected to the ram for 42 days. Plasma progesterone was measured by radioimmunoassay and was used to establish the stage of the oestrous cycle. After introduction of the ram, the variation in the timing of the follicular phase between ewes was clearly reduced, compressing the spread of oestrus in the springbok ewes from 11 to 3 days. In seven of the nine ewes, the ram was introduced during the luteal phase of the oestrous cycle, causing this cycle to be significantly longer in duration (P < 0.05) and to have a higher maximum concentration of progesterone (P < 0.001) than cycles before and after introduction of the ram. This finding implies that the mechanism of synchronization operates through a luteotrophic effect. These results indicate that rams may be used successfully to synchronize breeding in springbok.

Source of ovarian inhibin secretion during the oestrous cycle of the sheep

1989 ◽  
Vol 123 (2) ◽  
pp. 181-188 ◽  
Author(s):  
G. E. Mann ◽  
A. S. McNeilly ◽  
D. T. Baird
Keyword(s):  
Corpus Luteum ◽  
Luteal Phase ◽  
Venous Blood ◽  
Contralateral Side ◽  
Follicular Phase ◽  
Oestrous Cycle ◽  
Secretion Rate ◽  
Antral Follicles ◽  
Luteal Tissue

ABSTRACT The source of inhibin secretion by the ovary in the sheep at different stages of the oestrous cycle was investigated by in-vivo cannulation of the ovarian veins. Twenty-four Scottish Blackface ewes were allocated to four groups of six ewes, i.e. those operated on during the luteal phase (day 10), and those operated on during the follicular phase 24–30, 36 and 60 h following an injection of 125 μg cloprostenol on day 10 of the luteal phase. Samples of jugular and timed ovarian venous blood were collected under anaesthesia before and after enucleation of the corpus luteum. Ovaries were then removed and follicles dissected out. Following injection of cloprostenol, luteal regression occurred as indicated by a fall in the secretion of progesterone. The concentration of inhibin in jugular venous plasma and its ovarian secretion rate were similar at all stages of the follicular phase and during the luteal phase. In contrast, the secretion rate of oestradiol rose from 2·68 ±0·73 pmol/min during the luteal phase to 8·70± 2·24 pmol/min 24 h after injection of cloprostenol (P<0·05). Following enucleation of the corpus luteum the secretion rate of progesterone fell from 809 ± 270 pmol/min to 86 ± 30 pmol/min (P<0·001). There was also a smaller, artifactual fall in the secretion rate of oestradiol following enucleation of the corpus luteum, which was of similar size to a fall seen in the secretion rate of inhibin. This resulted in a significant (P<0·001) fall in the ratio of progesterone to inhibin, while the oestradiol to inhibin ratio remained unchanged. The secretion rate of inhibin from ovaries containing luteal tissue was similar to that from the contralateral side without luteal tissue (1·41±0·30 compared with 1·32±0·30 ng/min), while ovaries with large antral follicles secreted significantly (P< 0·001) more inhibin than those with no follicles ≥3 mm (2·28 ± 0·36 compared with 0·25 ±0·06 ng/min). From these results we conclude that, in the sheep, large antral follicles are responsible for most, if not all, the secretion of inhibin by the ovary at all stages of the oestrous cycle, and that the corpus luteum secretes little or no immunoactive or bioactive inhibin. Due to the fact that, unlike inhibin, the secretion rate of oestradiol rises during the follicular phase of the cycle, when the concentration of FSH is suppressed, it seems likely that oestradiol rather than inhibin is the major ovarian factor modulating the change in FSH secretion seen at this stage of the oestrous cycle. Journal of Endocrinology (1989) 123, 181–188

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