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32 results on '"Gonadotropins, Equine analysis"'

1. The influence of nutrition on the insulin-like growth factor system and the concentrations of growth hormone, glucose, insulin, gonadotropins and progesterone in ovarian follicular fluid and plasma from adult female horses (Equus caballus).

Author

Salazar-Ortiz J, Monget P, and Guillaume D

Subjects
Animals, Blood Glucose analysis, Caloric Restriction adverse effects, Female, Follicular Fluid chemistry, France, Glucose analysis, Gonadotropins, Equine analysis, Gonadotropins, Equine blood, Gonadotropins, Equine metabolism, Growth Hormone analysis, Growth Hormone blood, Growth Hormone metabolism, Horses blood, Horses growth & development, Insulin-Like Growth Factor Binding Protein 3 analysis, Insulin-Like Growth Factor Binding Protein 3 blood, Insulin-Like Growth Factor Binding Proteins analysis, Insulin-Like Growth Factor Binding Proteins blood, Insulin-Like Growth Factor Binding Proteins metabolism, Insulin-Like Growth Factor I analysis, Insulin-Like Growth Factor II analysis, Insulins analysis, Insulins blood, Insulins metabolism, Ovarian Follicle diagnostic imaging, Ovarian Follicle metabolism, Proestrus, Progesterone analysis, Progesterone blood, Progesterone metabolism, Ultrasonography, Caloric Restriction veterinary, Horses physiology, Insulin-Like Growth Factor Binding Protein 3 metabolism, Insulin-Like Growth Factor I metabolism, Insulin-Like Growth Factor II metabolism, Ovarian Follicle growth & development, Signal Transduction
Abstract

Background: Feed intake affects the GH-IGF system and may be a key factor in determining the ovarian follicular growth rate. In fat mares, the plasma IGF-1 concentration is high with low GH and a quick follicular growth rate, in contrast to values observed in thin mares. Nothing is known regarding the long-term effects of differential feed intake on the IGF system. The objective of this experiment was to quantify IGFs, IGFBPs, GH, glucose, insulin, gonadotropin and progesterone (P4) in blood and in preovulatory follicular fluid (FF) in relation to feeding levels in mares., Methods: Three years prior to the experiment, Welsh Pony mares were assigned to a restricted diet group (R, n = 10) or a well-fed group (WF, n = 9). All mares were in good health and exhibited differences in body weight and subcutaneous fat thickness. Follicular development was scanned daily and plasma was also collected daily. Preovulatory FF was collected by ultrasound-guided follicular aspiration. Hormone levels were assayed in FF and plasma with a validated RIA., Results: According to scans, the total number of follicles in group R was 53% lower than group WF. Insulin and IGF-1 concentrations were higher in WF than in R mares. GH and IGF-2 concentrations were lower in plasma from WF mares than from R mares, but the difference was not significant in FF. The IGFBP-2/IGFBP-3 ratio in FF was not affected by feeding but was dramatically increased in R mare plasma. No difference in gonadotropin concentration was found with the exception of FSH, which was higher in the plasma of R mares. On the day of puncture, P4 concentrations were not affected by feeding but were higher in preovulatory FF than in plasma., Conclusions: The bioavailability of IGF-1 or IGF-2, represented by the IGFBP2/IGFBP3 ratio, is modified by feed intake in plasma but not in FF. These differences partially explain the variability in follicular growth observed between well-fed mares and mares on restricted diets.

Published
2014
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2. Bioassay for follicle stimulating activity of equine gonadotropic hormone in mare serum using frozen/thawed transiently transfected reporter cells.

Author

Sahmi F, Nicola E, and Price CA

Subjects
Animals, Biological Assay veterinary, Cells, Cultured, Dose-Response Relationship, Drug, Female, Follicle Stimulating Hormone metabolism, Follicle Stimulating Hormone pharmacology, Freezing, Genes, Reporter physiology, Gonadotropins, Equine blood, Gonadotropins, Equine metabolism, Gonadotropins, Equine pharmacology, HEK293 Cells, Horses metabolism, Humans, Transfection, Biological Assay methods, Follicle Stimulating Hormone analysis, Follicle Stimulating Hormone blood, Gonadotropins, Equine analysis, Horses blood
Abstract

The objective was to establish a cell line-based bioassay for FSH in horse serum for screening samples with high eCG bioactivity. A cell line (HEK293) was transiently cotransfected with an FSH reporter expression plasmid and a cAMP-responsive β-galactosidase reporter plasmid. Cells were bulk frozen, and thawed for assay purposes. This assay was specific for FSH, with no cross-reaction with LH or insulin-like growth factor-1. Standard curves (eCG) and serum samples from pregnant mares passed parallel line bioassay validity tests (linearity and parallelism). Estimates of bioactivity with this bioassay were highly correlated with estimates obtained with the Steelman-Pohley hCG augmentation assay. The colorimetric end point permitted the use of this assay as a rapid screen for FSH bioactivity without the need for animal use or complex cell culture facilities., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published
2012
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3. Enzyme immunoassay (EIA) for equine chorionic gonadotropin/pregnant mare serum gonadotropin (eCG/PMSG).

Author

Lecompte F and Combarnous Y

Subjects
Animals, Biological Assay, Cross Reactions, Evaluation Studies as Topic, Female, Gonadotropins, Equine blood, Gonadotropins, Equine immunology, Horses, Pregnancy, Sensitivity and Specificity, Gonadotropins, Equine analysis, Immunoenzyme Techniques statistics & numerical data
Abstract

A simple, accurate, sensitive enzyme immunoassay (EIA) has been developed that permits the measurement of equine Chorionic Gonadotropin activity in pregnant mare plasmas or serums as well as in commercial and highly-purified preparations. This assay is specific for eCG and eLH which share the same polypeptide structure but differ in their oligosaccharidic chains. The more important result is that this EIA has been found to be give data in very close agreement with the in vivo assay. Therefore this very rapid and convenient assay can be used to measure the activity of eCG/PMSG in pregnant mares serums in in-field conditions as well as in crude or highly-purified preparations.

Published
1992
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4. Biological and immunoactive substances resembling chorionic gonadotropin are present in full-term horse and zebra placentas.

Author

McFarlane JR, Coulson SA, and Papkoff H

Subjects
Animals, Biological Assay, Chromatography, High Pressure Liquid, Female, Radioimmunoassay, Rats, Gonadotropins, Equine analysis, Horses metabolism, Luteinizing Hormone analysis, Perissodactyla metabolism, Placenta chemistry
Abstract

This study describes the presence of immunoactive and bioactive eCG-like material in full-term placentas of both domestic horses and zebras. Term placental extracts were immunoreactive in an LH monoclonal antibody RIA, and methods successfully used previously for the purification of eCG and eLH were employed to further concentrate the immunoreactive materials to the point where additional characterization studies could be performed. Sufficient equine material was obtained to perform a final fractionation on a concanavalin A Sepharose column yielding an unadsorbed fraction, e17A, and an adsorbed fraction, e17B. There was insufficient zebra material, z5D, for this step. HPLC gel filtration coupled with LH immunoassays of the column eluates showed all the final placental fractions to be highly heterogeneous, but a discrete peak of immunoactivity was found in one of the two equine fractions (e17B) and in the zebra fraction (z5D). The HPLC gel filtration elution volumes for e17B and z5D suggest that they have a smaller molecular size than either eCG or eLH but almost the same size as ovine LH. Both e17B and z5D were bioactive in the rat Leydig cell assay for LH but low in potency compared to eCG or eLH; e17A was inactive at very high doses (5 micrograms). This latter fraction, however, cross-reacted in an eCG alpha RIA to a much greater extent (6 times) than e17B, suggesting that it may be an incompletely formed or degraded alpha subunit. RIAs for LH, eCG, and eCG beta suggest that epitopes distinctive for these molecules are also present or similar to those in the term placental materials.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1991
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5. Equine chorionic gonadotropin.

Author

Murphy BD and Martinuk SD

Subjects
Amino Acid Sequence, Amino Acids analysis, Animals, Gonadotropins, Equine analysis, Gonadotropins, Equine metabolism, Horses, Molecular Sequence Data, Gonadotropins, Equine chemistry
Abstract

Cells from the chorionic girdle of the equine trophoblast invade the maternal endometrium at day 36 of gestation and become established as secretory elements known as the endometrial cups. These structures, which persist for 40-60 days, produce a gonadotropin which can be found in circulation until about day 130 of gestation. This glycoprotein has been identified in the horse and the donkey, with the former having received much better characterization. It consists of 2 noncovalently linked peptide chains; an alpha-subunit of 96 amino acids, which is common to that found in other horse glycoprotein hormones. The beta-subunit of 149 amino acids is identical to horse LH beta. Horse CG is the most heavily glycosylated of the known pituitary and placental glycoprotein hormones. The alpha-subunit has two and the beta-subunit one N-linked glycosylation site, and the beta-chain has in excess of four O-linked glycosylation sites. The N-linked glycans have some oligosaccharides that are not found on other glycoprotein hormones. The sialic component of glycosylation confers an exceptionally long half-life on CG compared to other glycoprotein hormones. Horse CG has LH-like activity in horse receptor and in vitro bioassays. In spite of the amino acid homology, it has lower LH activity than does horse LH. Its most intriguing, and as yet unexplained, characteristic is its pronounced FSH and LH activity in species other than the horse. Horse CG binds to FSH receptors of virtually all mammalian species, other than the horse, in which it has been tested and will produce biological effects peculiar to FSH. It has similar and potent interaction with LH receptors. The structural basis of this duality is not known but may be related to the region 90-110 of the beta-chain. Horse CG is believed to be constitutively expressed by the trophoblastic cells until the endometrial cups degenerate. The role of CG in equine gestation is not completely understood. It is believed to act as an LH-like hormone to induce supplementary ovulation and/or luteinization of follicles in the mare. It has not been established whether CG or the accessory corpora lutea are necessary for successful horse pregnancy. They may serve as a redundant system to assure that there is sufficient secretion of the primary corpus luteum to maintain pregnancy until the placenta assumes its role as the principal steroidogenic organ of gestation.

Published
1991
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6. Intra-follicular and peripheral steroid characteristics during vernal transition in the pony mare.

Author

Davis SD and Sharp DC

Subjects
Androstenedione analysis, Animals, Estradiol analysis, Estrus physiology, Female, Follicle Stimulating Hormone analysis, Luteinizing Hormone analysis, Ovary physiology, Ovulation physiology, Progesterone analysis, Testosterone analysis, Gonadal Steroid Hormones analysis, Gonadotropins, Equine analysis, Horses physiology, Ovarian Follicle chemistry
Abstract

This experiment investigated steroid production by ovarian tissues, in vitro, of pony mares during vernal transition from anoestrus to the breeding season. Follicular dynamics were monitored to detect the first, second, third or fourth transition follicle, greater than or equal to 30 mm diameter or the first large post luteal follicle of the breeding season. Twenty-four hours after a large follicle was detected, theca (T) and granulosa (G) tissues were harvested. Separate and co-incubations of these tissues were conducted to determine steroid production in early transition (ET), late transition (LT) and pre-ovulatory (OV) follicles. Peripheral plasma and follicular fluid steroids and gonadotrophins also were assayed. Peripheral plasma oestradiol concentrations increased from ET to LT and again from LT to OV in parallel with tissue production and follicular fluid content. Androgen production increased from LT to OV whereas progesterone production showed no change, thereby indicating a possible failure of 17-alpha steroid hydroxylase in ET follicles. Examination of tissue steroid secretion rates revealed that granulosa was the major site of oestrogen production, whereas theca secreted greater amounts of androgen.

Published
1991

10. Influence of foetal genotype on the follicle-stimulating hormone:luteinizing hormone ratio of pregnant mare serum gonadotrophin.

Author

Stewart F, Allen WR, and Moor RM

Subjects
Animals, Female, Genotype, Horses metabolism, Pregnancy, Rats, Fetus physiology, Follicle Stimulating Hormone analysis, Gonadotropins, Equine analysis, Luteinizing Hormone analysis, Perissodactyla metabolism
Abstract

Rat testicular radioreceptor assays specific for FSH and LH were used to determine the FSH:LH ratio of PMSG produced by horse, donkey, mule and hinny conceptuses. Measurements of FSH and LH activities in PMSG produced both in vivo and in vitro by the four types of conceptuses showed that the genotype of the foetus markedly influences the FSH:LH ratio of PMSG. The FSH:LH ratio of PMSG produced by the horse conceptus was around unity whereas the ratio of PMSG produced by the donkey conceptus was as low as 0-2. Furthermore, the hybrid mule and hinny conceptuses both produced PMSG with an FSH:LH ratio which was approximately midway between those of the horse and donkey.

Published
1977
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12. [Determination of the activity of luteinizing hormone in PMSG preparations using testosterone synthesis in vitro].

Author

Mamode MI, Hanáková L, Vĕzník Z, and Hruska K

Subjects
Animals, In Vitro Techniques, Male, Mice, Biological Assay methods, Gonadotropins, Equine analysis, Luteinizing Hormone analysis, Testis metabolism, Testosterone biosynthesis
Abstract

The activity of luteinizing hormone (LH) in serum gonadotropin (PMSG) was studied by a bioassay in vitro, using the cells of mouse testes prepared by the combination of enzymatic and mechanical diffociation. The activity of individual preparations was calculated according to the amount of produced testosterone measured by radioimmunoassay. Comparison with the 2nd international standard of PMSG (WHO) showed that in the PMSG substandard (Dessau) the activity of LH was twice lower, and in three charges of the commercial PMSG preparation (Bioveta, Ivanovice in Haná) four-and-a-half times lower than declared. No great variability of LH activity was observed among the charges of the commercial PMSG preparation.

Published
1983

14. [Determination of the gonadotropin content of preparations of pregnant mare's serum (PMSG). 2. Action equivalence of PMSG in bioassays for follicle-stimulating hormone (FSH) and luteinizing hormone (LH) or human chorionic gonadotropins (HCG), critical evaluation of methods].

Author

Bergfeld J and Guiard V

Subjects
Animals, Female, Male, Ovary metabolism, Rats, Seminal Vesicles metabolism, Biological Assay methods, Chorionic Gonadotropin analysis, Follicle Stimulating Hormone analysis, Gonadotropins, Equine analysis, Luteinizing Hormone analysis
Published
1983

17. Demonstration of a COOH-terminal extension on equine lutropin by means of a common acid-labile bond in equine lutropin and equine chorionic gonadotropin.

Author

Bousfield GR, Sugino H, and Ward DN

Subjects
Amino Acid Sequence, Amino Acids analysis, Animals, Chromatography, High Pressure Liquid, Horses, Peptide Fragments analysis, Gonadotropins, Equine analysis, Luteinizing Hormone analysis
Abstract

The beta subunits of equine lutropin and equine chorionic gonadotropin were incubated in 0.013 N HCl for 30 min at 110 degrees C and separated into two fragments by reverse-phase high performance liquid chromatography. The amino acid and carbohydrate compositions of both fragments from each subunit were analyzed. The results demonstrated that equine lutropin-beta has a glycosylated COOH-terminal extension that differs only in carbohydrate composition from the COOH-terminal portion of equine chorionic gonadotropin-beta. This is the first demonstration of a glycosylated COOH-terminal extension in a pituitary glycoprotein hormone.

Published
1985

18. Radioimmunoassay for PMSG and its application to in-vivo studies.

Author

Menzer C and Schams D

Subjects
Animals, Cattle, Female, Half-Life, Horses, Pregnancy, Radioimmunoassay methods, Gonadotropins, Equine analysis
Abstract

A double-antibody radioimmunoassay for PMSG, especially for meauring PMSG in cattle blood after exogenous application, has been developed. A rabbit antiserum against PMSG and pure PMSG for radioiodination were used. There was a strong cross-reaction against equine LH and FSH, but the slight cross-reaction against bovine LH and FSH could be eliminated by adding bovine LH to each tube during the assay. Unspecific, interfering influences of equine or cow serum could be eliminated by adding a constant amount of PMSG-free serum to each tube. PMSG added to 200 microliter of serum could be recovered by this method with a mean of 90 . 5 +/- 9 . 9%. Inhibition curves obtained with pregnant mare serum or cow serum after administration of PMSG were parallel to those obtained with the PMSG standard preparation. The intra-assay coefficient of variation (CV) was 6 . 9%. The inter-assay CV was 12 . 6%. Sensitivity of the assay was 1 mi.u. PMSG/tube. Values of PMSG measured in the serum of pregnant mares by this assay were comparable with those obtained by a bioassay on the same samples. PMSG was still measurable in blood serum about 10 days after injection of 1500-3000 i.u. PMSG. After infusion of 12,000 i.u. PMSG for 3 h (2 heifers), the half-life of PMSG was found to have two components, one of 51 or 40 h and a slower one of 123 or 118 h.

Published
1979
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20. [Research on identification and titration of gonadotropins for therapeutic use by immunologic methods. 3. Experimental research on preparations of equine origin: serum gonadotropin or PMSG].

Author

Beys-L'Hoest B

Subjects
Animals, Chorionic Gonadotropin analysis, Electrophoresis, Female, Gonadotropins, Equine pharmacology, Immune Sera, Immunodiffusion, Immunoelectrophoresis, Methods, Ovary drug effects, Placenta immunology, Rats, Antigens analysis, Epitopes, Gonadotropins analysis, Gonadotropins, Equine analysis
Published
1972

22. Chemical and immunochemical studies on pregnant mare serum gonadotropin.

Author

Schams D and Papkoff H

Subjects
Amino Acid Sequence, Amino Acids analysis, Animals, Carbohydrates analysis, Chromatography, Gel, Chromatography, Ion Exchange, Cross Reactions, Drug Stability, Electrophoresis, Disc, Female, Follicle Stimulating Hormone, Formates, Gonadotropins, Equine analysis, Gonadotropins, Equine isolation & purification, Guanidines, Horses, Immune Sera, Immunodiffusion, Immunoelectrophoresis, Luteinizing Hormone, Neuraminic Acids analysis, Neuraminidase, Pregnancy, Rabbits, Rats, Urea, Gonadotropins, Equine blood
Published
1972
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23. Studies of human chorionic gonadotropin.

Author

Canfield RE, Morgan FJ, Kammerman S, Bell JJ, and Agosto GM

Subjects
Amino Acid Sequence, Choriocarcinoma urine, Chromatography, Gas, Chromatography, Gel, Chromatography, Ion Exchange, Electrophoresis, Disc, Female, Gonadotropins, Equine analysis, Humans, Immune Sera, Iodine Isotopes, Molecular Weight, Ovary metabolism, Pregnancy, Radioimmunoassay, Chorionic Gonadotropin analysis, Chorionic Gonadotropin classification, Chorionic Gonadotropin isolation & purification, Chorionic Gonadotropin metabolism, Chorionic Gonadotropin urine
Published
1971
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26. Mouse hyperaemic corpora lutea assay of prolcatin.

Author

Kovacic N

Subjects
Adrenocorticotropic Hormone analysis, Animals, Biological Assay, Chorionic Gonadotropin analysis, Female, Gonadotropins, Equine analysis, Growth Hormone analysis, Luteinizing Hormone analysis, Mice, Ovulation, Placental Lactogen analysis, Prolactin pharmacology, Sheep, Corpus Luteum drug effects, Hyperemia, Prolactin analysis
Published
1968
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