Effects of Active Immunization against Gonadotrophin-Releasing Hormone on the Concentrations of Noradrenaline, Dopamine, 5-Hydroxytryptamine and Some of Their Metabolites in the Brain and Sexual Organs of Male Rats

1991 ◽  
Vol 54 (1) ◽  
pp. 49-54 ◽  
Author(s):  
Augusto V. Juorio ◽  
Min Li ◽  
Arnoldo González ◽  
P. Jorge Chedrese ◽  
Bruce D. Murphy
Keyword(s):  
Active Immunization ◽  
Male Rats ◽  
Releasing Hormone ◽  
Gonadotrophin Releasing Hormone ◽  
The Brain

EFFECT OF ACTIVE IMMUNIZATION TO LUTEINIZING HORMONE RELEASING HORMONE ON SERUM AND PITUITARY GONADOTROPHINS, TESTES AND ACCESSORY SEX ORGANS IN THE MALE RAT

1974 ◽  
Vol 63 (2) ◽  
pp. 399-NP ◽  
Author(s):  
H. M. FRASER ◽  
A. GUNN ◽  
S. L. JEFFCOATE ◽  
DIANE T. HOLLAND
Keyword(s):  
Luteinizing Hormone ◽  
Active Immunization ◽  
Male Rats ◽  
Male Rat ◽  
Luteinizing Hormone Releasing Hormone ◽  
Releasing Hormone ◽  
Accessory Sex Organs ◽  
Gonadotrophin Releasing Hormone ◽  
Low Levels ◽  
Lh Rh

SUMMARY Autoimmunity to luteinizing hormone releasing hormone (LH-RH) in adult male rats, induced by immunization with LH-RH conjugated to bovine serum albumin, resulted in atrophy of the testes and secondary sex organs and aspermatogenesis. Both immunoreactive luteinizing hormone (LH) and follicle-stimulating hormone (FSH) in serum and the pituitary were reduced to low levels compared with those of control animals. It is suggested that antibodies to LH-RH can inhibit the action of endogenous hormone and that LH-RH is, in fact, the gonadotrophin-releasing hormone in the rat, required for the release of both LH and FSH.

SERUM CONCENTRATIONS OF GONADOTROPHINS AND THE HYPOTHALAMIC CONTENT OF GONADOTROPHIN RELEASING HORMONE IN MALE RATS EXPOSED TO 35 °C

1980 ◽  
Vol 84 (1) ◽  
pp. 9-16 ◽  
Author(s):  
E. BEDRAK ◽  
Z. CHAP
Keyword(s):  
Steady State ◽  
Serum Level ◽  
Histological Examination ◽  
Heat Exposure ◽  
Male Rats ◽  
Serum Concentrations ◽  
Releasing Hormone ◽  
Gonadotrophin Releasing Hormone ◽  
Temporary Decrease

Serum concentrations of FSH and LH and the hypothalamic content of gonadotrophin releasing hormone (GnRH) were measured by radioimmunoassay in male rats maintained at 35 °C for various periods of time. The results show that heat exposure caused a temporary decrease in serum concentrations of LH and FSH which was associated with comparable changes in the hypothalamic content of GnRH. Histological examination of the adenohypophysis of rats exposed to heat for 42 days disclosed that the gonadotrophs underwent hypertrophy and hyperplasia and appeared more active than those of control rats. The data suggest that in rats exposed to heat for prolonged periods a new steady-state is established through which an adequate serum level of LH is maintained.

THE EFFECTS OF TESTOSTERONE AND ITS 5α-REDUCED METABOLITES ON PITUITARY RESPONSIVENESS TO GONADOTROPHIN-RELEASING HORMONE (Gn-RH)

1977 ◽  
Vol 86 (4) ◽  
pp. 728-732 ◽  
Author(s):  
Y. Epstein ◽  
B. Lunenfeld ◽  
Z. Kraiem
Keyword(s):  
Pituitary Gland ◽  
Mature Male ◽  
Male Rats ◽  
Releasing Hormone ◽  
Gonadotrophin Releasing Hormone ◽  
Low Levels ◽  
High Doses ◽  
Dose Dependent ◽  
Stimulation Of

ABSTRACT The aim of this study was to investigate effects of androgens on gonadotrophin release in response to gonadotrophin-releasing hormone (Gn-RH) stimulation in vitro. Hemipituitaries of mature male rats were pre-incubated for 90 min with T, DHT, 3α- or 3β-diol (4 ng or 4 μg/ml medium), and the incubation continued for 240 min after adding Gn-RH (1 ng/ml medium). Gn-RH caused a 4-5-fold rise in the secretion of LH and a 2-fold rise in FSH secretion. The effect of the androgens was dose-dependent. At low levels, T and DHT exerted no effect on Gn-RH-stimulated gonadotrophin release, whereas the two androstanediols (3α- and 3β-diol) augmented the Gn-RH stimulation of both gonadotrophins, though preferentially LH. With high doses of androgens, the results obtained showed: a) no effect of T; b) DHT suppression of the Gn-RH-stimulated FSH release; c) suppression of Gn-RH stimulation by 3α- and 3β-diol regarding both LH and FSH. It is concluded that T exerts through its reduced metabolites a feedback effect on the pituitary gland responsiveness to Gn-RH stimulation.

Active Immunization against Gonadotrophin-releasing Hormone in Chinese Male Pigs

2001 ◽  
Vol 36 (2) ◽  
pp. 101-105 ◽  
Author(s):  
XY Zeng ◽  
JA Turkstra ◽  
DFM van de Wiel ◽  
DZ Guo ◽  
XY Liu ◽  
...  
Keyword(s):  
Active Immunization ◽  
Releasing Hormone ◽  
Gonadotrophin Releasing Hormone ◽  
Chinese Male

83 Response to follicle-stimulating hormone superstimulation in heifers with ovarian activity suppressed by active immunization against gonadotrophin-releasing hormone

2021 ◽  
Vol 33 (2) ◽  
pp. 149
Author(s):  
N. E. S. Pereira ◽  
L. P. Martins ◽  
R. M. Moura ◽  
L. R. O. Dias ◽  
M. A. S. Peixer ◽  
...  
Keyword(s):  
Active Immunization ◽  
Repeated Measure ◽  
Ovarian Activity ◽  
Corpora Lutea ◽  
Follicle Growth ◽  
Releasing Hormone ◽  
Significant Difference ◽  
Follicle Size ◽  
Gonadotrophin Releasing Hormone ◽  
Group B

In the present study, we evaluated the ovarian response to exogenous FSH stimulation in the absence of endogenous LH, using as experimental model heifers immunized against GnRH. Pubertal, cycling Nelore (Bos indicus) heifers were allocated into three experimental groups: (1) non-immunized, FSH stimulated (B−FSH+, n=5), (2) immunized, FSH stimulated (B+FSH+, n=5), and (3) immunized, nonstimulated (B+FSH−, n=5). Active immunization was obtained by 3 subcutaneous injections of 1.0mL anti-gonadotrophin-releasing hormone vaccine (Bopriva, Zoetis), given at 20-day intervals. Effective immunization was characterised by the absence of growing follicles >4mm or corpora lutea (CL) on the ovaries. Follicular wave emergence was synchronized in groups B+FSH+ and B+FSH− by follicle ablation, and in group B−FSH+ by using of a protocol consisting of an injection of 2mg of oestradiol benzoate and 0.5mg of sodium cloprostenol, and insertion of an intravaginal progesterone (P4) device (1g). Four days later (Day 0), groups B−FSH+ and B+FSH+ received 100mg of NIH-FSH-P1 (Folltropin-V, Vetoquinol), injected twice-a-day in 8 decreasing doses, and group B+FSH− received saline. Transvaginal ultrasonography (7.5MHz) was performed daily from Days 0 to 4 and the number and size of follicles were recorded. P4 devices of group B-FSH+ were removed at Day 3. All heifers underwent ovum pickup (OPU) at Day 4, and the cumulus–oocyte complexes (COC) recovered were graded for quality. Viable COC were used for invitro embryo production. The heifers were re-evaluated at Day 11 (7 days after OPU). The GLIMMIX procedure from SAS (SAS Institute Inc.) with repeated-measure statement was used to analyse the effects of group, day, and interactions; and the Chi-squared method was used to analyse binomial data. The results are shown as mean±s.e.m. A progressive increase in average follicle size was observed in groups B−FSH+ and B+FSH+ (P<0.0001), whereas no follicle growth was observed in group B+FSH− (P>0.05). Follicle growth rate was similar between groups B−FSH+ and B+FSH+, and both were greater than group B+FSH− (1.2±0.2 and 1.1±0.1 vs. 0.0±0.1 mm/d; P<0.0001). However, the smaller follicle size in group B+FSH+ at Day 0 resulted in smaller follicle size at Day 4, compared with group B−FSH+ (2.4±0.1 vs. 3.6±0.2 and 6.9±0.7 vs. 8.2±0.6mm, respectively; P<0.05). There was no (P>0.05) difference in the number of COC recovered among groups. The group B+FSH+ yielded fewer (P<0.01) COC of grades I and II and more (P<0.01) degenerated oocytes than groups B−FSH+ and B+FSH− (41.2% vs. 80.0% and 68.0%, and 34.0% vs. 19.8 and 7.0%, respectively). Nevertheless, blastocyst rates were similar (P>0.05) for B−FSH+, B+FSH+, and B+FSH− (57.1%, 45.9% and 44.2%, respectively). Residual follicles or luteal tissue were observed after OPU only in group B−FSH+, resulting in a significant difference in the size of ovaries between Days 0 and 11, compared with that of groups B+FSH+ and B+FSH− (3.7±1.4 vs. 0.2±0.2 and −0.2±0.2cm2, respectively; P<0.05). In summary, exogenous FSH supported follicle growth but did not improve oocyte quality in heifers immunized against GnRH. This research was funded by CAPES.

Hyperprolactinaemia attenuates the gonadotrophin releasing hormone receptor response to gonadectomy in rats

1982 ◽  
Vol 95 (2) ◽  
pp. 267-274 ◽  
Author(s):  
R. N. Clayton ◽  
L. C. Bailey
Keyword(s):  
Female Rats ◽  
Male Rats ◽  
Serum Prolactin ◽  
Intact Male ◽  
Adult Rats ◽  
Releasing Hormone ◽  
Receptor Response ◽  
Serum Lh ◽  
Gonadotrophin Releasing Hormone ◽  
Qualitative Index

Measurement of pituitary gonadotrophin releasing hormone (Gn-RH) receptor content provides a qualitative index of prior exposure of the pituitary gland to endogenous Gn-RH. The effect of moderate hyperprolactinaemia (serum prolactin = 95–250 μg/l), achieved with three pituitary grafts beneath the renal capsule, on the pituitary Gn-RH receptor content and serum LH responses to gonadectomy of adult rats has been studied. In males the presence of hyperprolactinaemia for 7 days completely prevented the increase in Gn-RH receptor content 3 days after castration and inhibited the serum LH rise by 45%. By 6 days after castration, Gn-RH receptors had increased in the hyperprolactinaemic castrated animals but values were 33% lower than in sham-grafted controls, while the serum LH increase was attenuated by 30%. Pituitary LH content was also lower in grafted castrated animals 6 days after castration. Hyperprolactinaemia for 3 weeks had no effect on Gn-RH receptors or pituitary LH content of intact male rats, although basal serum LH was decreased by 50%. Hyperprolactinaemia also attenuated the increases in Gn-RH receptors, serum LH and pituitary LH which occurred 6 days after ovariectomy in female rats. In all experiments the pituitary content of prolactin was reduced by 80–90% in animals bearing pituitary grafts. These results suggest that hyperprolactinaemia restricts the Gn-RH receptor response to gonadectomy by decreasing endogenous hypothalamic Gn-RH secretion.

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