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Query: UMLS:C0848237 (
acute stress
)
4,619
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
There is considerable evidence suggesting that endogenous opioids may play an important role in
acute stress
-induced decreases in luteinizing hormone (LH) release. Studies were undertaken to analyze the role of endogenous opioids in chronic stress-induced decrease in circulating LH and
follicle-stimulating hormone
(
FSH
). Chronic restraint (6 h daily over 4 days) evoked a decrease in circulating LH and
FSH
. Naltrexone treatment, (2 mg/kg three times daily) during the 4 days of restraint, caused an increase in plasma concentrations of LH and
FSH
, and antagonized the LH suppressory effect of morphine (10 mg/kg) administration. Despite this, naltrexone treatment was ineffective in preventing the inhibitory effect of chronic restraint stress on circulating LH and
FSH
. Chronic restraint also induced a decrease in hypothalamic LH-releasing hormone (LHRH) content in saline-treated rats. On the contrary, in naltrexone-treated rats, chronic restraint evoked an increase in hypothalamic LHRH content. Thus endogenous opioids and chronic stress seem to act by different mechanisms on the hypothalamic LHRH neuron. In unstressed orchidectomized rats, naltrexone administration did not modify circulating LH, but increased plasma concentrations of LH in acutely restrained rats. These data suggest that endogenous opioids may mediate gonadotropin secretion during
acute stress
, but not during chronic stress.
...
PMID:Naltrexone does not reverse the inhibitory effect of chronic restraint on gonadotropin secretion in the intact male rat. 174 59
Studies of behavior, endocrinology and physiology have described experiments in which animals housed in groups or in isolation were normally tested individually. The isolation of the animal from its group for testing is perhaps the most common situation used today in experimental procedures, i.e., there is no consideration of the
acute stress
which occurs when the animal is submitted to a situation different from that it is normally accustomed to, i.e., group living. In the present study, we used 90 male 120-day-old rats (Rattus norvegicus) divided into 5 groups of 18 animals, which were housed 3 per cage, in a total of 6 cages. The animals were tested individually or with their groups for exploratory behavior. Hormones were determined by radioimmunoassay using specific kits. The results showed statistically significant differences between testing conditions in terms of behavior and of adrenocorticotrophic hormone (ACTH: from 116.8 +/- 15.27 to 88.77 +/- 18.74 when in group and to 159.6 +/- 11.53 pg/ml when isolated), corticosterone (from 561.01 +/- 77.04 to 1036.47 +/- 79.81 when in group and to 784.71 +/- 55.88 ng/ml when isolated), luteinizing hormone (from 0.84 +/- 0.09 to 0.58 +/- 0.05 when in group and to 0.52 +/- 0.06 ng/ml when isolated) and prolactin (from 5.18 +/- 0.33 to 9.37 +/- 0.96 when in group and to 10.18 +/- 1.23 ng/ml when isolated) secretion, but not in terms of
follicle-stimulating hormone
or testosterone secretion. The most important feature observed was that in each cage there was one animal with higher ACTH levels than the other two; furthermore, the exploratory behavior of this animal was different, indicating the occurrence of almost constant higher vigilance in this animal (latency to leave the den in group: 99.17 +/- 34.95 and isolated: 675.3 +/- 145.3 s). The data indicate that in each group there is an animal in a peculiar situation and its behavior can be detected by ACTH determination in addition to behavioral performance.
...
PMID:Social condition affects hormone secretion and exploratory behavior in rats. 1526 26
Stress impacts the reproductive axis at the level of the hypothalamus and the pituitary gland, which exert an effect on the ovary. Menstruation is regulated by the hypothalamic-pituitary-ovary (HPO) axis. However, the role of stress in menstruation remains unclear. The objective of this study was to explore the role of stress in endometrial breakdown and shedding, using the pseudopregnant mouse menstrual-like model. Female mice were mated with vasectomized males and labeled day 0.5, upon observation of a vaginal seminal plug. On day 3.5, decidualization was induced in pseudopregnant mice using arachis oil. On day 5.5, pseudopregnant mice with artificial decidualization were placed in restraint tubes for 3 h. The findings indicated that acute restraint stress resulted in the disintegration of the endometrium. While corticosterone concentration in the serum increased significantly due to restraint stress,
follicle-stimulating hormone
(
FSH
), luteinizing hormone (LH) and progesterone (P4) levels in the serum decreased significantly. An endometrial histology examination indicated that progesterone implants may rescue P4 decline caused by
acute stress
and block endometrium breakdown and shedding. In addition, mice were treated with metyrapone, an inhibitor of corticosterone synthesis, 1 h prior to being subjected to restraint stress. Interestingly, metyrapone not only inhibited stress-induced endometrium breakdown and shedding, but also prevented stress-induced reduction of P4, LH and
FSH
. Furthermore, real-time PCR and western blot showed that mRNA and protein expression of CYP11A1 (cytochrome P450, family 11, subfamily A, polypeptide 1) and steroidogenic acute regulatory protein (StAR), the two rate-limiting enzymes for progesterone synthesis in the ovary, decreased following
acute stress
. But metyrapone prevented the reduction of StAR expression induced by restraint stress. Overall, this study revealed that
acute stress
results in an increase in corticosterone, which may inhibit LH and
FSH
release in the serum and CYP11A1 and StAR expression in the ovary, which finally leads to the breakdown and shedding of the endometrium. These experimental findings, based on the mouse model, may enable further understanding of the effects of stress on menstruation regulation and determine the potential factors affecting stress-associated menstrual disorders.
...
PMID:Acute restraint stress triggers progesterone withdrawal and endometrial breakdown and shedding through corticosterone stimulation in mouse menstrual-like model. 3060 56
