Trinidad Jolin

Response of anterior pituitary hormones to chronic stress. The specificity of adaptation.

The effect of chronic noise stress on the response of anterior pituitary hormones to the same or to another stressor (forced swimming) was studied in adult male Wistar rats. Both acute stressors increased corticosterone, prolactin, LH and TSH secretion and inhibited GH secretion. Previous chronic exposure to noise reduced corticosterone response to the same stimulus without modifying corticosterone response to a novel acute stress. Neither prolactin nor TSH responses to acute noise were reduced by previous chronic exposure to noise. Since chronic noise increased basal levels of LH and decreased those of GH, the response of these hormones to acute stress was expressed as percent changes of their respective basal values. It was found that chronically stressed rats showed diminished LH response to noise but not to forced swimming. GH showed the same pattern without reaching statistical significance. These data indicate that the response of some anterior pituitary hormones can adapt after repeated exposure to the same stressor. When adaptation occurred, this was specific for the stressor which the animals were repeatedly exposed to. The pituitary-adrenal axis appears to be the most reliable index of adaptation to chronic stress among all the anterior pituitary endocrine axes.

Effect of regularity of exposure to chronic immobilization stress on the circadian pattern of pituitary adrenal hormones, growth hormone, and thyroid stimulating hormone in the adult male rat

Circadian variation of serum levels of adrenocorticotropin hormone (ACTH), corticosterone, growth hormone (GH), and thyroid-stimulating hormone (TSH) were studied in three groups of adult male rats exposed to chronic intermittent immobilization stress (IMO) for 2 hr daily under different schedules. IMO resulted in reduced food intake, body weight loss, and increased adrenal weight. ACTH levels were not affected but corticosterone levels were increased in all IMO rats as compared to control ones during the diurnal phase of the circadian cycle. IMO decreased serum GH and TSH levels but the circadian pattern of secretion was influenced in a complex way depending on the specific pattern of daily exposure to IMO. Differences observed between the IMO groups were not caused by differences in food intake because its circadian rhythm was very similar in all IMO groups. These results suggest that regularity of exposure to immobilization alters in a complex fashion circadian GH and TSH rhythms.

Chronic Food Restriction and the Circadian Rhythms of Pituitary-Adrenal Hormones, Growth Hormone and Thyroid-Stimulating Hormone

Adult male Sprague-Dawley rats were subjected to food restriction so that they ate 65% of food ingested by control rats. While control rats had free access to food over the 24-hour period, food-restricted rats were provided with food daily at 10 a.m. The experimental period lasted for 34 days. On day 35, rats from both experimental groups were killed at 08.00, 11.00, 14.00, 24.00 and 02.00 h. Food restriction modified the circadian rhythms of ACTH and corticosterone. In addition, total circulating corticosterone throughout the day was higher in food-restricted than in control rats. In contrast, food restriction resulted in depressed secretion of thyroid-stimulating hormone and growth hormone. The results indicate that time of food availability entrained circadian corticosterone rhythm but not thyroid-stimulating hormone and growth hormone rhythms.

Sensitivity of anterior pituitary hormones to graded levels of psychological stress

The effect of graded levels of stressor intensity on anterior pituitary hormones was studied in adult male rats. Corticosterone, considered as a reflection of ACTH release, and prolactin responses showed a good correlation with the intensity of the stressors. On the contrary, neither LH, GH nor TSH release showed a parallelism with the intensity of the stressors in spite of the fact that they clearly responded to all the stimuli. It appears that the hormones of the anterior pituitary might be divided into two groups: those whose response is sensitive to the levels of emotional arousal elicited by stress, and those displaying a clear but stereotyped response during stress. However, other alternative explanations might exist to justify the present results. The neural mechanisms underlying the two types of response are at present unknown. These data indicate that only the pituitary-adrenal axis and prolactin have some potential utilities as quantitative indices of emotional arousal elicited by currently applied stressors in the rat.

Influence of intensity and duration of exposure to various stressors on serum TSH and GH levels in adult male rats

The effect of stressor intensity and duration of exposure to the stimuli on adrenocorticotropin (ACTH), somatotropin (GH) and thyrotropin (TSH) concentration in serum was studied in adult male Sprague-Dawley rats. The stressors used were noise, restraint in plastic tubes and immobilization on wood boards. The greatest ACTH release was found in immobilized rats and the smallest in noise-exposed animals. The inhibition of GH secretion was related to the intensity of ACTH release in that maximal GH inhibition was observed in immobilized rats and minimal in noise-exposed rats. The TSH response was more complex. Noise increased TSH release at all periods observed (10, 30 and 60 min); the stimulation of TSH release caused by restraint was significant at 30 and 60 min and was always of lesser magnitude than that in response to noise. Finally, immobilization significantly increased TSH levels at 10 min and decreased them at 30 and 60 min. These results suggest that, under appropriate conditions, all hormones studied discriminate between different stressor intensities. However, the complexity of the TSH response to stressors indicates that this hormone is not an adequate index of the stress experienced by the animals.

Effects of chronic immobilization stress on GH and TSH secretion in the rat: Response to hypothalamic regulatory factors

The effect of chronic immobilization (2 h/day) for 13 days on basal and stress levels of GH and TSH, and their response to various hypothalamic regulatory factors was studied in male Sprague-Dawley rats. Chronic immobilization (IMO) resulted in reduced serum TSH levels in stress situations but not in resting conditions. GH secretion was inhibited both in resting and stress situations. Chronic IMO impaired both GH and TSH responses to GRH and TRH, respectively, but also to another peptide (VIP) stimulatory for the two hormones. Whereas somatostatin administration inhibited GH secretion in control but not in chronic IMO rats, its inhibitory effect on TSH was slight and similar in the two experimental groups. The present results suggest that chronic exposure to a severe stressor such as IMO alters GH and TSH secretion, at least in part by changes in the response of the pituitary to the hypothalamic regulatory factors. The actual influence of chronic IMO on the release of these peptides into the median eminence remains to be studied.

Effect of streptozotocin diabetes and insulin replacement on growth hormone in rats

The effects of insulin deprivation on the growth rate, plasma and pituitary growth hormone (GH) and GH synthesis were investigated in male Wistar rats. Diabetes was induced by administration of streptozotocin (STZ), 7 mg/100g bw, and plasma and pituitary GH levels were measured by means of a specific radioimmunoassay. GH synthesis was determined in pituitaries by the in vitro incorporation of [3H] leucine into specific immunoprecipitates. The body weight and the pituitary GH content of normally developing rats showed an almost linear increase throughout the observation period, whereas diabetic rats stopped growing immediately after receiving STZ, and remained smaller than age-paired controls. Pituitary GH content remained within the control range through the 5 days following STZ administration and thereafter decreased reaching 10% of control values by the 30th day. Furthermore, pituitaries from diabetic rats incorporated [3H] leucine into r-GH at a greatly reduced rate, which could explain the diminished r-GH storage in pituitaries of diabetic rats. Plasma GH concentrations ramained within the normal range for 10 days after STZ, thereafter plasma GH were markedly reduced. Insulin treatment prevented the metabolic changes, and restored normal levels of plasma and pituitary GH in diabetic rats. These findings indicate that diabetes, in rat, is characterized by an inhibitory effect on GH secretion, probably via a diminished GH synthesis by the pituitary gland.

The effects of chronic intermittent stress on basal and acute stress levels of TSH and GH, and their response to hypothalamic regulatory factors in the rat.

The effect of chronic stress on basal and stress-induced alterations of TSH and GH was studied in adult male rats. Chronically stressed rats were subjected 6 days per week for 4 weeks to several acute stressors including saline injections, noise, ether and forced swimming. Each day, one stressor was chosen randomly. Twenty hr after the last stress session, basal levels of TSH were normal or increased, with no altered pituitary response to TRH. In contrast, the TSH rise induced by acute stress was blunted in chronically stressed rats. Chronic stress resulted in lower basal and acute stress levels of GH. These modifications were probably due to changes in the release of hypothalamic regulatory hormones, because no evidence for altered TSH response to TRH, and GH response either to GHRH or to somatostatin, was found. Some abnormal responses of GH to TRH and of TSH to GHRH were observed in chronically stressed rats. These data indicate that this type of chronic stress induced significant changes in basal and acute stress levels of GH and TSH in the rat.

Effects of water restriction on circadian rhythms of corticosterone, growth hormone and thyroid stimulating hormone in adult male rats

The effects of acute and chronic water restriction on the circadian rhythms of corticosterone, growth hormone (GH), and thyroid stimulating hormone (TSH) were studied in adult male rats. Water restricted rats were allowed to drink between 9:00 and 9:30 a.m. only. Chronic water restriction but not one day of such treatment altered the circadian pattern of corticosterone so that a peak of this hormone appeared before water presentation. In contrast, neither acute nor chronic water restriction altered the qualitative patterns of circadian GH and TSH rhythms although both treatments depressed the secretion of the two hormones, the depression being greater in chronic than in acute water restricted rats. These results indicate that water restriction did not resynchronize the GH and TSH circadian rhythms. It appears that reduced secretion of GH and TSH observed in water restricted rats would be due to the concomitant reduction in food intake.

The effects of chronic stress on corticosterone, GH and TSH response to morphine administration

The effects of a chronic stress model in which several acute stressors were applied on a random basis on corticosterone, growth hormone (GH) and thyroid stimulating hormone (TSH) responses to morphine administration were studied in adult male rats. Chronic stress resulted in lower corticosterone response to the drug. In contrast, GH response to morphine was enhanced in the former animals and TSH response remained unchanged. The physiological role of changes in hormone response to opiates remains to be established, but the present results suggest that central opioid pathways involved in the neuroendocrine control of the anterior pituitary did not respond homogeneously to chronic stress.