Changes in the adrenal medulla of the rat during immobilization stress

A combined histofluorescent, light optic and electron microscopic investigation has been performed to study the medulla of the adrenals in intact rats (August strain) and immediately after immobilization for 30 h and 24 h after. In the intact animals heteromorphism of the medulla is demonstrated; this depends on the fact that adrenocytes are at different stages of the secretory cycle. Immobilization for 30 h results in synchronization of secretion; this is determined by adaptation of the adrenal system to immobilization. One day after immobilization restoration of heteromorphism in chromaffinocytes is demonstrated. The changes described are compensatory-adaptive reactions of the adrenal medulla to the stress in the animals survived.     

Enkephalin-containing polypeptide levels in normal tensive and SHR rat adrenal glands

The levels of enkephalin-containing polypeptides (ECPs) in the adrenal glands of normal tensive rats (WKY) and spontaneously hypertensive rats (SHR) were compared. Innervated and denervated adrenals from both types of rats showed very similar levels of ECPs. The only difference observed was a small increase in the 18 kdal ECP and a concomitant decrease in the 12 kdal and 5.3 kdal ECPs in the innervated SHR rat adrenal gland. From these data it appears that the adrenal ECPs are not a major contributor to hypertension in the SHR rat nor does hypertension, at this age, affect the ECP levels.     

Inhibition of the rat adrenal ornithine decarboxylase activity by immobilization stress and/or dexamethasone

The effects of immobilization stress and/or dexamethasone (DEX) on the adrenal ornithine decarboxylase (ODC) activities of sham-operated and adrenal-medulloectomized (enucleated) male Sprague-Dawley rats were investigated. On day 11 after surgery, rats were injected with saline or DEX (1 mg/kg), 3 h before the time of sacrifice (0600 h or 1800 h). Four groups, from sham-operated and enucleated rats (ENU) treated with saline or DEX were subjected to immobilization stress for 1 h prior to sacrifice. Groups of rats from stress-sham-DEX, non stress-sham-DEX, stress-sham, non stress-sham, stress-ENU-DEX, non stress-ENU-DEX, stress-ENU, and non stress-ENU were sacrificed at 0600 h or 1800 h on day 11 after surgery. Adrenal glands were excised and later analyzed for ODC activities. Results indicated that DEX and/or immobilization stress inhibited ODC activities (p < 0.05) in normal and regenerating adrenal glands at 1800 h and ODC activity varies diurnally, the activity being greater at 1800 h than at 0600 hours (p < 0.001).     

Ether stress increases adrenomedullin gene expression and levels in the rat adrenal.

To study the contribution of adrenomedullin in the adrenal medulla in the stress response, we measured plasma and adrenal levels of adrenomedullin in sham-operated (intact) rats and in rats without adrenal medulla, with or without exposure to ether vapor for 15 min. Adrenomedullin levels decreased drastically after demedullation. Effect stress resulted in increased adrenomedullin levels in both adrenal and plasma in sham-operated rats, but not in demedullated rats. The responses of plasma adrenocorticotropin to stress were similar, but the elevations in plasma corticosterone levels were significantly less in demedullated rats. In the sham-operated rat, preproadrenomedullin mRNA levels were increased after stress, and this effect was not blocked by pretreatment with hexamethonium. We conclude that stress increases adrenomedullin synthesis and secretion from the adrenal medulla through a hexamethonium-insensitive mechanism, and that adrenomedullin release from the adrenal medulla may play a role in cortical steroidogenesis.     

Estrogen influences the effect of immobilization stress on immunoreactive beta-endorphin levels in the female rat pituitary

Immunoreactive beta-endorphin (IR-BE) levels in the plasma, anterior pituitary (AP), the neurointermediate lobe of the pituitary (NIL), and the hypothalamus were determined in castrated female rats and castrated female rats treated with estradiol benzoate (estrogen), after exposure to acute (once for 45 min) or chronic (45 min each day for 15 consecutive days) immobilization stress. Acute and chronic stress increased plasma levels of IR-BE to the same extent in castrated female rats and castrated female rats treated with estrogen. In castrated female rats, acute stress produced an increase in the concentration of IR-BE in the AP, which was attenuated by the administration of estrogen. Although IR-BE in the NIL was not influenced by acute stress in castrated animals, exposure to acute stress resulted in an elevation in IR-BE levels in the NIL of rats given estrogen. Chronic stress did not affect the concentration of IR-BE in the AP of castrated females or castrated females treated with estrogen. Chronic stress did, however, increase the concentration of IR-BE in the NIL of castrated animals. This affect of stress on IR-BE levels in the NIL was potentiated by estrogen administration. IR-BE levels in the hypothalamus were reduced by estrogen and were not affected by acute or chronic stress, regardless of the gonadal steroid environment. As determined by column chromatography, administration of estrogen, as well as subjection to chronic stress, promoted the processing of the proopiomelanocortin precursor to form beta-lipotropin rather than beta-endorphin in the AP. By these methods, the only immunoreactivity detected in the NIL and the hypothalamus was beta-endorphin. These data indicate that IR-BE levels in the plasma, the AP, and the NIL of female rats are affected by immobilization stress and that estrogen modulates the effects of acute immobilization stress on IR-BE levels in the AP and the NIL and the effects of chronic immobilization stress on the levels of IR-BE in the NIL.     

Effect of substance P on catecholamine levels in the hypothalamus and midbrain in the rat during immobilization stress

Single intraperitoneal injection of substance P in a dose of 125 mcg/kg induced a significant increase of noradrenaline and dopamine level in the hypothalamus and the midbrain of intact rats. Under conditions of immobilization emotional stress, the substance P eliminated the stress induced decrease of hypothalamic noradrenaline and increase of its level in the midbrain; in other words the substance P normalized the noradrenaline level. Modulatory effect of a single injection of the substance P had a long-term character and was synchronized with an earlier found increase of resistability of rats to chronic emotional stress.