Effect of beta-endorphin on catecholamine levels in the rat hypothalamus and cerebral cortex

The present paper deals with the effect of beta-endorphin on catecholamine content in the hypothalamus and cerebral cortex of male rats. beta-endorphin was found to decrease catecholamine content in the rat brain, with the degree of reduction depending on the brain topography and the time following the peptide administration. 5 min later no changes in catecholamine content were observed either in the hypothalamus or in the cerebral cortex. 20 min later beta-endorphin induced a statistically significant fall of catecholamine concentration in the hypothalamus. A tendency towards its decrease was also observed in the cerebral cortex. 60 min later beta-endorphin produced an insignificant decrease in catecholamine level in both brain areas under study. It may be therefore suggested that beta-endorphin-induced decrease of catecholamine content in the hypothalamus and cerebral cortex represents one of the mechanisms underlying beta-endorphin stimulating action on a number of trophic functions of the hypophysis.     

Changes in the substance P content of the blood and hypothalamus during experimental emotional stress

A study was made of the content of substance P in the blood and hypothalamus of Wistar rat brain in acute and chronic emotional stress and after intraperitoneal injection of substance P in a dose of 250 mg/kg. A possibility was demonstrated of inducing long-term changes in the content of substance P in the hypothalamus after a single injection. Exposure to a single 24-hour stress was followed by an increase in the substance P content in the hypothalamus.     

Coexistence of substance P and neurotensin-like peptides in single neurons of the rat hypothalamus

The coexistence of substance P with neurotensin-like immunoreactivity in certain neurons of the hypothalamus were demonstrated by the double immunofluorescence method. Substance P and neurotensin-like immunoreactivity coexisted within single neurons of some hypothalamic areas such as the medial preoptic area, perifornical area, anterior hypothalamic area, lateral hypothalamic area, periventricular nucleus and posterior hypothalamic nucleus, although they did not coexist in the majority of immunoreactive cells.     

Effect of albumin on the Na, K-ATPase activity in the rat erythrocytes during immobilization stress

Immobilisation stress (IMS) led to a 42% decrease in erythrocyte Na, K-ATPase activity in rats. Pre-treatment of the "stressed" erythrocytes with human serum albumin (HSA) and 1-day exposition of the HSA prior to the IMS led to stabilising of enzyme activity at the control level. Absence of inhibiting effect of non-protein supernatants of the blood plasma of stressed rats on enzyme activity of normal erythrocytes was shown in presence of the HSA both in vitro and in vivo. The mechanism of the HSA protective effect on the Na,K-ATPase activity of erythrocytes in the IMS, is discussed.     

Effects of hypophysectomy and immobilization stress on S-adenosylmethionine levels in rat adrenal glands

Rat adrenal S-adenosylmethionine (SAM) levels and phenylethanolamine-N-methyltransferase (PNMT) activity were measured under conditions of hypophysectomy and stress. A new dual-label radioenzymatic assay for SAM is presented which eliminates problems found to exist with previous methods. Strain-specific differences in both PNMT and SAM were found, as well as sex differences in SAM levels. Immobilization stress resulted in an increase in adrenal SAM and PNMT activity, while hypophysectomy decreased both. The distribution of SAM between cortex and medulla did not change with either hypophysectomy or stress. Hypophysectomized Fisher rats were found to be capable of increasing PNMT activity in the absence of increased SAM levels.     

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.     

Effect of ionol on the stomach lesion in rats during immobilization stress

Intragastric administration of the antioxidant ionol (50 mg/kg/a day) for 7 days did not prevent the formation of ulcers or massive hemorrhages to the gastric mucosa in immobilized animals, increased the number of petechiae and lowered that of erosions. In this case the parietal pH increased in the stomach and dropped in the remaining divisions of the alimentary tract. The combined action of stress and ionol brought about marked hypocoagulation. Ionol exerted a protective action on the stress-induced activation of lipid peroxidation in the stomach but did not produce any such effect on the liver.     

Effects of substance P on the long-term regulation of tyrosine hydroxylase activity and catecholamine levels in cultured adrenal chromaffin cells

Acetylcholine, released from splanchnic nerve terminals innervating adrenal chromaffin cells, is known to increase synthesis of adrenal tyrosine hydroxylase, the rate-limiting enzyme in catecholamine synthesis. The neuropeptide substance P is also present in the splanchnic nerve innervating the adrenal medulla, and this study examined whether substance P has any long-term effects on tyrosine hydroxylase activity and catecholamine levels in cultures of adult bovine adrenal chromaffin cells. When cultures were incubated for 3 days with substance P and carbachol, a cholinergic agonist, substance P (10(-6) M, and greater) completely inhibited the increase in tyrosine hydroxylase activity normally induced by carbachol. Long-term stimulation with carbachol also depleted endogenous catecholamines from the cells and substance P prevented this carbachol-induced depletion of catecholamine content. Substance P by itself, in the absence of carbachol, had only a slight effect on tyrosine hydroxylase activity. 8-Bromoadenosine 3':5'-cyclic monophosphate, an analogue of adenosine 3':5'-cyclic monophosphate, also increases tyrosine hydroxylase activity in chromaffin cells; however, substance P had no effect on the increase in tyrosine hydroxylase activity induced by this analogue. These results indicate that substance P's effects are relatively specific for the carbachol-induced increased in tyrosine hydroxylase activity and that the primary site of action of substance P is not a site common to the mechanism of tyrosine hydroxylase induction by carbachol and 8-bromoadenosine 3':5'-cyclic monophosphate.(ABSTRACT TRUNCATED AT 250 WORDS)     

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 the N-terminal fragment of substance P1-4 on the somatic manifestations of the stress reaction and on the catecholamine content of the adrenals in rats

The antistress affect of the substance P1-4 N-terminal fragment (ARG-Pro-Lys-Pro, 100 mkg/kg, i.p.) has been studied on the model of immobilization stress in rats. It was ascertained that the preparation of protective effect is revealed to the greatest extent on the exhaustion stage (48 h of immobilization), which served to prevent the lymphoid organs mass reduction and ulcer development and also accounted for greater adrenaline and noradrenaline content preservation in tissues and chromaffin cells of adrenal glands in stressed animals.     

Ethanol-related changes in substance P in the hypothalamus and anterior pituitary.

The effect of the administration of a rabbit anti-substance P serum (ASPS) was studied in rats receiving an acute injection of ethanol. ASPS lowered serum prolactin levels and reduced the hyperprolactinemia induced by ethanol. ASPS also decreased LH serum levels in both saline- and ethanol-treated rats. The effect of ethanol on the concentration of substance P-like immunoreactivity (SP-LI) in the mediobasal hypothalamus and the anterior pituitary gland was also investigated. Ethanol reduced SP-LI in the mediobasal hypothalamus but increased it in the anterior pituitary gland. The presence of ethanol (50 mM) did not affect the K(+)-evoked release of SP-LI from either mediobasal hypothalamus or anterior pituitary gland, though it increased the SP-LI concentration remaining in this gland. These results indicate that ethanol increases the content of SP-LI in the anterior pituitary gland and suggest that substance P may be involved in the prolactin release induced by the acute administration of ethanol.     

Effect of immobilization stress on neuropeptides and their receptors in rat central nervous system

The effect of immobilization stress (IM-stress) on the concentration and the receptor binding of substance P (SP), methionine-enkephalin (ME) and thyrotropin-releasing hormone (TRH) was determined in eight brain regions and the spinal cord. The concentration of SP was decreased in the septum, striatum and hippocampus, and SP receptor binding was decreased in the septum, amygdala + pyriform cortex and hypothalamus. Scatchard analysis indicated that the decrease in the SP binding is mainly due to the decrease in the number of receptors. The concentration of ME was not changed, but ME receptor binding was decreased in the septum. The concentration of TRH was decreased in the frontal cortex, septum, amygdala + pyriform cortex and pons + medulla oblongata, but increased in the spinal cord. TRH receptor binding was decreased in the septum, amygdala + pyriform cortex and hypothalamus. Scatchard analysis indicated that the decrease in TRH binding is due to the decrease in the number of receptors. These results show that IM-stress affects the neuropeptide receptor as well as neuropeptide concentration, and that the septum is a very important region under IM-stress.     

Effect of substance P on thyrotropin secretion from the pituitary gland in the rat

The role of substance P (SP) on thyrotropin (TSH) secretion was investigated in ovariectomized (OVX) female, estrogen-primed OVX, and normal male rats. Third ventricular administration of SP induced a significant increase in plasma TSH levels when compared to control animals in E-primed OVX rats (p less than 0.001). The plasma TSH levels increased in a dose-related manner and reached maximum levels at 10 min after injection. In contrast, intraventricularly injected SP failed to alter plasma TSH levels in both OVX rats and normal male rats. Intravenous administration of SP dramatically stimulated TSH release in E-primed OVX rats (p less than 0.001), whereas SP had no effect on the release of TSH when injected in OVX rats and normal male rats. To investigate any direct action of SP on TSH release from the anterior pituitary gland, synthetic SP was incubated with dispersed anterior pituitary cells harvested from E-primed OVX rats and normal male rats. SP, in the dose range between 10(-8) M and 10(-6) M, failed to alter the release of TSH into the culture medium in vitro. These findings indicate that SP has a stimulatory role in the control of TSH release by an action on the hypothalamus but only in estrogen-primed rats.     

Effect of immobilization stress on serotonin content and turnover in regions of the rat brain.

Sprague-Dawley rats were stressed by immobilization from 30 to 300 minutes and the effects on serotonin (5-HT) and 5-hydroxy-indoleacetic acid (5-HIAA) content were determined in the cerebral cortex, diencephalon, striatum, hippocampus and the brain stem. In a subsequent study 5-HT turnover rate in these brain areas was estimated by measuring 5-HIAA accumulation 0, 30, 60 and 90 minutes after probenecid. The content of 5-HIAA and the turnover rate of 5-HT were significantly increased in the cerebral cortex shortly after the onset of immobilization. The content of 5-HIAA in the brainstem was increased by immobilization although 5-HT turnover rate was not increased. Short term increases in 5-HIAA content were observed in the striatum and hippocampus. However, no significant changes in 5-HT turnover rate were observed in either of these 2 brain areas. Immobilization did not affect 5-HIAA content or 5-HT turnover in the diencephalon. The sensitivity of the serotonergic system in the cerebral cortex to immobilization stress suggests that this brain region could be used in future studies of the interrelationships between stress and the brain serotonergic system.