The elevation of immunoreactive beta-endorphin in old male rats is related to alterations in dopamine and serotonin.

The concentration of immunoreactive beta-endorphin (IR-BE) in the anterior pituitary (AP) and the neurointermediate lobe of the pituitary (NIL) was elevated in old as compared to young male rats. Treatment of old male rats with the dopamine precursor, L-DOPA, did not affect the concentration of IR-BE in the AP and produced a significant reduction in the concentration of IR-BE in the NIL. By contrast, administration of the serotonergic neurotoxin, p-CPA, significantly diminished the concentration of IR-BE in the AP of old male rats, while the concentration of IR-BE in the NIL remained unchanged. Hypothalamic IR-BE was decreased in old male rats and was not influenced by administration of L-DOPA or p-CPA. Chromatographic analysis indicated that in the AP of old animals the amount of beta-endorphin relative to beta-lipotropin was increased and was diminished slightly by the treatments. Alterations in IR-BE in the NIL and hypothalamus were represented solely by beta-endorphin. These data suggest that in old male rats, a decrease in dopaminergic activity contributes to the increase in IR-BE levels in the NIL, and an increase in serotonergic function, at least in part, is responsible for the elevation in the level of IR-BE in the AP.

Localization of beta-endorphin in the rat heart and modulation by testosterone.

Chromatographic analysis and radioimmunoassay were used to identify and quantitate beta-endorphin (BE) and beta-lipotropin (B-LPH) in the hearts (devoid of major blood vessels and atria) from intact male rats, castrated male rats, and castrated male rats treated with testosterone propionate (TP). BE and B-LPH in the plasma of these animals were also identified and measured. In comparison to intact animals, castration resulted in a significant elevation in the content of BE in the heart which was reversed by the administration of TP. The content of B-LPH in the heart was not affected by castration or castration in combination with TP. The ratio of BE to B-LPH in the heart of castrated animals was significantly elevated as compared with intact controls. Treatment of castrates with TP returned the ratio of BE to B-LPH to that observed in intact animals. The concentration of BE in the plasma was greater in castrated rats and castrated rats given TP than in intact males, whereas the concentration of B-LPH was diminished in castrated animals given TP. The ratio of BE to B-LPH was greater in castrated animals treated with TP than in castrated and intact animals. The content of BE and B-LPH, as well as the ratios of the two peptides, varied independently in the cardiac tissue and plasma. The present findings indicated that (i) BE and B-LPH are present in cardiac tissue, (ii) the amount of BE and B-LPH in the heart and the ratio of BE to B-LPH appear to be modulated by TP, and (iii) BE and B-LPH detected in the heart was not simply a reflection of the presence of these peptides in the plasma.

The response to analgesia testing is affected by gonadal steroids in the rat.

The effect of gonadal steroids on the response to analgesia testing was determined in castrated male and female rats and castrated male and female rats treated with testosterone propionate (TP) and estradiol benzoate (EB), respectively. The time to respond to a noxious somatic stimulus in the form of heat was assessed using the tail withdrawal test (tail withdrawal from hot water) and hot plate test (the time to paw lick or jump). In male rats, castration resulted in a significant reduction of the reaction time for tail withdrawal. This effect was reversed by treatment with TP. The time to paw lick or jump in male rats was also diminished by castration. Treatment with TP resulted in a partial reversal of the effect of castration on this response. In castrated female rats, the time required for tail withdrawal was decreased by castration and increased by treatment with EB. The reaction time to the hot plate in female rats was diminished by castration and further reduced by EB administration. These data indicate that gonadal steroids influence the response to a noxious heat stimulus in male and female rats and that the effect may vary according to sex and the way in which the stimulus is applied.

Eight weeks of streptozotocin-induced diabetes influences the effects of cold stress on immunoreactive beta-endorphin levels in female rats.

Cold stress produced a significant reduction in the concentration of immunoreactive beta-endorphin (IR-BE) in the anterior pituitary of diabetic female rats. IR-BE levels in the anterior pituitary of non-diabetic female rats were not affected by exposure to the cold. The effects of cold stress on IR-BE levels in the neurointermediate lobe of the pituitary and the hypothalamus were attenuated in diabetic as compared to control animals. These data suggest that in female rats, eight weeks of diabetes produced alterations in the neuroendocrine mechanisms which modulate IR-BE levels in the pituitary and hypothalamus in response to cold stress.

The effects of immobilization stress on beta-endorphin levels are modulated by testosterone.

Immunoreactive beta-endorphin (IR-BE) levels were determined in the anterior pituitary (AP), neurointermediate lobe of the pituitary (NIL) and the hypothalamus of castrated male rats and castrated male rats treated with testosterone proprionate (TP), subsequent to exposure to acute (once for 45 min) or chronic (45 min each day for 15 consecutive days) immobilization stress. Acute stress resulted in a reduction in the concentration of IR-BE in the AP of castrated male rats, which was potentiated by TP. The concentration of IR-BE in the NIL was elevated by acute stress in castrated male rats and was not affected by acute stress in castrated male rats administered TP. Exposure to chronic immobilization stress elevated the concentration of IR-BE in the AP of castrated animals and not animals treated with TP. The concentration of IR-BE in the NIL of castrated animals was not altered by chronic immobilization. Chronic stress did result in a significant rise in the level of IR-BE in the NIL of castrated male rats given TP. Hypothlamic IR-BE levels in castrated male rats were reduced by TP and were not influenced by acute or chronic stress. Chromatographic analysis indicated that acute and chronic stress promoted the accumulation of beta-lipotropin rather than beta-endorphin in the AP. This effect was attenuated by TP. Beta-endorphin was the only form of immunoreactivity detected in the NIL and hypothalamus.(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.

Cocaine influences beta-endorphin levels and release.

Immunoreactive beta-endorphin (IR-BE) was measured in the plasma, anterior pituitary (AP), neurointermediate lobe of the pituitary (NIL) and hypothalamus of male rats treated chronically (once daily for ten days) with cocaine. Cocaine produced a consistent elevation in the concentration of IR-BE in the plasma, the AP and the NIL at doses of 2.5 - 20 mg/kg/ip. The release of IR-BE from the AP and the NIL was determined in vitro and was found to be increased by treatment with cocaine. Chronic administration of cocaine did not affect the concentration of IR-BE in the hypothalamus. Chromatographic analysis revealed that cocaine produced a slight decrease in the amount of beta-endorphin relative to beta-lipotropin in the AP. Beta-endorphin was the major form of IR-BE released by the AP and the sole constituent and secretory product of the NIL. These data indicate that chronic administration of cocaine stimulates the endogenous opiate system, elevating the levels of IR-BE in the pituitary and promoting beta-endorphin release.

Administration of gonadal steroids to neonatal rats affects beta-endorphin levels in the adult.

Administration of gonadal steroids to neonatal rats has a profound effect on the function of the neuroendocrine system in the adult animal. Considering that gonadal steroids modulate hypothalamic and pituitary levels of beta-endorphin (BE) in adult male and female rats, the effects of neonatal gonadal steroid treatment on BE levels in the adult animal were investigated. Neonatal male rats were administered testosterone and neonatal female rats were treated with estrogen. Matched control littermates received vehicle. All animals were sacrificed at 90 days of age. Neonatal gonadal steroid treatment did not affect the level of immunoreactive beta-endorphin (IR-BE) in the anterior pituitary (AP) of male rats but did result in a significant increase in IR-BE in the AP of female rats. Neonatal administration of gonadal steroids produced a significant decrease in IR-BE in the neurointermediate lobe of the pituitary (NIL) of both male and female rats, with the magnitude of the decrease being greater in the NIL of the female rats. IR-BE levels in the hypothalamus of male or female rats were not altered by the treatments. Column chromatography indicated that the increase in IR-BE in the AP represented a proportional increase in BE and beta-lipotropin, while the reduction in IR-BE in the NIL of the treated rats represented a reduction in BE. These findings suggest that gonadal steroids may influence the development of the neurotransmitter systems which regulate BE levels in the adult pituitary, the development of the biosynthetic mechanisms of the adult pituitary, or both.

Plasma levels of beta-endorphin in young and aged human males during the morning hours.

Age-related alterations in plasma levels of beta-endorphin (BE) were investigated in young and aged human males. This was accomplished by obtaining repeated measurements of BE levels in the plasma of young and aged human male subjects during the morning hours, when a diurnal elevation of BE in the plasma is reported to occur. BE was extracted from the plasma and measured by radioimmunoassay. No differences were found in plasma levels of BE between young and elderly males at any time during the time period studied. In addition, the mean level of BE in the plasma during the entire sampling period did not differ between the two age groups. These data suggest that in human males, the levels of BE in the plasma during the morning hours are not modified by aging.

Streptozocin diabetes alters immunoreactive beta-endorphin levels and pain perception after 8 wk in female rats.

Plasma, pituitary, and hypothalamic levels of the endogenous opioid peptide beta-endorphin were measured by radioimmunoassay and column chromatography in female rats 8 wk after the induction of diabetes with streptozocin (STZ) and in control female rats. In addition, pain perception was determined by measuring the latency to paw lick or jump after being placed on a hot plate. Plasma levels of immunoreactive beta-endorphin (IR-BE) were significantly reduced in STZ-induced diabetic female rats, as were the content and concentration of IR-BE in the neurointermediate lobe of the pituitary (NIL) and the content of IR-BE in the hypothalamus. The concentration but not the content of IR-BE in the anterior pituitary (AP) of the STZ-induced diabetic rats was increased significantly. Streptozocin-induced diabetes also resulted in a significant reduction in the total protein content of the AP, NIL, and hypothalamus. Column chromatography indicated that the decrease in IR-BE in the plasma, NIL, and hypothalamus represented a decrease in beta-endorphin, whereas the increase in IR-BE in the AP represented an increase in both beta-endorphin and beta-lipotropin. Diabetic animals consistently showed decreased latencies to paw lick or jump when subjected to hot-plate testing after 7 wk. These findings suggest that in female rats, central and peripheral endogenous opiate levels and tolerance to nociceptive thermal stimulation were diminished by 8 wk of chemically induced diabetes.

Neurotransmitters and estrogen interact to affect beta-endorphin levels in castrated female rats.

The possibility of an interaction between neurotransmitter systems and estrogen in affecting levels of immunoreactive beta-endorphin (IR-BE) in the anterior pituitary (AP), the neurointermediate lobe of the pituitary (NIL) and the hypothalamus was investigated in ovariectomized (OVX) female rats. Chronic administration of the dopamine antagonist, haloperidol (HALO), had no effect on IR-BE levels in the AP. By contrast, the content of IR-BE in the NIL was increased and the content of IR-BE in the hypothalamus was decreased by HALO. Chronic treatment with estradiol benzoate (EB) produced a decrease in IR-BE in all three tissues. The effect of EB on IR-BE levels in the AP and NIL was reversed by administration of HALO, while EB and HALO appeared to act independently on the hypothalamus. Gel chromatography indicated that alterations in IR-BE in the AP corresponded to similar changes in beta-endorphin (BE) and beta-lipotropin (LPH) and that BE alone comprised the immunoreactivity detected in the NIL and hypothalamus regardless of treatment. Chronic treatment with the alpha-adrenergic agonist, clonidine (CLON), increased, whereas treatment with EB decreased, IR-BE levels in the AP, NIL and hypothalamus. EB attenuated the effect of CLON on IR-BE levels in the AP and hypothalamus. Chronic treatment with CLON appeared to promote the formation of BE in the AP, whereas the proportions of BE and LPH were similar in the AP of controls and animals treated with EB or EB and CLON. BE alone was detected in the NIL and hypothalamus of treated and control animals.(ABSTRACT TRUNCATED AT 250 WORDS)