beta-Endorphin is present in high concentration in the hypophysial portal vessels of rats

Neuroendocrine Regulation of Growth Hormone Secretion

This article reviews the main findings that emerged in the intervening years since the previous volume on hormonal control of growth in the section on the endocrine system of the Handbook of Physiology concerning the intra- and extrahypothalamic neuronal networks connecting growth hormone releasing hormone (GHRH) and somatostatin hypophysiotropic neurons and the integration between regulators of food intake/metabolism and GH release. Among these findings, the discovery of ghrelin still raises many unanswered questions. One important event was the application of deconvolution analysis to the pulsatile patterns of GH secretion in different mammalian species, including Man, according to gender, hormonal environment and ageing. Concerning this last phenomenon, a great body of evidence now supports the role of an attenuation of the GHRH/GH/Insulin-like growth factor-1 (IGF-1) axis in the control of mammalian aging.

Characterization of opioid peptides and opioid receptors in the brain of jerboa (Jaculus orientalis), a hibernating rodent

The present study was undertaken to investigate the biochemical characteristics of the opioid receptors and opioid peptides in the jerboa (Jaculus orientalis) brain, a subdesert rodent of Morocco. We have demonstrated the presence of delta, mu, and kappa sites in the jerboa brain. The endogenous opioid peptides methionine-enkephalin, beta-endorphin, and dynorphin were evaluated in different physiological states of the animal (active and hibernating). The circulating methionine-enkephalin in different states of the animal (active, hibernating, exposure to cold conditions, and fasting) was evaluated in the plasma. Our results indicate that the hibernating state the opioid receptors level decreased, whereas the concentration of opioid peptides increased. These findings suggest that both opioid receptors and opioid peptides could be involved in the adaptation of the jerboa to survive under thermal stress.

beta-Endorphin and blood pressure in multiple trauma victims

In addition to pain and stress, endogenous opiates and in particular beta-endorphin could be involved in the modulation of cardiovascular parameters. Several studies have thus shown increases in plasma beta-endorphin levels in the course of septic or hypovolemic shock. Our study involving 44 multiple trauma patients indicates that even in the absence of any hemodynamic disorders, there is a correlation between systolic blood pressure and plasma beta-endorphins. These results argue in favor of the existence of feedback between systolic blood pressure and plasma beta-endorphins.

Beta-endorphin in multiple trauma victims

BACKGROUND

In animals and in humans, stress is known to be accompanied by increased beta-endorphin secretion.

METHODS

Blood samples from 47 patients in a state of stress induced by multiple trauma were assessed for beta-endorphin concentration by radioimmunoassays.

RESULTS

We show that there is a clearcut correlation (Spearman's R = 0.72, P = 2.1 x 10(-6) between the level of consciousness evaluated with the Glasgow score and levels of circulating beta-endorphin. In addition, beta-endorphin levels are higher than normal in patients with Glasgow coma with scores higher than seven, and lower than normal in those with Glasgow coma scores of seven or less. Finally, in the complete absence of stress (shown by the lack of brain activity in six irreversible coma patients), there is a severe drop in the level of circulating beta-endorphin.

CONCLUSION

beta-endorphin serum levels correlate with the state of consciousness of multiple trauma patients.

Immunoreactive dynorphin A-like material in extracted human hypothalamic-hypophysial plasma

Immunoreactive dynorphin A-like material (ir-dyn A) in human plasma was measured by a validated radioimmunoassay. In peripheral plasma extracts mean concentrations between 20 and 40 fmol/ml were determined in volunteers and in patients with pituitary adenomas. In this latter group superimposable levels were detected three days before and during transsphenoidal microsurgery. Interestingly, ir-dyn A levels evaluated in extracts of hypothalamic-hypophysial plasma obtained during surgery, just after tumor removal, were 4-5 times higher than in peripheral plasma. Reverse-phase high performance liquid chromatography (rp-HPLC) of extracts of peripheral plasma samples revealed two immunoreactive peaks. The major form had the same retention time of dyn A-(1-32); whereas a second, more lipophilic, peak eluted later and was not further characterized. In contrast, rp-HPLC analysis of extracts of plasma collected from the suprapituitary region displayed only one peak eluting in the position of synthetic dyn A-(1-17). The presence of dyn-related peptides in hypothalamic-hypophysial plasma supports the hypothesis that they may play a part in the regulation of hypothalamic and/or pituitary functions in humans.

Age-related changes in cortico-releasing factor, somatostatin, neuropeptide Y, methionine enkephalin and β-endorphin in specific rat brain areas

We investigated the age-related changes in the tissular protein, cortico-releasing factor (CRF), somatostatin (SOM), neuropeptide Y(NPY), methionine enkephalin (M-ENK) and beta-endorphin (beta-END) levels in frontal cortex, hippocampus, striatum and hypothalamus of young (4-month-old), mature (18-month-old) and senescent (26-month-old) Wistar male rats, bred in a specific pathogen free environment. Between the age of 4 and 18 months, the tissular protein levels increased in all 4 structures studied. The CRF and SOM levels increased in the hippocampus, while the NPY levels decreased. During this time, the NPY content increased in the striatum, whereas the SOM and M-Enk striatal levels decreased. Concomitantly, the NPY and beta-End levels decreased in the hypothalamus. Interestingly, no significant variations were found to occur in the frontal cortex whatever the neuropeptide studied. Between the age of 18 and 26 months, no significant changes in the tissular protein levels were detected, except in the hippocampus. The changes in the neuropeptide concentrations observed during this period depended on the neuropeptide and the brain structure studied. The CRF and beta-End levels decreased in the frontal cortex and the hypothalamus, respectively. The NPY peptidergic systems seem to be preferentially affected by aging processes since 3 out of the 4 structures studied--the frontal cortex, the striatum and the hypothalamus--showed a decrease in their tissular NPY content. During the same period, none of the 5 neuropeptides studied were affected in the hippocampus.

Met-enkephalin and beta-endorphin are not involved in the analgesic action of transcutaneous vibratory stimulation

Although the analgesic effects observed during the application of vibration may be attributable to neuronal inhibition of the pain pathways, this does not account for the fact that pain relief sometimes persists for a long time after the end of vibration treatment. Two experiments were carried out in order to determine whether pain relief might involve the release of endogenous opioids. In the first experiment, we studied the effects of injecting either a morphine antagonist, naloxone (0.4 mg), or a placebo, on the analgesia resulting from vibratory stimulation in 12 patients suffering from acute or chronic pain. In the second experiment, the Met-enkephalin and beta-endorphin levels were determined before and after 30 min vibratory stimulation in the cerebrospinal fluid of 8 patients suffering from chronic pain and 1 control subject, all of whom had been fitted with a ventriculo-peritoneal drain which made it possible to collect samples of cerebrospinal fluid painlessly. The results of these experiments show, on the one hand, that the effects of naloxone on the vibration-induced analgesia did not differ from those of the placebo and, on the other hand, that no increase in the Met-enkephalin or beta-endorphin levels occurred concomitantly with pain relief. It will therefore be necessary to investigate other mechanisms as possible means of explaining the post-vibratory analgesic effects.

Vasopressin and oxytocin levels in human neonates. Relationships with the evolution of labour and beta-endorphins

In order to find out whether arterial and venous cord levels of vasopressin (VP) and oxytocin (OT) might be linked to one or more obstetric parameters and to beta-endorphin (BEP) secretion, 42 successively delivered neonates were studied. Arterial and venous cord blood levels of these peptides were not statistically different whenever the neonates were born vaginally with or without foetal distress, after induction of labour by oxytocic drugs, or by elective caesarean section. BEP levels in cord and maternal blood do not seem to be linked with AVP or OT. The results of the group of infants born after uncomplicated vaginal delivery analyzed with regard to obstetric parameters, led to the following conclusions: arterial cord VP correlated with venous cord VP, with arterial cord OT and with the duration of membrane rupture; arterial cord OT correlated with venous cord OT and with the time taken by the cervix to dilate from 5 to 10 cm, suggesting that the foetal pituitary gland is sensitive to the evolution of labour.

Light and electron microscopic immunocytochemistry of beta-endorphin/beta-LPH-like immunoreactive neurons in the arcuate nucleus and surrounding areas of the rat hypothalamus

beta-Endorphin/beta-LPH-like immunoreactive neurons in the hypothalamic arcuate nucleus and its surrounding areas were visualized by light and electron microscopic immunocytochemistry. Immunoreactive processes were found in the vicinity of the pia mater, in the lateral part of the external layer of the median eminence and near the lateral wall of the third ventricle. Neuronal perikarya contained immunoreactive dense granules as well as developed cell organellae. They received neuronal inputs from other neurons through axoplasmic and axodendritic synapses. Immunoreactive neuronal processes containing dense granules and mitochondria were found as preterminal elements on non-immunoreactive neuronal soma and dendrites. Immunoreactive processes also make intimate contact with capillaries in the arcuate nucleus near the median eminence.

Characterization of enkephalins and related peptides in rat hypophysial portal blood

Rat hypophysial portal blood, collected from the pituitary stalk, was extracted and enkephalins were assayed by different RIA. Met-Enk-IR and Leu-Enk-IR levels were 1635 +/- 470 pg/ml and 125 +/- 50 pg/ml, respectively. Using HPLC characterization, the presence in portal blood of Met-Enk, Leu-Enk, proenkephalins fragments and dynorphin1-17 has been demonstrated. An unidentified Met-Enk-IR peptide has also been found.

Corticosterone: a critical factor in an opioid form of stress-induced analgesia

The finding that some opioid-mediated forms of stress-induced analgesia are antagonized by hypophysectomy and dexamethasone has led to the suggestion that beta-endorphin, released from the pituitary, may mediate these analgesic reactions. "Long-term analgesia" (an opioid-mediated form of stress-induced analgesia), which is blocked by dexamethasone and hypophysectomy, was also blocked by adrenalectomy and reinstated with corticosterone therapy. Corticosterone is proposed to play a permissive role in long-term analgesia and to be a critical hormone mediating this phenomenon.

Clonidine releases immunoreactive beta-endorphin from rat para distalis

Clonidine (10(-6), 10(-7) M) evokes the release of beta endorphin-like immunoreactivity (beta-END-LI) from cell cultures of anterior (pars distalis) but not neurointermediate (pars nervosa plus pars intermedia) lobe of the rat pituitary. This drug-induced secretion is blocked by alpha-adrenergic (phenoxybenzamine, yohimbine; 10(-5) M) but not beta-adrenergic (propranolol, 10(-5) M) antagonism. Gel filtration (Sephadex G-50) reveals that beta-END-LI released from anterior lobe cells consists of 2 major forms of immunoreactivity which coelute with beta-lipotropin or beta-endorphin standards. Conversely, beta-END-LI released spontaneously from neurointermediate lobe cells almost entirely corresponds to beta-endorphin. The data show that alpha-adrenergic stimulation by clonidine releases beta-END-LI selectively from cells of anterior but not neurointermediate lobe in vitro and suggests that the clonidine-induced release of pituitary beta-END-LI we have observed in vivo occurs in part by direct action on the corticotrophs of the pars distalis.

Release of beta-lipotropin and beta-endorphin from rat hypothalami in vitro

Hypothalamic tissue extracts of rats were chromatographed and beta-endorphin immunoreactivity (beta-Endi) was measured. The two major peaks of beta-Endi co-eluted with beta-lipotropin (beta-LPH) and beta-End respectively. Hypophysectomy caused a local decrease of beta-LPH and beta-End concentrations in the mediobasal hypothalamus. During superfusion of hypothalamic tissue blocks in vitro, membrane depolarization by electric stimulation or 45 mM k+ induced a Ca2+-dependent release of both beta-LPH and beta-End.