Hormonal and metabolic responses to an enkephalin analogue in normal man

Exogenous Opioids and the Human Endocrine System: An Endocrine Society Scientific Statement

The use and misuse of opioids are a growing global problem. Although the effects of these drugs on the human endocrine system have been studied for decades, attention on their related clinical consequences, particularly on the hypothalamic-pituitary system and bone health, has intensified over recent years. This Statement appraises research data related to the impact of opioids on the gonadal and adrenal function. Whereas hypogonadism is well recognized as a side effect of opioids, the significance of their inhibitory actions on the hypothalamic-pituitary-adrenal system and the occurrence of clinically relevant adrenal insufficiency is not fully elucidated. The often-inconsistent results of studies investigating how opioids affect the secretion of GH, prolactin, arginine vasopressin, and oxytocin are assessed. The accumulating evidence of opioid actions on bone metabolism and their negative sequelae on bone mineral density and risk of fracture are also reviewed. In each section, available data on diagnostic and management approaches for opioid endocrine sequelae are described. This Statement highlights a plethora of gaps in research associated with the effects and clinical consequences of opioids on the endocrine system. It is anticipated that addressing these gaps will improve the care of people using or misusing opioids worldwide. The Statement is not intended to serve as a guideline or dictate treatment decisions.

[Opioid-induced adrenal insufficiency: Case report and synthesis of the literature]

INTRODUCTION

Opioid therapy for pain relief is associated with several adverse effects. Herein, we report the potential consequences of opioid use on the adrenal function.

OBSERVATION

A 49-year-old woman with sickle cell anemia (Hemoglobin SS) was admitted for the treatment of a vaso-occlusive crisis. Morphine was used for pain management, provided by intravenous intermittent dosing (patient-controlled analgesia). She developed during the hospitalization low blood pressure, due to secondary adrenal insufficiency (cortisol 74 nmol/L; ACTH 2.9pmol/L). Pituitary gland was normal on brain magnetic resonance imaging and adrenal function recovered after morphine discontinuation.

CONCLUSION

Opioids suppress cortisol secretion, primarily mediated by direct negative effect on hypothalamus and pituitary gland. Further studies are needed to define the incidence and the clinical significance of opioid-induced adrenal insufficiency, as well as the need for hormone replacement.

The Influence of Endogenous Opioids on the Relationship between Testosterone and Romantic Bonding

The endogenous opioid system has received attention and extensive research for its effects on reward, pleasure, and pain. However, relative to other neurochemicals, such as oxytocin, vasopressin and dopamine, the function of opioids in regulating human attachment, sociosexuality, and other aspects of human sociality has not received much consideration. For example, nonapeptides (oxytocin and vasopressin) have been extensively studied in animals and humans for their possible roles in mother-offspring attachment, romantic attachment, fatherhood, and social cognition. Likewise, others have proposed models wherein oxytocin and vasopressin are moderators of the relationship between steroid hormones and human social behaviors. Recently, opioids have generated renewed interest in relation to social pain, and importantly, the brain opioid hypothesis of social attachment (BOTSA), which suggests that endogenous opioids are a key implementer in primate and human bonding, has received some support. Here we focus on romantic bonds by proposing that endogenous opioids are an important mechanism mediating reproductive trade-offs through their inhibitory effects on testosterone production.

Effect of the co-administration of glucose with morphine on glucoregulatory hormones and causing of diabetes mellitus in rats

BACKGROUND

Morphine is related to dysregulation of serum hormone levels. In addition, addict subjects interest to sugar intake. Therefore, this study investigated the effect of co-administration of glucose with Mo on the glucoregulatory hormones and causing of diabetes mellitus in rats.

MATERIALS AND METHODS

Male rats were randomly divided into four groups including, control, morphine, Morphine-Glucose and diabetes groups. Morphine was undergone through doses of 10, 20, 30, 40, 50, and 60 mg/kg, respectively on days 1, 2, 3, 4, 5, and 6. Then, dose of 60 mg/kg was used repeated for 20 extra days. The Morphine-Glucose group received the same doses of morphine plus 1 g/kg glucose per day. Diabetes was induced by intraperitoneal injection of 65 mg/kg streptozotocin. At the end of experiment, the serum insulin, glucagon, growth hormone (GH), cortisol, and glucose levels were measured. The homeostasis model assessment (HOMA) indexes concluding the HOMA-insulin resistance (HOMA-IR) and HOMA-β were evaluated.

RESULTS

Morphine insignificantly induced a hyperglycemia condition and insulin resistance. Whereas, the beta-cell functions significantly (P < 0.05) decreased only in morphine group. The co-administration of glucose slightly increased the GH, and increased insulin and cortisol levels significantly (P < 0.05 and P < 0.01; respectively) in the Morphine-Glucose group. Furthermore, the co-administration of glucose with morphine could nearly modulate the morphine effects on body weight, glucose, and glucagon levels.

CONCLUSION

It is probable that the co-administration of glucose with morphine modulate the serum glucose levels by stimulating the beta-cell functions and to increase insulin secretion.

The long-term impact of early life pain on adult responses to anxiety and stress: Historical perspectives and empirical evidence

Approximately 1 in 6 infants are born prematurely each year. Typically, these infants spend 25 days in the Neonatal Intensive Care Unit (NICU) where they experience 10-18 painful and inflammatory procedures each day. Remarkably, pre-emptive analgesics and/or anesthesia are administered less than 25% of the time. Unalleviated pain during the perinatal period is associated with permanent decreases in pain sensitivity, blunted cortisol responses and high rates of neuropsychiatric disorders. To date, the mechanism(s) by which these long-term changes in stress and pain behavior occur, and whether such alterations can be prevented by appropriate analgesia at the time of insult, remains unclear. Work in our lab using a rodent model of early life pain suggests that inflammatory pain experienced on the day of birth blunts adult responses to stress- and pain-provoking stimuli, and dysregulates the hypothalamic pituitary adrenal (HPA) axis in part through a permanent upregulation in central endogenous opioid tone. This review focuses on the long-term impact of neonatal inflammatory pain on adult anxiety- and stress-related responses, and underlying neuroanatomical changes in the context of endogenous pain control and the HPA axis. These two systems are in a state of exaggerated developmental plasticity early in postnatal life, and work in concert to respond to noxious or aversive stimuli. We present empirical evidence from animal and clinical studies, and discuss historical perspectives underlying the lack of analgesia/anesthetic use for early life pain in the modern NICU.

Neuroendocrine causes of amenorrhea--an update

CONTEXT

Secondary amenorrhea--the absence of menses for three consecutive cycles--affects approximately 3-4% of reproductive age women, and infertility--the failure to conceive after 12 months of regular intercourse--affects approximately 6-10%. Neuroendocrine causes of amenorrhea and infertility, including functional hypothalamic amenorrhea and hyperprolactinemia, constitute a majority of these cases.

OBJECTIVE

In this review, we discuss the physiologic, pathologic, and iatrogenic causes of amenorrhea and infertility arising from perturbations in the hypothalamic-pituitary-adrenal axis, including potential genetic causes. We focus extensively on the hormonal mechanisms involved in disrupting the hypothalamic-pituitary-ovarian axis.

CONCLUSIONS

A thorough understanding of the neuroendocrine causes of amenorrhea and infertility is critical for properly assessing patients presenting with these complaints. Prompt evaluation and treatment are essential to prevent loss of bone mass due to hypoestrogenemia and/or to achieve the time-sensitive treatment goal of conception.

[Physiopathological mechanism of hot flushes-perspiration induced by androgen deprivation in prostate carcinoma]

Hot flushes and perspiration are common problems during androgen deprivation therapy for prostate carcinoma, and largely contribute to worsen patient quality of life. Different hypotheses have been proposed to explain the underlying physiopathological mechanisms, though all are very complex, basically because of the multiple causal factors involved. The present review offers a pondered and updated perspective of the origin of hot flushes-perspiration in such patients. Negative feedback of the plasma sexual hormones upon the hypothalamic secretion of noradrenalin and serotonin appears to be the main cause. Likewise, the direct action of such mechanisms upon the LH-RH producing hypothalamic center located close to the thermoregulatory center, together with shortening of the thermoneutral interval, would also play a role. Improved understanding of the causal mechanism may help improve the treatment of such symptoms.

Report on a patient with watery diarrhoea syndrome caused by a pancreatic tumour containing neurotensin, enkephalin and calcitonin

A patient with water diarrhoea syndrome (WDS) is described. A pancreatic tumour was found containing many cells with immunoreactivity to enkephalin and neurotensin, a few with immunoreactivity to calcitonin but none to vasoactive intestinal peptide (VIP). High levels of calcitonin, neurotensin, VIP and pancreatic polypeptide (PP) were present in plasma as measured by radioimmunoassay. After removal of the tumour, the plasma levels of the first three peptides returned to normal and the WDS disappeared. On the other hand, plasma PP did not change. No specific symptoms could be attributed to the new spectrum of peptides found in the tumour. This is the first report of a pancreatic tumour containing high levels of neurotensin.

Molecular mechanisms involved in the hormonal prevention of aging in the rat

Previous data from our group have provided support for the role of GH, melatonin and estrogens in the prevention of aging of several physiological parameters from bone, liver metabolism, vascular activity, the central nervous system (CNS), the immune system and the skin. In the present work data on the molecular mechanisms involved are presented. A total of 140 male and female rats have been submitted to different treatments over 10 weeks, between 22 and 24 months of age. Males have been treated with GH and melatonin. Females were divided in two groups: intact and castrated at 12 months of age. The first group was treated with GH and melatonin and the second with the two latter compounds and additionally with estradiol and Phytosoya. Aging was associated with a reduction in the number of neurons of the hylus of the dentate gyrus of the hippocampus and with a reduction of neurogenesis. GH treatment increased the number of neurons but did not increase neurogenesis thus suggesting a reduction of apoptosis. This was supported by the reduction in nucleosomes and the increase in Bcl2 observed in cerebral homogenates together with an increase in sirtuin2 and a reduction of caspases 9 and 3. Melatonin, estrogen and Phytosoya treatments increased neurogenesis but did not enhance the total number of neurons. Aging induced a significant increase in mitochondrial nitric oxide in the hepatocytes, together with a reduction in the mitochondrial fraction content in cytochrome C and an increase of this compound in the cytosolic fraction. Reductions of glutathione peroxidase and glutathione S-transferase were also detected, thus indicating oxidative stress and possibly apoptosis. Treatment for 2.5 months of old rats with GH and melatonin were able to significantly and favourably affect age-induced deteriorations, thus reducing oxidative damage. Keratinocytes obtained from old rats in primary culture showed an increase in lipoperoxides, caspases 8 and 3 as well as a reduction in Bcl2 leading to enhanced number of nucleosomes that was also restored upon treatments with GH and melatonin. In conclusion, GH and melatonin treatment seem to have beneficial effects against age-induced damage in the CNS the liver and the skin through molecular mechanisms reducing oxidative stress and apoptosis.

Absence of an opioid stimulatory tone on growth hormone secretion in women with microprolactinoma

INTRODUCTION

Literature data suggest that prolactinoma is a tumor with a complex pathogenesis and that its growth is the result of changes at the pituitary and/or hypothalamic level. Abnormal release of hypothalamic factors (including endogenous opioid peptides) may contribute to prolactinoma development. An increased endogenous opioid tone (EOT) occurs in patients with prolactinoma, and seems to play an important role in pituitary secretion, as suggested by the ability of the opiate receptor antagonist naloxone to stimulate luteinizing hormone pulsatile secretion in these patients.

OBJECTIVE

To investigate the effect of the EOT on growth hormone (GH) secretion in women with prolactinoma.

DESIGN

Eleven women aged 30.4+/-6.7 years (range 20-41), with an established diagnosis of microprolactinoma, were studied. GH-releasing hormone (GHRH), 100 microg as an intravenous (i.v.) bolus, was administered with and without preadministration of i.v. naloxone, an opioid receptor antagonist, 2 mg as a bolus followed by a constant infusion of 1.6 mg/h. Blood samples were taken for 120 min after GHRH administration.

RESULTS

Naloxone did not affect the GH response to GHRH, measured as single times, mean peak values, or as integrated concentrations.

CONCLUSION

Our data suggest that an opioid stimulatory tone on GH secretion in women with prolactinoma is absent.

Plasma levels of opioid peptides after sunbed exposures

BACKGROUND

Previous studies have indicated that solar and artificial ultraviolet (UV) radiation have a positive influence on psychological variables such as mood and emotional state. Circulating opioid peptides have been suggested as being important in this effect.

OBJECTIVES

To investigate in a controlled trial the influence of UVA radiation on opioid peptide levels.

METHODS

We determined plasma levels of beta-endorphin immunoreactive material (IRM) and met-enkephalin in UV-exposed (n = 35) and non-exposed (n = 9) healthy volunteers. On the first day of the study, blood samples were taken from the volunteers (time A). UVA irradiation was subsequently administered with an air-conditioned tanning device. During the UV exposures the volunteers wore opaque goggles. Twenty minutes after UV exposure, blood samples were collected again (time B). Within the following 3 weeks the volunteers had a series of five UV exposures. On the last day of the study (24 h after the sixth UV exposure) blood samples were collected (time C). The cumulative UVA doses were 96 J cm-2 for skin type II and 126 J cm-2 for skin type III. The controls had no UV exposures. Plasma beta-endorphin IRM and met-enkephalin levels were determined using radioimmunoassays.

RESULTS

At all times of blood collection (A, B, C), there were no significant differences in plasma levels of beta-endorphin IRM and met-enkephalin between UV-exposed and non-exposed volunteers (P > 0.05).

CONCLUSIONS

UVA irradiation does not significantly elevate plasma levels of beta-endorphin IRM and met-enkephalin. Therefore we suggest that psychological benefits claimed to occur after UV exposure are unlikely to be mediated by the types of circulating opioid peptides measured in this study.

Hormonal effects on skin aging

With aging, there is a decrease in the level of hormones, such as estrogen, testosterone, dehydroepiandrosterone sulfate, and growth hormone. The effect of this decrease on the skin has been poorly documented, although more data are available for estrogen than for other hormones. This article reviews the effect of decreasing hormone levels on the skin and the possible cutaneous benefits of hormone replacement therapy.

The role of acetaldehyde in the actions of alcohol (update 2000)

BACKGROUND

Recent advances in the field of acetaldehyde (AcH) research have raised the need for a comprehensive review on the role of AcH in the actions of alcohol. This update is an attempt to summarize the available AcH research.

METHODS

The descriptive part of this article covers not only recent research but also the development of the field. Special emphasis is placed on mechanistic analyses, new hypotheses, and conclusions.

RESULTS

Elevated AcH during alcohol intoxication causes alcohol sensitivity, which involves vasodilation associated with increased skin temperature, subjective feelings of hotness and facial flushing, increased heart and respiration rate, lowered blood pressure, sensation of dry mouth or throat associated with bronchoconstriction and allergy reactions, nausea and headache, and also reinforcing reactions like euphoria. These effects seem to involve catecholamine, opiate peptide, prostaglandin, histamine, and/or kinin mechanisms. The contribution of AcH to the pathological consequences of chronic alcohol intake is well established for different forms of cancer in the digestive tract and the upper airways. AcH seems to play a role in the etiology of liver cirrhosis. AcH may have a role in other pathological developments, which include brain damage, cardiomyopathy, pancreatitis, and fetal alcohol syndrome. AcH creates both unpleasant aversive reactions that protect against excessive alcohol drinking and euphoric sensations that may reinforce alcohol drinking. The protective effect of AcH may be used in future treatments that involve gene therapy with or without liver transplantation.

CONCLUSIONS

AcH plays a role in most of the actions of alcohol. The individual variability in these AcH-mediated actions will depend on the genetic polymorphism, not only for the alcohol and AcH-metabolizing enzymes but also for the target sites for AcH actions. The subtle balance between aversive and reinforcing, protecting and promoting factors will determine the overall behavioral and pathological developments.

The role of acetaldehyde in the actions of alcohol (update 2000)

BACKGROUND

Recent advances in the field of acetaldehyde (AcH) research have raised the need for a comprehensive review on the role of AcH in the actions of alcohol. This update is an attempt to summarize the available AcH research.

METHODS

The descriptive part of this article covers not only recent research but also the development of the field. Special emphasis is placed on mechanistic analyses, new hypotheses, and conclusions.

RESULTS

Elevated AcH during alcohol intoxication causes alcohol sensitivity, which involves vasodilation associated with increased skin temperature, subjective feelings of hotness and facial flushing, increased heart and respiration rate, lowered blood pressure, sensation of dry mouth or throat associated with bronchoconstriction and allergy reactions, nausea and headache, and also reinforcing reactions like euphoria. These effects seem to involve catecholamine, opiate peptide, prostaglandin, histamine, and/or kinin mechanisms. The contribution of AcH to the pathological consequences of chronic alcohol intake is well established for different forms of cancer in the digestive tract and the upper airways. AcH seems to play a role in the etiology of liver cirrhosis. AcH may have a role in other pathological developments, which include brain damage, cardiomyopathy, pancreatitis, and fetal alcohol syndrome. AcH creates both unpleasant aversive reactions that protect against excessive alcohol drinking and euphoric sensations that may reinforce alcohol drinking. The protective effect of AcH may be used in future treatments that involve gene therapy with or without liver transplantation.

CONCLUSIONS

AcH plays a role in most of the actions of alcohol. The individual variability in these AcH-mediated actions will depend on the genetic polymorphism, not only for the alcohol and AcH-metabolizing enzymes but also for the target sites for AcH actions. The subtle balance between aversive and reinforcing, protecting and promoting factors will determine the overall behavioral and pathological developments.

Effect of chronic morphine administration on glucose tolerance and insulin binding to isolated rat adipocytes

Morphine addiction was induced in six male Wistar rats. Improved glucose tolerance (peak value less by 28%, p<0.01) was observed in chronically morphinized rats as compared to the control rats, injected with saline. An increase in the maximal specific binding of 125I-labeled insulin to unit membrane area of adipocytes was observed in the experimental group (p < 0.01). The changes in insulin receptor number could be responsible for the improved glucose tolerance observed during morphine addiction.

How do glucocorticoids influence stress responses? Integrating permissive, suppressive, stimulatory, and preparative actions

The secretion of glucocorticoids (GCs) is a classic endocrine response to stress. Despite that, it remains controversial as to what purpose GCs serve at such times. One view, stretching back to the time of Hans Selye, posits that GCs help mediate the ongoing or pending stress response, either via basal levels of GCs permitting other facets of the stress response to emerge efficaciously, and/or by stress levels of GCs actively stimulating the stress response. In contrast, a revisionist viewpoint posits that GCs suppress the stress response, preventing it from being pathologically overactivated. In this review, we consider recent findings regarding GC action and, based on them, generate criteria for determining whether a particular GC action permits, stimulates, or suppresses an ongoing stress-response or, as an additional category, is preparative for a subsequent stressor. We apply these GC actions to the realms of cardiovascular function, fluid volume and hemorrhage, immunity and inflammation, metabolism, neurobiology, and reproductive physiology. We find that GC actions fall into markedly different categories, depending on the physiological endpoint in question, with evidence for mediating effects in some cases, and suppressive or preparative in others. We then attempt to assimilate these heterogeneous GC actions into a physiological whole.

The effect of naloxone on adrenocorticotropin and cortisol release: evidence for a reduced response in depression

BACKGROUND

Endogenous opioid peptides inhibit the hypothalamic-pituitary-adrenal (HPA) axis by influencing the release of hypothalamic corticotropin releasing factors. This study examines whether increased activity of the HPA axis in major depression is associated with reduced opioid tone.

METHODS

We measured the adrenocorticotropin (ACTH) and cortisol responses to an intravenous bolus of naloxone 0.125 microg/kg in 13 depressed outpatients and 13 healthy volunteers.

RESULTS

The mean cortisol response was significantly reduced (P<0.05), and the ACTH response was also non-significantly reduced in the depressed subjects.

CONCLUSIONS

These findings imply that the degree of inhibitory endogenous opioid tone is reduced in depression. Various mechanisms for the finding are discussed, including possible alteration in the function of alpha-adrenergic pathways.

CLINICAL IMPLICATIONS

Reduced endogenous opioid tone may explain why some depressed individuals self-medicate with opiates, and depression is associated with opiate withdrawal. Opioid pathways may have a role in the mechanism of action of antidepressant drugs, and may be of relevance in the development of novel antidepressants.

LIMITATIONS OF THE STUDY

The sample size was small, leading to a failure of the difference of the basal cortisol levels and also the delta ACTH between the groups to reach statistical significance.

High-dose naloxone (1.0 mg/kg): psychological and endocrine effects in normal male subjects pretreated with one milligram of dexamethasone

The possible participation of the endogenous opioid system (EOS) in the negative feedback of the hypothalamic-pituitary-adrenal axis (HPA-a) activated by low doses (1 mg) of dexamethasone (Dex) was investigated. Ten male healthy subjects (mean age 31.5 +/- 1.9 SEM) were studied on 2 separate days, in a double-blind, cross-over and placebo-controlled design. All subjects were pretreated with 1.0 mg Dex orally the night (2300 h) before both test days. On the study days, subjects were admitted at 0700 h for cannula insertion; the administration of an i.v. bolus of either naloxone (Nal) (1.0 mg/kg) or saline solution (Sal) i.v. was started at 0900 h. Before and following each infusion, mood was measured by a Visual Analogue Scales (VAS) and by the Affective Quality Scale (AQS) every 30 min and blood samples were taken at 15-min intervals. Blood pressure and heart rate were also monitored. Before Dex administration, plasma cortisol levels were within the normal range in all subjects (210.4 +/- 13 ng/ml), while after 9 h after Dex cortisol levels showed the expected significant (p < 0.01) decrease (11.5 +/- 1.9 and 15.04 +/- 0.7 ng/ml for Sal and Nal test days respectively). There were no detectable increases in plasma cortisol levels following either Nal nor Sal administration. However, there was a Nal-induced significant increase in LH (p < 0.01) thus indicating that an effective opioid blockade at the level of the hypothalamic-pituitary unit occurred. There were also a mild and selective Dex + Nal-induced dysphoric (mood factors related to subjects perception of their cognition) and bradycardic effects (p < 0.05). These results suggest that the EOS is not directly involved in the negative feedback triggered by low doses of Dex of the HPA-a, and that there might be a possible glucocorticoid-opioid interaction for the modulation of some aspects of mood.

Evidence for morphine-induced galactorrhea in male cynomolgus monkeys

We evaluated the effect of a daily injection of morphine hydrochloride on galactorrhea in male cynomolgus monkeys. Three groups of three monkeys (nine total) were used. The treatment schedule was separated into three periods: pre-treatment, treatment, and post-treatment. Each group of monkeys was subcutaneously injected daily with 1.5, 3.0, or 6.0 mg/kg (monkey weight) of morphine for 74-130 days, respectively, during the treatment period, and with saline during the pre-treatment and post-treatment periods. We then measured the prolactin (PRL) and testosterone (T) levels from weekly blood samples that were taken 20 hours after injection. No statistically significant differences in either the PRL or T level were detected throughout the treatment period. However, monkeys treated with 3.0 and 6.0 mg/kg/day showed a decrease in T level and an increase in PRL level during the early post-treatment period. Seven of the nine monkeys produced a milk-like secretion from their mammary gland (a symptom of galactorrhea) during the treatment and post-treatment periods. For several months of post-treatment period (average 6.75 months), we monitored the time-course changes in PRL and T levels in all monkeys for 10 hours after a single injection of morphine at the same dose given during the treatment period. Morphine induced a sudden increase in the PRL level (peaked within 30 minutes) and a gradual decrease in the T level (leveled off within 6.5-10 hours), and then returned to basal levels. These results indicate that morphine does not cause a long-term effect on hormonal changes and that a morphine-induced transient rise in PRL levels accompanied by a decrease in T levels can induce spontaneous galactorrhea in male cynomolgus monkeys.

Suppression of luteal phase, but not midcycle, prolactin levels by chronic follicular phase opiate antagonism

OBJECTIVE

To investigate whether establishment and maintenance of chronic opioid blockade throughout the follicular phase of the menstrual cycle influences midcycle and luteal phase prolactin levels.

DESIGN

Randomized, double-blind, crossover study.

SETTING

Academic research environment.

PATIENT(S)

Volunteers, aged 21-35 years, with regular menstrual cycles.

INTERVENTION(S)

Naltrexone (50 mg) or placebo were administered on cycle days 2-14. Blood samples were obtained in the early follicular phase and in the periovulatory and midluteal phases of the menstrual cycle.

MAIN OUTCOME MEASURE(S)

Serum prolactin levels.

RESULT(S)

In the early follicular phase, serum prolactin levels were equivalent in naltrexone (12.0 +/- 2.7 microgram/L; mean +/- SE) and placebo (12.1 +/- 2.9 micrograms/L) cycles. A statistically significant increase in serum prolactin was observed on the day of the LH surge (naltrexone: 22.6 +/- 3.7 micrograms/L; placebo: 21.7 +/- 2.7 micrograms/L; P < 0.05 versus early follicular phase), but no difference between treatments was observed. However, midluteal prolactin levels were statistically significantly lower in naltrexone cycles compared with placebo cycles (12.6 +/- 3.3 versus 15.4 +/- 3.0 micrograms/L; P < 0.05).

CONCLUSION(S)

Chronic blockade of opioid activities during the follicular phase does not affect midcycle prolactin increments, but withdrawal of opioid blockade may enhance opioid effects on prolactin levels in the luteal phase.

Loperamide test: a simple and highly specific screening test for hypercortisolism in children and adolescents

The overnight dexamethasone (DXM) test can give false-positive results in a few conditions (e.g. stress, strenuous exercise, depression, anorexia, anxiety, anticonvulsive therapy) in diagnosing simple obesity and hypercortisolism (HC). The loperamide (LP; a peripheral opioid agonist) test has proven useful in such conditions in adults. Thirty-one obese subjects (age 10.0-19.7 y) were studied by both overnight DXM test and LP test (8 mg orally, samples for cortisol at 0, 90, 150, 180 and 210 min) on 2 separate days. LP suppressed cortisol (< or = 138 nmol l-1) at a dose of 0.1 mg kg-1 bw (half the minimum recommended dose for the drug's antidiarrhoea effect) in 14 subjects who had normal urinary (< 4970 nmol l-1) and serum (< 552 nmol l-1) cortisol, in the absence of signs and symptoms of HC (group A). The DXM test failed to suppress cortisol in three subjects in group A, two of whom were on anticonvulsive treatment. The LP test suppressed cortisol in all of 13 subjects with elevated urinary and/or serum cortisol and/or with signs or symptoms of HC (but in whom HC was subsequently excluded on clinical grounds) (group B), while the DXM test failed to suppress cortisol in three subjects of this group. One of these was under anticonvulsive treatment and one suffered from anxiety and depression. In four patients with Cushing's syndrome (group C) neither DXM nor LP could suppress cortisol levels. Therefore, the sensitivity was 100% for both DXM and LP, while the specificity was 84% for DXM and 100% for LP. No side-effects were observed with either drug. In conclusion, LP is a useful alternative to DXM in those particular conditions that can affect its specificity in children.

The effect of an opiate antagonist on the hormonal changes induced by hexarelin

OBJECTIVE

Growth hormone-releasing peptides (GHRPs) stimulate growth hormone (GH) release in vitro and in vivo in animals and in humans. GHRPs were developed by modification of the structure of met-enkephalin but GHRP-6 does not activate opiod receptors in animal studies. These agents may well have diagnostic and/or long-term therapeutic potential in the future so their effects on opiod receptors need to be clarified in humans as well. Hexarelin is a recently developed six amino acid residue GHRP.

DESIGN

We have investigated the effects of 100 micrograms/kg i.v. dose of the opiate antagonist naloxone and 2 micrograms/kg i.v. hexarelin or placebo on serum GH, prolactin, TSH, cortisol and plasma ACTH in 12 healthy volunteers in a double-blind, randomized trial.

RESULTS

Hexarelin significantly stimulated the peak serum levels and area under the curve for circulating GH and this effect was not modulated by naloxone. Hexarelin also caused significant elevation of circulating prolactin, cortisol and ACTH but did not influence circulating TSH levels. The effect of naloxone on cortisol and ACTH was stimulatory, while it did not influence prolactin, GH and TSH levels. The effect of the two drugs together on cortisol and ACTH was less than additive.

CONCLUSIONS

This study confirms that the activation of opiate receptors does not play a role in the GH-releasing effect of growth hormone-releasing peptides in humans.

Differential effects of deltorphin on arginine and galanin-induced growth hormone secretion in healthy man

Recently we demonstrated the inhibitory action on Growth Hormone (GH) secretion of an opioid heptapeptide, deltorphin (DT), that is highly selective in binding delta-opioid receptors. To investigate the possible mechanism leading to the decrease in GH secretion by specific activation of delta-opioidergic pathway in man, we compared, in normal subjects, the effect of DT on GH secretion responses to two different GH secretagogues, namely arginine (ARG) and galanin (GAL). DT completely blunted the GH response to ARG, whereas it attenuated the GH response to GAL, but not at a statistically significant level. We suggest that the specific activation of delta-opioid receptors in man may exert an inhibitory influence on GH secretion principally by modulating endogenous hypothalamic somatostatin (SRIH) release.

In vitro human growth hormone increases human chorionic gonadotropin and progesterone secretion by human placenta at term: evidence of a modulatory role by opioids

We examined the in vitro effect of human growth hormone (hGH) on hormone placental production and the modulation by opioids of this function. Small placental fragments from 12 term placentas were incubated at 37 degrees C in a 95% air and 5% CO2 atmosphere for 4 h with various concentrations of hGH (1-1000 ng/ml) or naloxone (3-500 ng/ml). Both hGH and naloxone increased the concentrations of human chorionic gonadotropin (hCG) and progesterone in the media. The effect of the hGH was dose-dependent and statistically significant at 10 ng/ml, while naloxone was able to increase hCG and progesterone production only at the highest doses (250-500 ng/ml). The concomitant treatment with ineffective doses of naloxone and hGH was able to enhance hCG and progesterone secretion reaching levels similar to those obtained with the highest doses of hGH alone. High naloxone concentrations significantly decreased both hCG and progesterone secretion induced by high doses of hGH. This study confirms the relevance of growth hormone in sustaining placental endocrine activities and indicates an effect of opioids in modulating these functions.

Comparison between the suppressive effects of dexamethasone and loperamide on cortisol and ACTH secretion in some pathological conditions

Since in patients with Cushing's disease, unlike in normal subjects, tonic inhibitory opioid control of ACTH secretion does not operate, use of the opiate agonist loperamide (LOP) has recently been proposed in the diagnosis of hypercortisolemic states. We compared the sensitivity, specificity and diagnostic accuracy of the LOP test (16 mg orally) with corresponding results of the dexamethasone test (DXM, 1 mg orally overnight) in 23 normal subjects and in a total of 42 patients, affected by Cushing's disease (n = 8), incidentally discovered adrenal masses with impaired function of the hypothalamic-pituitary-adrenal (HPA) axis (n = 6), obesity (n = 21) and depression (n = 7). While in controls both DXM and LOP strongly suppressed plasma cortisol and ACTH, in Cushing's disease and in incidentalomas no patient showed a decrease in cortisol levels below 50 ng/ml or a reduction in plasma cortisol greater than 50% of basal values in response to LOP and DXM. In obese subjects both drugs significantly reduced plasma cortisol and ACTH without giving false positive results. In the depressed group only 3/7 patients showed a decrement in cortisol levels below 50 ng/ml after LOP in contrast to 6/7 after DXM. Thus, in patients with impairment of the HPA-axis, i.e. in Cushing's disease and in patients with adrenal incidentalomas and hormonal abnormalities, LOP and DXM test sensitivity was 100%. In controls and in obese patients specificity was 100% both with LOP and DXM, while in depressed patients it was 43% and 86% with LOP and DXM, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)

Opioid peptides, adrenocorticotrophic hormone, and idiopathic (orthostatic) edema

The effect of dextroamphetamine sulfate (Dexedrine) on plasma opioid peptides, hormones, and other metabolites was studied in eight female subjects with idiopathic (orthostatic) edema and five healthy females. All subjects were given 20 mg of dextroamphetamine sulfate, a drug widely used in the treatment of this disorder, and blood samples were collected before and 30, 60, and 90 minutes after treatment. Patients with idiopathic (orthostatic) edema had significantly lower plasma sodium levels but higher blood urea nitrogen, aldosterone, and renin levels. D-amphetamine decreased aldosterone and renin levels in both groups. Plasma adrenocorticotropin levels were lower whereas met-enkephalin levels were higher in idiopathic (orthostatic) edema subjects compared to control subjects. D-amphetamine had no significant effect on plasma beta-endorphin, adrenocorticotrophic hormone, or enkephalins. Our data indicate that opioid peptides, especially enkephalins, and adrenocorticotrophic hormone may be involved in the pathogenesis of idiopathic (orthostatic) edema syndrome, but they seem uninvolved in the aldosterone- and renin-lowering action of amphetamine. It is possible that amphetamine is acting further down the chain, either directly on the adrenal and kidney or the microvasculature, rather than at hypothalamus-pituitary axis.

The in vivo effects of opioid peptides on the murine immune response

We have previously reported that met-enkephalin has dual immunomodulatory properties in vitro. We have continued this investigation using an in vivo system. In this study, Alzet miniosmotic pumps were loaded with either met-enkephalin, DTLET or FK 33-824 and were surgically implanted into BAF1/J mice. Twenty-four hours after pump implantation, mice were challenged with sub-optimal, optimal or supraoptimal immunizing doses of antigen. The immune response was assessed 4 or 5 days after primary immunization. FK 33-824, a met-enkephalin analogue, had no effect on the response of mice challenged with a suboptimal antigen dose. However, FK 33-824, at a pump concentration of 10(-3) M, suppressed the response against optimal challenge doses of antigen. At a pump concentration of 10(-8) M, FK 33-824 suppressed, enhanced or had no effect on the supraoptimal antigen dose-induced immune response. The suppressive effect of FK 33-824 in mice immunized with either optimal or supraoptimal doses of antigen was blocked by naloxone. Met-enkephalin and its delta opioid receptor specific analogue, DTLET, had no effect on the immune response to optimal antigen immunization. These results indicate that FK 33-824 has in vivo immunomodulatory activity and provide evidence that opioid peptides may either upregulate or downregulate the in vivo immune response depending on the strength of the response.

Beta-endorphin levels in women with elevated prolactin and following bromocriptine therapy

1. Plasma levels of beta-endorphin were not significantly different in women with normal plasma prolactin or women with hyperprolactinemia. 2. A bromocriptine induced decrease in plasma prolactin was not accompanied by a decrease in beta-endorphin. 3. This study suggests that no direct link exists between plasma prolactin levels and endogenous beta-endorphin.

Lipolytic effect of beta-endorphin in human fat cells

Recently, a role of beta-Endorphin on peripheral tissue metabolism has been suggested. A lipolytic effect of beta-Endorphin has been observed both in vivo and in vitro in animals but, at present, there is no evidence for a similar effect in humans. In this study, we investigated the lipolytic effect of beta-Endorphin in isolated human adipocytes. beta-Endorphin induced a significant increase in glycerol release in isolated human fat cells. Naloxone was able to inhibit the beta-Endorphin-induced lipolysis. The opioid antagonist alone had no effect on basal lipolysis and on Epinephrine-stimulated lipolysis when administered together with this hormone. Our results suggest that beta-Endorphin may play a role on lipolysis also in human fat cells and that this effect may be mediated by a specific opiate receptor.

Inhibitors of enkephalin-degrading enzymes as potential therapeutic agents

A limited number of enzymes such as membrane metalloendopeptidase (enkephalinase) and angiotensin converting enzyme appear to be involved in deactivation and modulation of circulatory regulatory peptides. Peptides such as the enkephalins are also involved in a large number of physiological processes. This multiplicity of physiological roles has made it difficult to establish the therapeutic role of enkephalin-degrading enzyme inhibitors. Other factors such as difficulty in quantification and thus measurement of processes involved in pain and mental illness have also hindered the process of establishing any therapeutic role of enkephalin-degrading enzyme inhibitors in these conditions. However, they have proved to be useful pharmacological 'tools'. The most likely therapeutic role at present appears to be in the treatment of cardiovascular disorders. As a 'profile' of pharmacological actions of enkephalin-degrading enzymes emerges, it is becoming apparent that bioavailability rather than a high degree of specificity or inhibitory potency may be the most important factor. This may be used to an advantage in future developments by the use of less specific or combined inhibitors in the form of prodrugs, designed to be active at specific sites such as the central nervous system.

Enkephalins, brain and immunity: modulation of immune responses by methionine-enkephalin injected into the cerebral cavity

There is a large number of interactions at molecular and cellular levels between the nervous system and the immune system. It has been demonstrated that the opioid neuropentapeptide methionine-enkephalin (Met-Enk) is involved in humoral and cell-mediated immune reactions. Met-Enk injected peripherally produces a dual and dose-dependent immunomodulatory effect: high doses suppress, whereas low doses potentiate the immune reactivity. The present mini-review concerns the immunological activity of Met-Enk after its administration into the lateral ventricles of the rat brain, and describes the extraordinary capacity of centrally applied Met-Enk to regulate/modulate the immune function. This survey is composed of sections dealing with (a) the role of opioid peptides in the central nervous system (CNS); (b) the activity of opioid peptides in the immune system; (c) the application of Met-Enk into the cerebral cavity; (d) the influence of centrally administered Met-Enk on nonspecific local inflammatory reaction; (e) the effect of Met-Enk injected intracerebroventricularly (i.c.v.) on specific delayed hypersensitivity skin reaction, experimental allergic encephalomyelitis, anaphylactic shock, plaque-forming cell response, and hemagglutinin production; (f) the central antagonizing action of quaternary naltrexone, an opioid antagonist that does not cross the brain-blood barrier, on Met-Enk-induced immunomodulation; (g) the alteration of immune responsiveness by i.c.v. injection of enkephalinase-degrading enzymes; (h) the participation of the brain-blood/blood-brain barrier in the CNS-immune system interaction; and (i) the role of opioid receptors in immunological activity of Met-Enk. A hypothesis has been advanced for the reaction of Met-Enk and opioid receptor sitting on the cell membrane. This concept suggests that the constellation of chemical residues of enkephalin and receptor in the microenvironment determines the binding between the opioid partners. The plurality of conformational structures of enkephalins and receptors makes possible their involvement in a variety of processes which occur in different physiological systems, including the nervous system and the immune system, and intercommunications between the two systems.

Peripheral plasma met-enkephalin levels in ovulatory and anovulatory human menstrual cycles

OBJECTIVE

To test the hypothesis that met-enkephalin has a role in human ovulation and that plasma levels may differ between ovulatory and anovulatory ovarian cycles.

DESIGN

This is a descriptive study comparing levels of plasma met-enkephalin, gonadotropins, and ovarian steroids in 12 ultrasonically confirmed ovulatory cycles and 12 anovulatory cycles.

SETTING

The study took place in the infertility clinic of a large teaching hospital receiving primary and tertiary referrals of both private and public sector patients.

PATIENTS

All patients (n = 16) had infertility greater than or equal to 3 years and normal findings on previous investigation including evidence of ovulation.

INTERVENTIONS

Ovarian cycles were defined using transabdominal ultrasound scanning. Biochemical analyses were by radioimmunoassay.

MAIN OUTCOME MEASURES

The differences between plasma met-enkephalin levels in the two groups of cycles were compared.

RESULTS

Met-enkephalin levels are significantly higher in ovulatory cycles with a significant peak in the 2 postovulatory days (Duncan's multiple range test; P less than 0.05).

CONCLUSION

Human ovulation is associated with cyclic elevation of plasma met-enkephalin. Further studies are required to elucidate causality.

In vivo and in vitro effects of β-endorphin and naloxone on corticosterone and cortisol release in male and female water frog, Rana esculenta

1. beta-Endorphin and naloxone effects on corticosterone and cortisol production in male and female Rana esculenta, were studied in vivo and in vitro. 2. The in vivo and in vitro results were in agreement. 3. beta-Endorphin caused a decrease in corticosterone and cortisol release. 4. Naloxone induced an increase in the two corticosteroids at the same times as the decrease caused by beta-endorphin. 5. beta-Endorphin plus naloxone treatment did not change corticosterone and cortisol levels. 6. These results suggest that in Rana esculenta opioids are involved in the regulation of the hypothalamo-pituitary-interrenal axis; in particular, opioids directly modulated interrenal steroidogenesis.

Opioid modulation of the hypothalamo-pituitary-adrenal axis in dairy cows

Plasma cortisol responses to an intravenous bolus treatment with 250 mg naloxone, 300 mg morphine or a combination, were studied in Holstein-Friesian cows; 4 in early lactation (29-43 d postpartum) and 7 in mid-lactation (90-155 d post-partum). Blood samples were collected every 15 min from 60 min before to 90 min after treatment. Naloxone induced an immediate increase in cortisol concentration, reaching a peak within 30 min. The cortisol response (area under the curve) was positively correlated with pre-naloxone cortisol concentrations (r = 0.7, p < 0.05). The mean increase in cortisol concentration after naloxone appeared to be lower in early lactation (1.8 ng/ml) than in mid-lactation (8.3 ng/ml). In contrast, morphine consistently suppressed mean tonic plasma cortisol concentration by 2.7 ng/ml below baseline for at least 90 min. When given with morphine, naloxone counteracted the suppressive effects; the cortisol response was similar to that after naloxone alone. A cow in mid-lactation, suffering from chronic lameness (joint infection), gave opposite results, i.e., treatment with morphine alone increased cortisol concentration, whereas morphine with naloxone did not result in the expected large increase in plasma cortisol concentration. In conclusion, the hypothalamo-pituitary-adrenal axis of dairy cows appears to be under suppressive opioidergic control. However, the opioidergic system involved in hypothalamo-pituitary-adrenal functions of an animal under chronic stress behaved in an opposite manner.

Interaction of opioid peptide-containing terminals with dopaminergic perikarya in the rat hypothalamus

Both direct pituitary and indirect CNS mechanisms have been postulated for the influence of opiate agonists on prolactin secretion. By examining the interactions between terminals of neurons containing opioid peptides and hypothalamic TH-positive cell bodies, this paper addressed the anatomical basis for the latter mechanism. Initial electron microscopic studies directly demonstrated contact between opioid peptide terminals and dopaminergic cell bodies and provided some visual criteria for assessing opioid-dopamine interactions at the light microscopic level. Using these guidelines, we examined the rates of contact on both A12 and A14 neurons of each of the three opioid peptide families: pro-enkephalin, pro-dynorphin, and pro-opiomelanocortin (POMC). For A14 neurons, many of which project to the posterior pituitary, contact rates were estimated at 15, 20, and 5% for dynorphin, Met-enkephalin, and ACTH (a POMC derivative), respectively. In contrast, the A12 dopamine neurons, which regulate prolactin secretion by inhibition, showed a roughly 70% contact rate with dynorphin axons (P less than 0.001) with Met-enkephalin and ACTH contact rates remaining low at 20 and 5% respectively. Contact frequency varied significantly during the estrus cycle only with dynorphin contacts on A12 neurons. Proestrus and diestrus (less so) showed a small but significant (P less than 0.05) elevation in contact rates versus estrus, male, lactating and pregnant groups. No other significant difference emerged among these groups. On the basis of these observations, we conclude that dynorphin represents a significant and specific factor in the innervation of A12 dopamine neurons. This relationship may account for some if not most of the influence of opiate agonists and antagonists on prolactin secretion.

Supersensitivity to naloxone following acute morphine pretreatment in humans: behavioral, hormonal and physiological effects

The effects of naloxone (10 mg/70 kg) given 6 h following acute exposure to morphine (4, 8, 16 mg/70 kg) were assessed in 5 opiate-abusing volunteers who were not physically dependent upon entering the study. Naloxone increased cortisol plasma levels more following morphine than placebo pretreatment. Naloxone reversed the effects of morphine on pupil diameter and oral temperature and decreased skin temperature as a function of morphine pretreatment. Subjects' ability to detect the effects of naloxone, their scores on an opiate-withdrawal questionnaire, and their visual-analog ratings of 'bad effects', 'chills', 'confused' and 'restlessness' increased when naloxone followed pretreatment with 8 and 16 mg, but not 4 mg, of morphine. Performance on the Digit Symbol Substitution Test was not discernibly affected under any of the dose conditions. Overall, results from the present study provide further evidence in humans that the administration of naloxone shortly following acute morphine pretreatment increases naloxone sensitivity, produces signs and symptoms typical of opiate withdrawal and that these effects are dependent on the dose of morphine administered.

Increments in glucose, glucagon and insulin after morphine in rats, and naloxone blocking of this effect

In awake rats adapted to experimental conditions and allowed food ad libitum, hyperglycemia was induced by the administration of morphine 10 mg/kg through indwelling catheters in the external jugular vein. High glucose values were measured at 5, 15 and 25 min. Glucagon values were high at 5 and 15 min, and again at basal level at 25 min. Insulin was increased after morphine both at 5, 15 and 25 min, whereas somatostatin levels did not change after morphine. When morphine was administered together with naloxone after an initial 10 min period of naloxone administration, there was no increment in glucose, insulin or somatostatin values; neither at 5, 15 or 25 min. There was a remarkable glucagon decrease after naloxone and morphine remaining from 5 to 25 min. Then, one of the possible mechanisms for the hyperglycemic response after morphine may be an opioid effect on pancreas, stimulating glucagon and thereby causing hepatic glucose output.

Naloxone does not modify fenfluramine-induced prolactin increase in obese patients

OBJECTIVE

To evaluate whether the supposed physiological interaction between serotoninergic and opioidergic pathways in the modulation of PRL release is preserved in human obesity, a pathological condition in which these two systems are greatly impaired.

DESIGN

According to a single-blind randomized procedure, three tests were performed: test A (oral placebo + saline infusion over 5 hours), test B (fenfluramine, a well known serotoninergic drug, 60 mg orally + saline infusion over 5 hours) and test C (fenfluramine at the same dose + naloxone, an opiate receptor antagonist, infusion over 5 hours at a dose of 3 mg/h).

PATIENTS

Ten obese women (body mass index 34.4 +/- 2.3 kg/m2, mean +/- SE) and ten normal-weight sex and age-matched subjects (body mass index 22.3 +/- 2.4 kg/m2) volunteered for the study.

MEASUREMENTS

At each test, blood samples for PRL determination were collected in basal conditions (time 0) and every hour for 5 hours. Plasma PRL was determined by radioimmunoassay.

RESULTS

In controls, naloxone significantly reduced the clear-cut PRL increase induced by fenfluramine. In obese patients, serotoninergic stimulation caused an increment in PRL levels similar to that in the controls, but opioid receptor blockade by naloxone did not affect this response.

CONCLUSIONS

These findings confirm that there is a physiological relationship between the serotoninergic and the opioidergic systems in the control of PRL secretion and show that this interaction is not present in obese subjects. Our data provide indirect proof of the functional impairment of these two systems in human obesity.

Current concepts of beta-endorphin physiology in female reproductive dysfunction

beta-Endorphin has a role in the regulation of the normal menstrual cycle and possibly in the onset of puberty. We have reviewed the evidence pointing to an alteration in this neuropeptide that may contribute to the pathogenesis of various reproductive dysfunctions. Elevated or high levels of beta-endorphin have been associated with exercise-associated amenorrhea, stress-associated amenorrhea, and polycystic ovarian syndrome. Depressed or low levels of beta-endorphin have been associated with PMS and menopause. Alterations in the levels of beta-endorphin may change the pulsatile release of GnRH via noradrenergic and/or dopaminergic pathways. We have primarily focused on beta-endorphin as representative of the endogenous opioid peptides, but other opioid peptides may also contribute to the pathogenesis of various types of reproductive dysfunction. Perhaps it will become possible to characterize and hone our understanding of the function of beta-endorphin and the other substances composing the endogenous opioid peptides. A better understanding of their role in physiological as well as pathophysiological processes may allow for the development of rational approaches to the treatment of specific disorders pertaining to reproduction. Many questions remain unanswered. Among the most relevant are: what is the precise mechanism of action by which beta-endorphin exerts its influence on pulsatile GnRH release? Is there a functional relationship between CNS and peripheral (serum) levels of beta-endorphin? Are the detected changes in beta-endorphin levels merely associated, or are they a cause of a particular disorder? Since it took almost 40 years between the time prostaglandins were first discovered and eventual realization of their clinical application, it may take some time before the beta-endorphin story is complete.