Novel hypothalamic and preoptic sites of prepro-melanin-concentrating hormone messenger ribonucleic Acid and Peptide expression in lactating rats

The deduced structure of the rat melanin-concentrating hormone (MCH) precursor predicted the existence of at least two peptides that may be processed from it, one similar to teleost MCH and a second novel neuropeptide, NEI. Cellular localization studies confirmed that prepro-MCH (ppMCH) mRNA and the MCH and NEI peptides are expressed predominantly in cells in the zona incerta and caudal lateral hypothalamic area with minor contingents seen in the olfactory tubercle and pons. A moderate MCH-and NEI-immunoreactive axonal projection to the median eminence and, particularly, to oxytocin-rich regions of the posterior pituitary suggested some anatomical heterogeneity of ppMCH-expressing neurons in the hypothalamus, and an involvement in neuroendocrine function. In the present study, immunohistochemical and hybridization histochemical methods were used to follow MCH gene and peptide expression as a function of reproductive status in female rats. Nursing dams sacrificed after 8 to 21 days of lactation consistently displayed ppMCH mRNA and MCH and NEI immunoreactivity in a discrete and contiguous band, encompassing the ventral aspect of the medial part of the medial preoptic nucleus, the periventricular preoptic nucleus, and the most rostral aspects of the paraventricular nucleus of the hypothalamus (PVH). Combined immunohistochemical (for oxytocin) and hybridization histochemical (for ppMCH mRNA) staining failed to reveal a significant degree of congruence in the two chemically-specified cell populations in the PVH of lactating dams. The apparent induction of ppMCH-derived peptides and mRNA in the preoptic area and PVH was not apparent in animals sacrificed 4 to 8 days after weaning, during late pregnancy, or at any point in the estrous cycle. Moreover, no frank alterations in ppMCH mRNA were evident in the principal sites at which ppMCH is expressed at constitutively high levels, i.e. in the lateral hypothalamic area and zona incerta, as a function of reproductive status. The loci and apparent state-dependency of the induction of ppMCH mRNA and peptide expression suggests a role for these gene products in the control of lactation.     

The melanin-concentrating hormone system of the rat brain: an immuno- and hybridization histochemical characterization.

In addition to a nonadecapeptide homologous to the teleost melanin-concentrating hormone (MCH), the amino acid sequence predicted from a rat prepro-MCH (ppMCH) cDNA suggested that at least one (neuropeptide EI, or NEI), and possibly a second (NGE), additional neuropeptide may be encoded by this precursor. Cross-reactivity with epitopes of NEI or NGE can account for reported localization of alpha-MSH, rat CRF, and human GRF in rat dorsolateral hypothalamic neurons. We have used antisera raised against rat MCH and NEI in immunohistochemical studies at the light and electron microscopic levels, along with hybridization histochemical localization of ppMCH mRNA, to define the organization of this system. As expected, ppMCH mRNA is prominently expressed in cells in the lateral hypothalamic area and zona incerta. The MCH and NEI peptides were extensively colocalized in neurons in both of these areas. In addition, smaller cell groups in the olfactory tubercle and pontine tegmentum were also positively hybridized for ppMCH mRNA and immunostained for MCH and NEI. Fibers stained for MCH and NEI were similarly, and very broadly, distributed throughout the central nervous system in patterns that generally conformed with known projection fields of the lateral hypothalamic area and zona incerta. A differential distribution was seen in at least one region, the interanterodorsal nucleus of the thalamus, which contained a prominent terminal field stained for MCH but not NEI. At the electron microscopic level, MCH-stained perikarya displayed a prominent staining associated with the Golgi apparatus; this was not encountered in NEI-stained cells. Both peptides were distributed similarly in terminals in the lateral hypothalamic area and median eminence, with staining associated principally with dense-cored vesicles. The results suggest that ppMCH-derived peptides may serve as neurotransmitters or modulators of prominence in a surprisingly expansive projection field of incerto-hypothalamic neurons. The terminal distributions of this system seem most compatible with functional roles in generalized arousal and sensorimotor integration, processes previously implicated as being subject to modulation by the lateral hypothalamic area.     

Facilitation and inhibition of plasma cortisol following electrical stimulation of the goldfish forebrain

To examine the role of forebrain structures in the control of ACTH release, electrical stimulation was performed in the brains of continuously respirated, immobilized goldfish in which endogenous ACTH release was suppressed with dexamethasone. Three active areas of the forebrain were identified. Electrical stimulation for 5 min resulted in elevations of plasma cortisol 15 min following stimulation of the nucleus preopticus (NPO) or of the nucleus tenia (NT) but a decrease in plasma cortisol following stimulation of the nucleus lateral tuberis (NLT). The results of this study demonstrate that the NPO and NT facilitate, whereas nerve fibers originating in or passing through the NLT inhibit, ACTH release in the goldfish.     

A comparison of the behavioral effects of CRF, sauvagine and urotensin I

To examine the role of forebrain structures in the control of ACTH release, electrical stimulation was performed in the brains of continuously respirated , immobilized goldfish in which endogenous ACTH release was suppressed with dexamethasone. Three active areas of the forebrain were identified. Electrical stimulation for 5 min resulted in elevations of plasma cortisol 15 min following stimulation of the nucleus preopticus (NPO) or of the nucleus tenia (NT) but a decrease in plasma cortisol following stimulation of the nucleus lateral tuberis (NLT). The results of this study demonstrate that the NPO and NT facilitate, whereas nerve fibers originating in or passing through the NLT inhibit, ACTH release in the goldfish.     

Oreochromis mossambicus (tilapia) corticotropin-releasing hormone: cDNA sequence and bioactivity

Although hypothalamic corticotropin-releasing hormone (CRH) is involved in the stress response in all vertebrate groups, only a limited number of studies on this neuroendocrine peptide deals with non-mammalian neuroendocrine systems. We determined the cDNA sequence of the CRH precursor of the teleost Oreochromis mossambicus (tilapia) and studied the biological potency of the CRH peptide in a homologous teleost bioassay. Polymerase chain reaction (PCR) with degenerate and specific primers yielded fragments of tilapia CRH cDNA. Full-length CRH cDNA (988 nucleotides) was obtained by screening a tilapia hypothalamus cDNA library with the tilapia CRH PCR products. The precursor sequence (167 amino acids) contains a signal peptide, the CRH peptide and a motif conserved among all vertebrate CRH precursors. Tilapia CRH (41 aa) displays between 63% and 80% amino acid sequence identity to CRH from other vertebrates, whereas the degree of identity to members of the urotensin I/urocortin lineage is considerably lower. In a phylogenetic tree, based on alignment of all full CRH peptide precursors presently known, the three teleost CRH precursors (tilapia; sockeye salmon, Oncorhynchus nerka; white sucker, Catostomus commersoni) form a monophyletic group distinct from amphibian and mammalian precursors. Despite the differences between the primary structures of tilapia and rat CRH, maximally effective concentrations of tilapia and rat CRH were equally potent in stimulating adrenocorticotropic hormone (ACTH) and alpha-MSH release by tilapia pituitaries in vitro. The tilapia and salmon CRH sequences show that more variation exists between orthologous vertebrate CRH structures, and teleost CRHs in particular than previously recognized. Whether the structural differences reflect different mechanisms of action of this peptide in the stress response remains to be investigated.     

Neuropeptide-E-1 Antagonizes the Action of Melanin-Concentrating Hormone on Stress-Induced Release of Adrenocorticotropin in the Rat

The physiological role of melanin-concentrating hormone (MCH) in mammals is still very elusive, but this peptide might participate in the central control of the hypothalamopituitary adrenal (HPA) axis during adaptation to stress. Cloning and sequencing of the rat MCH (rMCH) cDNA revealed the existence of additional peptides encoded into the MCH precursor. Among these peptides, neuropeptide (N) glutamic acid (E) isoleucine (I) arnide (NEI) is co-processed and secreted with MCH in rat hypothalamus. In the present work we examined: (1) The pattern of rMCH mRNA expression during the light and dark conditions in the rat hypothalamus and (2) The effect of intracerebroventricular (ICV) injections of rMCH and NEI in the control of basal or ether stress-modified release of corticotropin (ACTH), prolactin (PRL) and growth hormone (GH) secretion in vivo in light-on and light-off conditions. Our data indicate that rMCH mRNA levels do not change during the light-on period, but increase after the onset of darkness. Either alone or co-administered, rMCH and NEI do not modify basal secretion of GH and PRL at any time tested nor do they alter ether stress-induced changes in these two hormonal secretions. At the end of the light on period corresponding to the peak of the circadian rhythm in ACTH, administration of rMCH but not NEI leads to a decrease in ACTH levels while MCH is not effective during the light off period of the cycle (i.e. when basal ACTH levels are already low). Using a moderate ether induced stress, ACTH levels are only stimulated during the dark phase of the cycle. rMCH (63 or 210 nmoles) prevents the rise in ACTH release while NEI alone does not modify the stress response. Co-administration of both peptides before stress results in an abolition of the rMCH induced inhibition of ACTH plasma levels. Taken together, these data indicate that rMCH may act as a central corticotropin inhibitory factor involved in the circadian rhythmicity of plasma ACTH levels and that NEI antagonizes its action.     

Assessment of the hypothalamic-pituitary-adrenal axis over a 24-hour diurnal period and in response to neuroendocrine challenges in women with and without childhood sexual abuse and posttraumatic stress disorder.

BACKGROUND: Preclinical studies showed that early stress results in long-term alterations in the hypothalamic-pituitary-adrenal (HPA) axis. We performed a comprehensive assessment of the HPA axis in women with and without a history of early childhood sexual abuse and posttraumatic stress disorder (PTSD). METHODS: Fifty-two women with and without a history of early childhood sexual abuse and PTSD underwent a comprehensive assessment of the HPA axis, including measurement of cortisol in plasma every 15 min over a 24-hour period and cortisol and corticotropin (ACTH) following corticotropin-releasing factor (CRF) and ACTH challenge. RESULTS: Abused women with PTSD had lower levels of cortisol during the afternoon hours (12:00-8:00 PM) of a 24-hour period compared with non-PTSD women. Their ACTH response to a CRF challenge was blunted compared with nonabused non-PTSD (but not abused non-PTSD) women. There were no differences in cortisol response to CRF and ACTH challenges between the groups. Increased PTSD symptom levels were associated with low afternoon cortisol levels. CONCLUSIONS: These findings suggest that early abuse is associated with increased CRF drive as evidenced by decreased pituitary sensitivity to CRF, whereas in abuse with PTSD there is a specific hypocortisolemia that is most pronounced in the afternoon hours.     

Dysregulation of the hypothalamic-pituitary-adrenal (HPA) axis in irritable bowel syndrome

Abstract  Enhanced stress responsiveness has been implicated as a potential mechanism contributing to the pathophysiology of irritable bowel syndrome (IBS), and should be reflected in altered function of the hypothalamic-pituitary-adrenal (HPA) axis and the sympathetic nervous system. Both of these systems can modulate mucosal immune function. The aims of this study were: (i) to characterize the basal circadian rhythm of adrenocorticotropin hormone (ACTH) and cortisol in IBS vs healthy controls; (ii) to compare stimulated ACTH, cortisol and noradrenaline responses to a pelvic visceral stressor (sigmoidoscopy) in IBS and controls; and (iii) to correlate neuroendocrine responses with colonic mucosal cytokine expression and symptoms in IBS. Two separate studies were conducted in women. In Study 1, basal cortisol levels were analysed in 41 IBS and 25 controls using 24-h collections of plasma ACTH and cortisol (q10 min sampling). In Study 2, 10 IBS patients with diarrhoea (IBS-D) and 10 controls underwent sigmoidoscopy with measurements of stimulated neuroendocrine responses and cytokine mRNA expression in colonic tissue. Basal ACTH levels were significantly blunted ( P  <   0.05), while basal and stimulated plasma cortisol levels were higher in patients. Basal cortisol levels prior to an experimental visceral stressor positively correlated with anxiety symptoms ( P  <   0.004), but not IBS symptoms. Irritable bowel syndrome patients with diarrhoea had significantly decreased mRNA expression of mucosal cytokines [interleukin (IL)-2, IL-6] in the sigmoid colon vs controls ( P  <   0.05). Although dysregulations in stress-responsive systems such as the HPA axis and mucosal immune function are demonstrated in IBS, they do not appear to have a primary role in modulating IBS severity and abdominal pain.     

The Effect of Photoperiod on Plasma Levels of Melanin-Concentrating Hormone in the Trout

The neurohypophysial melanin-concentrating hormone, MCH, plays a role in adaptive colour change in teleost fishes, inducing pallor when the fish is placed in pale-coloured surroundings. The present study shows that its plasma concentration, measured in groups of white-adapted fish, is not uniformly high throughout the day but follows a clear diurnal pattern. Over a 24 h cycle, plasma concentrations rise gradually during the morning to reach peak values around the middle of the photophase, after which they decline significantly before night. Lowest concentrations are observed during the dark period. This pattern was observed under a long photoperiod in summer and a short photoperiod in winter. The peak was shifted within a week of changing the onset of either light or dark. When dawn was delayed by 6 h for fish held on a long photoperiod, the usual morning rise in hormone titres was suppressed but, with the advent of light, hormone concentrations rose more rapidly than usual to reach peak values at about the normal time. If the dawn was advanced by 6 h for fish held under short photoperiod conditions, then peak concentrations were attained 6 h precociously. Fish from a long photoperiod placed in constant light showed a pattern of MCH release which approximated to the normal over the first 24 h period but plasma values then became raised and periodicity was no longer discernible. Plasma hormone concentrations were much reduced in trout kept in black coloured tanks in which nocturnal and daytime values differed, but significant differences during the photophase were not demonstrable. The results suggest that an illuminated white background can initiate the early morning release of MCH, and that an endogenous pacemaker underlies the pattern of MCH secretion.     

The ACTH response to dexamethasone in PTSD

OBJECTIVE: Enhanced negative feedback and reduced adrenal output are two different models that have been put forth to explain the paradoxical observations of increased release of corticotropin-releasing factor in the face of low cortisol levels in posttraumatic stress disorder (PTSD). To discriminate between these models, the authors measured levels of adrenocorticopic hormone (ACTH) and cortisol at baseline and in response to dexamethasone in medically healthy subjects with and without PTSD. Under conditions of enhanced negative feedback inhibition, ACTH levels would not be altered relative to cortisol levels, but the ACTH response to dexamethasone would be augmented, in concert with the enhanced cortisol response to dexamethasone. In contrast, under conditions of reduced adrenal output, ACTH levels would be expected to be higher at baseline relative to cortisol levels, but the ACTH response to dexamethasone would be unchanged in PTSD relative to healthy comparison subjects. METHOD: The ACTH and cortisol responses to 0.50 mg of dexamethasone were assessed in 19 subjects (15 men and four women) with PTSD and 19 subjects (14 men and five women) without psychiatric disorder. RESULTS: The ACTH-to-cortisol ratio did not differ between groups before or after dexamethasone, but the subjects with PTSD showed greater suppression of ACTH (as well as cortisol) in response to dexamethasone. CONCLUSIONS: The data support the hypothesis of enhanced cortisol negative feedback inhibition of ACTH secretion at the level of the pituitary in PTSD. Pituitary glucocorticoid receptor binding, rather than low adrenal output, is implicated as a likely mechanism for this effect.     

Effect of opioid receptor antagonists on hypothalamic-pituitary-adrenal activity in rhesus monkeys

Some opioid antagonists increase the release of adrenocorticotropic hormone (ACTH) and cortisol in humans and, therefore, may indicate that endogenous opioids modulate hypothalamic-pituitary-adrenal axis activity. The type of opioid receptor that may be related to these endocrine effects is unknown. The purpose of this experiment was to evaluate the ability of different opioid antagonists to increase ACTH and cortisol plasma levels in rhesus monkeys. Eight monkeys received intramuscular injections of various antagonists: 0.0032-1.0 mg/kg naltrexone, 0.1-3.2 mg/kg naltrindole (delta-selective), 0.032-0.32 mg/kg clocinnamox (mu-selective), and 1-3.2 mg/kg nor-binaltorphimine (kappa-selective). Naltrexone, 0.1-1.0 mg/kg, increased ACTH levels, whereas naltrindole and clocinnamox failed to increase ACTH levels. Nor-binaltorphimine, 1-3.2 mg/kg, increased ACTH concentrations on the day of injection, but not at a time when other assays continue to demonstrate kappa-antagonism (24 h). Cortisol concentrations generally followed the same pattern as the ACTH concentrations, but the incremental differences in cortisol release between doses were less clear. Thus, opioid modulation of ACTH and cortisol plasma levels is not clearly associated with a particular opioid receptor. Although the kappa-antagonist increased ACTH and cortisol release on the day of injection, some evidence suggests that this endocrine effect may be due to mechanisms other than those mediated by the kappa-receptor. Alternatively, the naltrexone-induced increase of ACTH and cortisol plasma levels may be caused by activity at multiple opioid receptors or some uncharacterized receptor. Finally, the increased release of ACTH and cortisol may be a response to naltrexone's aversive properties.     

Ciliated neurons of the nucleus praeopticus magnocellularis and nucleus lateralis tuberis of an advanced teleost, Chelon labrosus (Risso, 1826)

Large groups of cilia are found on certain nucleus praeopticus magnocellularis (NPOM) and nucleus lateralis tuberis (NLT) neurons in the hypothalamus of a higher teleost, Chelon labrosus. They normally appear in an invaginated area of the perikaryon in the proximity of large numbers of synapsis buttons, and often close to unfenestrated capillaries. It is suggested that these ciliosynaptic groups act as osmoreceptors.     

Dissociation of TSH and adrenocortical disturbance in endogenous depression

To evaluate a possible interaction between the pituitary-thyroid axis and the pituitary-adrenal axis, we measured serum levels of thyrotropin (thyroid stimulating hormone; TSH), the maximal TSH response (Δ max TSH) to thyrotropin releasing hormone (TRH), serum and cerebrospinal fluid (CSF) levels of cortisol, urinary excretion of cortisol, and the plasma levels of adrenocorticotropic hormone (ACTH) in 20 patients with endogenous depression before and after electroconvulsive therapy. No significant correlations were found between serum TSH or Δ max TSH on the one hand, and serum and CSF cortisol or urinary excretion of cortisol on the other hand. A direct correlation was found between serum cortisol and plasma ACTH.     

Central and peripheral ACTH and cortisol levels in anorexia nervosa and bulimia

To explore the relationship of central and peripheral adrenocorticotropic hormone (ACTH, or corticotropin) levels to hypothalamo-pituitary-adrenal axis dysfunction in patients with eating disorders, levels of cerebrospinal fluid (CSF) and plasma ACTH, cortisol, and 24-hour urinary free cortisol were measured in 16 patients with anorexia nervosa (60% +/- 1.1% of ideal body weight), 14 patients with bulimia (93.2% +/- 4.6% of ideal body weight), and 11 healthy age-matched women volunteers. The CSF, plasma, and urinary free cortisol levels were elevated in underweight anorexic patients and showed declines following weight recovery. Cortisol-binding globulin levels were similar in anorexics and controls. In contrast, underweight anorexics showed low CSF ACTH levels that returned to normal following weight recovery, and their plasma ACTH levels were normal. On hospital admission, bulimic patients demonstrated normal ACTH and cortisol levels. After their abstinence from binge-purge episodes, the CSF ACTH levels decreased significantly. Positive relationships were found among CSF, plasma, and urinary cortisol levels, and inverse relationships were seen between cortisol measures and CSF ACTH levels in patients with eating disorders. Secretion of ACTH into the CSF may respond to feedback by cortisol or, alternatively, may be suppressed by the hypersecretion of corticotropin-releasing hormone, leading to the depletion of the pro-opiomelanocortin molecule.     

Diuretic and Natriuretic Actions of Melanin Concentrating Hormone in Conscious Sheep

Melanin concentrating hormone (MCH) is a 19 amino-acid peptide expressed in high concentrations within the dorso-lateral hypothalamus of rats, sheep and man. MCH regulates skin colour and ACTH release in teleost fish, however, its physiological relevance in mammals is unclear. The present study examined the cardiovascular and metabolic actions of intracerebroventricular (i.e.v.) infusion of MCH, and the pro-MCH derived peptide Neuropeptide-E-I (NEI), in conscious, chronically instrumented sheep. Human MCH (1–19) or NEI (1–13) was infused i.e.v. for 24 h into 6 sheep, and measurements were made every 10 min of arterial pressure, heart rate, cardiac output, stroke volume and peripheral blood flow/conductance. Recordings of water intake (H²Oin), urine volume (Uv), urinary Na (UNaV) and K excretion (UKV) were made, as well as hematocrit, plasma Na, K, osmolality, protein, glucose, ACTH, vasopressin, renin, endothelin, ANF, Cortisol and aldosterone concentrations. After 24 h of infusion at 10 μg/h, MCH produced a significant increase in Uv from 0.8 ± 0.2 to 1.4 ± 0.3 l/day, together with an increase in UNaV from 56 ± 8 to 107 ± 14 mmol/day, and in UKV from 202 ± 18 to 369 ± 38 mmol/day. H²Oin was unchanged. Similar renal changes were observed during i.e.v. infusion of NEI. There was no change in any cardiovascular parameter, although hematocrit showed a large decrease with infusion of both peptides after 24 h infusion. Plasma osmolality increased from 291 ±1 to 295 ± 1 mOsm/kg during MCH infusion, whereas total protein and plasma Na and K were unchanged. MCH increased plasma glucose from 3.4 ± 0.2 to 3.8 ± 0.2 mmol/l. Plasma aldosterone exhibited a 30–40% decrease following MCH or NEI infusion, whereas all other plasma concentrations remained unchanged. This study has shown that i.c.v. infusion of MCH or NEI can produce diuretic, natriuretic and kaliuretic changes in conscious sheep, triggered by a possible increase in plasma volume as indicated by the changes in hematocrit. These results, together with anatomical data reporting the presence of MCH/NEI in fluid regulatory areas of the brain, indicate that MCH/NEI may be an important peptide involved in the central control of fluid homeostasis in mammals.     

Effects of low- and high-intensity exercise on plasma and cerebrospinal fluid levels of ir-beta-endorphin, ACTH, cortisol, norepinephrine and glucose in the conscious dog

This study was designed to assess effects of exercise on plasma and cerebrospinal fluid (CSF) levels of immunoreactive (ir) beta-endorphin, ACTH, cortisol, norepinephrine, and glucose in the conscious dog. Dogs were exercised on a treadmill at low or high intensity (4.2 miles/h and a 6% or 20% incline) for 90 min, and were allowed to recover for 90 additional min. Neither intensity of exercise changed plasma glucose levels, but dose-related changes in glucose kinetics did occur. CSF glucose declined in both groups. During low intensity exercise, plasma levels of ir-beta-endorphin, ACTH, and cortisol increased with duration of exercise. During high intensity exercise, ACTH, ir-beta-endorphin and cortisol increased faster, and the integrated plasma response of these hormones was greater. Thus, peripheral release of ir-beta-endorphin, ACTH, and cortisol during exercise is dose-related with respect to time and intensity. CSF ir-beta-endorphin and ACTH both increased during low- but not high-intensity exercise. CSF cortisol rose markedly in both exercise groups. During high-intensity exercise there was a 50% increase in CSF norepinephrine, indicating that exercise induces alterations in central noradrenergic turnover. We conclude that exercise is a physiologic regulator of both peripheral and central neuroendocrine systems.