Design of MC1R Selective γ-MSH Analogues with Canonical Amino Acids Leads to Potency and Pigmentation.

Melanoma is a lethal form of skin cancer. Skin pigmentation, which is regulated by the melanocortin 1 receptor (MC1R), is an effective protection against melanoma. However, the endogenous MC1R agonists lack selectivity for the MC1R and thus can have side effects. The use of noncanonical amino acids in previous MC1R ligand development raises safety concerns. Here we report the development of the first potent and selective hMC1R agonist with only canonical amino acids. Using γ-MSH as a template, we developed a peptide, [Leu3, Leu7, Phe8]-γ-MSH-NH2 (compound 5), which is 16-fold selective for the hMC1R (EC50 = 4.5 nM) versus other melanocortin receptors. Conformational studies revealed a constrained conformation for this linear peptide. Molecular docking demonstrated a hydrophobic binding pocket for the melanocortin 1 receptor. In vivo pigmentation study shows high potency and short duration. [Leu3, Leu7, Phe8]-γ-MSH-NH2 is ideal for inducing short-term skin pigmentation without sun for melanoma prevention.

Effect of Melanotan-II on Brain Fos Immunoreactivity and Oxytocin Neuronal Activity and Secretion in Rats.

Melanocortins stimulate the central oxytocin systems that are involved in regulating social behaviours. Alterations in central oxytocin have been linked to neurological disorders such as autism, and melanocortins have been proposed for therapeutic treatment. In the present study, we investigated how systemic administration of melanotan-II (MT-II), a melanocortin agonist, affects oxytocin neuronal activity and secretion in rats. The results obtained show that i.v., but not intranasal, administration of MT-II markedly induced Fos expression in magnocellular neurones of the supraoptic (SON) and paraventricular nuclei (PVN) of the hypothalamus, and this response was attenuated by prior i.c.v. administration of the melanocortin antagonist, SHU-9119. Electrophysiological recordings from identified magnocellular neurones of the SON showed that i.v. administration of MT-II increased the firing rate in oxytocin neurones but did not trigger somatodendritic oxytocin release within the SON as measured by microdialysis. Our data suggest that, after i.v., but not intranasal, administration of MT-II, the activity of magnocellular neurones of the SON is increased. Because previous studies showed that SON oxytocin neurones are inhibited in response to direct application of melanocortin agonists, the actions of i.v. MT-II are likely to be mediated at least partly indirectly, possibly by activation of inputs from the caudal brainstem, where MT-II also increased Fos expression.

Melanocortin 3/4 receptors in paraventricular nucleus modulate sympathetic outflow and blood pressure.

Central melanocortin 3/4 receptors (MC3/4Rs) are known to regulate energy balance. Activation of MC3/4Rs causes a greater increase in the firing activity of the PVN neurons in obese Zucker rats than in lean Zucker rats. The present study was undertaken to determine the roles of MC3/4Rs in the hypothalamic paraventricular nucleus (PVN) in modulating the sympathetic activity and blood pressure and its downstream pathway. Renal sympathetic nerve activity (RSNA) and mean arterial pressure (MAP) were recorded in anaesthetized rats. Microinjection of the MC3/4R agonist melanotan II (MTII) into the PVN increased the RSNA and MAP. The MC3/4R antagonist agouti-related peptide (AgRP) or SHU9119 decreased the RSNA and MAP, but the MC4R antagonist HS024 had no significant effect on the RSNA and MAP. The effects of MTII were abolished by pretreatment of the PVN with AgRP, SHU9119, the adenylate cyclase inhibitor SQ22536 or the protein kinase A inhibitor Rp-cAMP, and substantially attenuated by HS024. Microinjection of SQ22536 alone into the PVN had no significant effect on the RSNA and MAP, but Rp-cAMP caused significant decreases in the RSNA and MAP. Furthermore, MTII increased the cAMP level in the PVN. These results indicate that activation of MC3/4Rs in the PVN increases the sympathetic outflow and blood pressure via the cAMP-protein kinase A pathway. Melanocortin 3 receptors in the PVN may exert a tonic excitatory effect on sympathetic activity.

Intracerebroventricular administration of vasoactive intestinal peptide inhibits food intake.

Vasoactive intestinal peptide (VIP) is a 28 amino acid peptide expressed throughout the peripheral and central nervous systems. VIP and the VIP receptor VPAC(2)R are expressed in hypothalamic nuclei involved in the regulation of energy homeostasis. VIP has been shown to be involved in the regulation of energy balance in a number of non-mammalian vertebrates. We therefore examined the effects of intracerebroventricular (ICV) administration of VIP on food intake, energy expenditure and activity in adult male Wistar rats. VIP administration caused a potent short lived decrease in food intake and an increase in activity and energy expenditure. The pathways potentially involved in the anorexigenic effects of VIP were investigated by measuring the release of neuropeptides involved in the regulation of food intake from hypothalamic explants treated with VIP. VIP significantly stimulated the release of the anorexigenic peptide alpha-melanocyte stimulating hormone (αMSH). These studies suggest that VIP may have an endogenous role in the hypothalamic control of energy homeostasis.

Melanocortins protect against multiple organ dysfunction syndrome in mice.

BACKGROUND AND PURPOSE: Melanocortins reverse circulatory shock and improve survival by counteracting the systemic inflammatory response, and through the activation of the vagus nerve-mediated cholinergic anti-inflammatory pathway. To gain insight into the potential therapeutic value of melanocortins against multiple organ damage following systemic inflammatory response, here we investigated the effects of the melanocortin analogue [Nle4 D-Phe7]α-MSH (NDP-α-MSH) in a widely used murine model of multiple organ dysfunction syndrome (MODS). EXPERIMENTAL APPROACH: MODS was induced in mice by a single intraperitoneal injection of lipopolysaccharide followed, 6 days later (= day 0), by zymosan. After MODS or sham MODS induction, animals were randomized to receive intraperitoneally NDP-α-MSH (340 µg·kg⁻¹ day) or saline for up to 16 days. Additional groups of MODS mice were concomitantly treated with the melanocortin MC4 receptor antagonist HS024, or the nicotinic acetylcholine receptor antagonist chlorisondamine, and NDP-α-MSH. KEY RESULTS: At day 7, in the liver and lung NDP-α-MSH, significantly reduced mRNA expression of tumour necrosis factor-α (TNF-α), increased mRNA expression of interleukin-10 and improved the histological picture, as well as reduced TNF-α plasma levels; furthermore, NDP-α-MSH dose-dependently increased survival rate, as assessed throughout the 16 day observation period. HS024 and chlorisondamine prevented all the beneficial effects of NDP-α-MSH in MODS mice. CONCLUSIONS AND IMPLICATIONS: These data indicate that NDP-α-MSH protects against experimental MODS by counteracting the systemic inflammatory response, probably through brain MC4 receptor-triggered activation of the cholinergic anti-inflammatory pathway. These findings reveal previously undescribed effects of melanocortins and could have clinical relevance in the MODS setting.

Brain apolipoprotein E: an important regulator of food intake in rats.

OBJECTIVE: The worldwide prevalence of obesity is increasing at an alarming rate, along with the associated increased rates of type 2 diabetes, heart disease, and some cancers. While efforts to address environmental factors responsible for the recent epidemic must continue, investigation into the anorectic functions of potential molecules we present here, such as apolipoprotein (apo)E, offers exciting possibilities for future development of successful anti-obesity therapies. RESEARCH DESIGN AND METHODS: Changes in feeding behavior after intracerebroventricular injection of apoE, the regulation of hypothalamic apoE gene expression by energy status, and the interaction of hypothalamic apoE with other neuropeptides were studied. RESULTS: Intracerebroventricular apoE significantly decreased food intake without causing malaise, whereas intracerebroventricular infusion of apoE antiserum stimulated feeding, implying that endogenous apoE tonically inhibits food intake. Consistent with this, apoE was present in the hypothalamus, a brain site intimately involved in the integration of signals for energy homeostasis. Fasted rats exhibited significantly decreased apoE gene expression in the hypothalamus, and refeeding of these rats for 4 h evoked a significant increase of hypothalamic apoE mRNA levels. Both genetically obese (ob/ob) mice and rats with high-fat diet-induced obesity had significantly reduced hypothalamic apoE mRNA levels compared with their lean control counterparts, suggesting that decreased apoE may contribute to hyperphagia in these obese animals. Additionally, apoE-stimulated hypothalamic proopiomelanocortin gene expression and SHU9119, a melanocortin 3/4 receptor antagonist, attenuated the inhibitory function of apoE on feeding. CONCLUSIONS: These data demonstrate that apoE suppresses food intake via a mechanism enhancing melanocortin signaling in the hypothalamus.

A derivative of the melanocortin receptor antagonist SHU9119 (PG932) increases food intake when administered peripherally.

Melanocortin receptors are considered promising candidates for the treatment of behavioral and metabolic disorders ranging from obesity to anorexia and cachexia. These experiments examined the response of mice to peripheral injections of two compounds. PG932 is a derivative of SHU9119 which is non-selective antagonist of melanocortin-3 and melanocortin-4 receptors (Mc3r and Mc4r). PG946 is a derivative of a hybrid of alpha- and beta-MSH, and is a moderately selective Mc3r antagonist. SHU9119 increases food intake when administered intracerebroventricularly but is without effect when injected into the periphery. In contrast, PG932 was found to be highly effective at stimulating food intake when administered peripherally by intraperitoneal injection. The orexigenic effect of PG932 required functional Mc4r, suggesting that inhibition of this receptor is involved in the stimulation of food intake. PG946 did not significantly affect on feeding behavior. PG932 is thus a useful new compound for studies examining the regulation of appetite and energy balance, and may also prove useful for the treatment of cachectic conditions.

Neuroprotective effects of melanocortins in experimental spinal cord injury. An experimental study in the rat using topical application of compounds with varying affinity to melanocortin receptors.

The possibility that local administration of low molecular weight non-peptide compounds with varying affinities at melanocortin receptors in the spinal cord will influence pathophysiological outcome of spinal cord injury (SCI) was examined in a rat model. Five new Melacure compounds ME10092, ME10354, ME10393, ME10431 and ME10501 were used in this investigation. Each compound was dissolved in saline and tested at 3 different doses, i.e. 1 microg, 5 microg and 10 microg total dose in 10 microl applied topically 5 min after SCI. The animals were allowed to survive 5 h and trauma induced edema formation, breakdown of the blood-spinal cord barrier (BSCB) and cell injuries were examined and compared with untreated injured rats. A focal SCI inflicted by an incision into the right dorsal horn of the T10-11 segments resulted in marked edema formation, breakdown of the BSCB to Evans blue albumin and caused profound nerve cell injury in the T9 and the T12 segments. Topical application of ME10501 (a compound with high affinity at melanocortin, MC-4 receptors) in high doses (10 microg) resulted in most marked neuroprotection in the perifocal spinal cord (T9 and T12) segments. On the other hand, only a mild or no effect on spinal cord pathology was observed in the traumatized animals that received ME10092, ME10354, ME10393 and ME10431 at 3 different doses. These observations suggest that non-peptide compounds with varying affinity to melanocortin receptors are able to influence the pathophysiology of SCI. Furthermore, compounds acting at melanocortin, MCR4 receptors are capable to induce neuroprotection in spinal cord following trauma.

Central administration of peptide and small molecule MC4 receptor antagonists induce hyperphagia in mice and attenuate cytokine-induced anorexia.

We investigated the effect of melanocortin 4 receptor (MC4) antagonists on food intake in mice. Food intake during the light phase was significantly increased by ICV administration of mixed MC3/MC4 antagonists (AgRP and SHU9119) or MC4 selective antagonist peptide [(Cyclo (1-5)[Suc-D-Nal-Arg-Trp-Lys]NH2] (MBP10) and the small molecule antagonists THP and NBI-30. Both mixed and selective antagonists significantly reversed anorexia induced by ICV administration of the MC4 agonist (c (1-6) HfRWK-NH2) and the cytokine IL-1beta. These findings provide pharmacological evidence that the MC4 receptor mediates the effects of melanocortin agonists and antagonists on food intake in mice, and support the idea that selective small molecule MC4 antagonists may be useful as therapeutics for cachexia.

The melanocortin 4 receptor mediates leptin stimulation of luteinizing hormone and prolactin surges in steroid-primed ovariectomized rats.

We have previously reported that leptin, the product of the obese (ob) gene, may play a physiologically relevant role in the generation of estradiol/progesterone-induced luteinizing hormone (LH) and prolactin (PRL) surges in female rats. In the present study, we examined whether the stimulatory effect of leptin on the hormonal surges is mediated through the melanocortin (MC) 4 receptor in the brain, as is leptin's effect on feeding behavior. We also explored whether the MC4 receptor participates in tonic stimulation of steroid-induced LH and PRL surges. Experiments were performed on both normally fed and 3-day starved rats, which were ovariectomized and primed with estradiol and progesterone. At 11:00 h on the day of the experiments, the normally fed rats received an intracerebroventricular administration of artificial cerebrospinal fluid (vehicle), SHU 9119 (a nonselective MC3/MC4 receptor antagonist, 1.0 nmol), or HS014 (a selective MC4 receptor antagonist, 1.0 nmol). The 3-day starved rats were given vehicle, recombinant mouse leptin (0.3 nmol), leptin (0.3 nmol) + SHU9119 (1.0 nmol), or leptin (0.3 nmol) + HS014 (1.0 nmol). From 11:00 to 18:00 h, blood was collected every 30 min to measure LH and PRL. The 3-day starvation completely abolished both LH and PRL surges, but leptin significantly reinstated these hormonal surges. Both SHU9119 and HS014 significantly decreased the magnitude of LH and PRL surges in normally fed rats and also significantly blocked the leptin stimulation of the hormonal surges in starved rats. These results suggest that the MC4 receptor may be the pivotal subtype of MC receptors mediating the leptin stimulation of LH and PRL surges. The data also suggest that endogenous MC(s) may tonically stimulate the hormonal surges in normally fed rats via the MC4 receptor. This is the first report describing a physiological role of a specific MC receptor in regulating the reproductive axis.

Systemic alpha-MSH suppresses LPS fever via central melanocortin receptors independently of its suppression of corticosterone and IL-6 release.

Systemically administered alpha-melanocyte-stimulating hormone (alpha-MSH) inhibits endotoxin (lipopolysaccharide; LPS)- or interleukin (IL)-1-induced fever and adrenocortical activation, but the sites of these actions and the mechanisms involved are unknown. The aims of this study were, first, to determine whether melanocortin receptors (MCR) located within the central nervous system mediate the suppressive effects of peripherally administered alpha-MSH on LPS-induced fever and activation of the pituitary-adrenal axis and, second, to determine whether systemic alpha-MSH suppresses the LPS-induced rise in plasma IL-6 levels, potentially contributing to its antipyretic effect. Male rats received Escherichia coli LPS (25 microg/kg ip). Core body temperatures (Tb) were determined hourly by radiotelemetry (0-8 h), and blood was withdrawn via venous catheters for plasma hormone immunoassays (0-2 h) and IL-6 bioassay (0-8 h). alpha-MSH (100 microg/kg ip) completely prevented the onset of LPS-induced fever during the first 3-4 h after LPS and suppressed fever throughout the next 4 h but did not affect Tb in afebrile rats treated with intraperitoneal saline rather than LPS. Intraperitoneal alpha-MSH also suppressed the LPS-induced rise in plasma IL-6, ACTH, and corticosterone (CS) levels. Intracerebroventricular injection of SHU-9119, a potent melanocortin-4 receptor (MC4-R)/MC3-R antagonist, completely blocked the antipyretic effect of intraperitoneal alpha-MSH during the first 4 h after LPS but had no effect on alpha-MSH-induced suppression of LPS-stimulated plasma IL-6 and CS levels. Taken together, the results indicate that the antipyretic effect of peripherally administered alpha-MSH during the early phase of fever is mediated by MCR within the brain. In contrast, the inhibition of LPS-induced increases in plasma CS and IL-6 levels by intraperitoneal alpha-MSH appears to be mediated by a different mechanism(s), and these effects do not contribute to its antipyretic action.

Polymeric drug-carriers containing doxorubicin and melanocyte-stimulating hormone: in vitro and in vivo evaluation against murine melanoma.

N-(2-Hydroxypropyl)methacrylamide (HPMA) copolymers containing doxorubicin (DOX, approximately 8% by weight) bound via the lysosomally degradable spacer Gly-Phe-Leu-Gly and, in certain cases, also melanocyte-stimulating hormone (MSH, 5-10% by weight) were synthesized with the aim of developing a drug conjugate for site-specific delivery to malignant melanoma. Polymer-bound MSH, like free MSH, was able to stimulate tyrosinase activity in B16F10 cells in vitro, confirming the ability of conjugated hormone to interact with the MSH receptor. Similarly, a 125I-labelled conjugate containing MSH was captured by B16F10 cells in vitro more rapidly than a similar polymer without the targeting moiety. HPMA copolymers containing DOX bound via the lysosomally degradable Gly-Phe-Leu-Gly linkage were cytotoxic to a mouse melanoma cell line (M3 S91) in vitro, the MSH-containing conjugate being more active than that without (although the difference in the ID50 was not significant). When administered intraperitoneally or intravenously to C57BL/6J mice bearing intraperitoneal B16F10 tumours, HPMA copolymers containing DOX linked via this biodegradable spacer (with or without MSH) significantly increased animal survival, the maximum ratio of the mean survival of the test group (T) to that of the untreated control (C) T/C observed (approximately 200) over the dose range 5-20 mg DOX/kg being similar to that seen for free DOX. In contrast, neither polymer conjugates containing DOX bound via a non-degradable linkage (Gly-Gly) nor free MSH showed antitumour activity. In mice bearing established subcutaneous B16F10 tumours, biodegradable polymer-bound DOX conjugates given intraperitoneally were more effective than free DOX (which was virtually inactive in this system); conjugates containing MSH were significantly more effective than those without, the maximum T/C being approximately 148 and 324 respectively. Preliminary pharmacokinetic experiments showed evidence of selective MSH targeting of polymer conjugates to subcutaneous B16F10.

Intracameral administration of alpha-MSH increases intraocular pressure in rabbits.

A growing body of evidence suggests that neural peptides may induce important modulations on vegative and motor functions of the eye. The present study was designed to evaluate the effect of intracameral (I.C.) administration of alpha-melanocyte-stimulating hormone (alpha-MSH) and several other ocular peptides on intraocular pressure (IOP) in rabbits. alpha-MSH (5 micrograms) produced a significant and prolonged unilateral increase of IOP. This effect of I.C. alpha-MSH was dose-dependent (ED50 = 2.5 micrograms). Structure-activity studies revealed that equimolar doses of beta-MSH and gamma-MSH, unlike alpha-MSH, were totally ineffective. In addition, the structurally unrelated peptides beta-endorphin, thyrotropin-releasing hormone (TRH) and gonadotropin-releasing hormone (Gn-RH) did not affect IOP, when tested in a dose equimolar to 5 micrograms of alpha-MSH. These results confirm and extend previous observations, suggesting that alpha-MSH may be an important factor involved in regulation of IOP.

Release of LH in response to alpha-MSH administration.

The aim of the present study was to determine the effect of alpha-MSH on serum LH in order to obtain some clues about the possible, mechanism by which the peptide modifies gonadotropin secretion. Intact female rats treated with alpha-MSH on diestrus 2 afternoon exhibited an increase in serum LH levels at 18 hr on proestrus and an elevated number of ova per rat the day of estrus when compared with saline-treated controls. Moreover, the peptide administered in chronically ovariectomized (CHR-OVX) rats treated with estradiol benzoate (EB) plus low doses of progesterone (P), increased LH in serum as well as P serum levels when compared with levels in CHR-OVX animals treated with EB plus P and saline solution instead of alpha-MSH. It has been shown that LH release is blocked by OVX and adrenalectomy (ADX) on the afternoon of proestrus; this blockade was reversed by an injection of alpha-MSH at the time of the operation. Measurements of P in ADX-OVX animals treated with alpha-MSH showed that P serum levels were maintained for longer periods of time when compared with the P serum levels of ADX-OVX animals treated with saline. On the other hand, alpha-MSH infused into CHR-OVX rats treated with low doses of EB, which can lower serum LH levels, lowered the serum LH even more, although the serum P levels were increased. Finally alpha-MSH did not affect the serum LH levels in diestrous rats. The present results demonstrated that alpha-MSH influences the release of LH by modifying the release and/or the degradation of P. This P, in turn, modifies LH serum concentrations, having either a stimulatory or inhibiting effect on the release of LH, apparently depending on the time period it remains high in serum.

Effect of alpha-MSH on plasma levels of LH, FSH, progesterone and cortisol during the corpus luteum phase of the menstrual cycle.

In healthy women (21-28 years) the influence of synthetic alpha-MSH upon the peripheral plasms levels of LH, FSH, progesterone and cortisol was determined during the corpus luteum phase of the menstrual cycle. As controls 3 women were given 6 intravenous infusions of 250 ml NaCl; 4 women received a total of 18 intravenous infusions of 5-20 mg alpha-MSH from 9.00 to 11.00 a.m. on the 5th and 7th hyperthermic day of the menstrual cycle. The blood levels of the hormones were usually followed for 24 h, and in two cases for 48 h. During and after the control as well as the experimental infusions with 5-20 mg alpha-MSH, no significant changes in the plasma concentrations of LH, FSH and progesterone were found. The cortisol concentrations, however, showed on the average a 2-fold increase over the initial values during the infusion of 5 mg and 10 mg alpha-MSH. During the control infusions they were not enhanced. One experiment was conducted with 20 mg alpha-MSH. The increase in the plasma cortisol levels following alpha-MSH administration generally seemed to be dose dependent, but statistically no significant differences regarding the increase in cortisol level could be detected between the 5 mg and 10 mg doses.

Influence of acute administration of human growth hormone and alpha-MSH on plasma concentrations of aldosterone, cortisol, corticosterone and growth hormone in man.

The effect of acute administration of human growth hormone (HGH) and of alpha-melanocyte stimulating hormone (alpha-MSH) on plasma aldosterone, cortisol, corticosterone and growth hormone has been studied in normal man and in patients with panhypopituitarism. There is no acute effect of exogenous HGH on plasma levels of aldosterone, cortisol and corticosterone in normal man and in patients with panhypopituitarism. The plasma level of immunoreactive HGH measured during acute HGH infusion in man does not seem to be proportional to the dose administred in our study. Alpha-MSH raises the concentartion of plasma HGH, BYT THIS STIMULATION IS NOT DOSE-DEPENDENT. Aldosterone, cortisol and corticosterone concentrations are not influenced by the elevation of HGH mediated by alpha-MSH in normal man. Although in some patients with panhypopituitarism an elevation of plasma aldosterone concenntration following alpha-MSH infusion is observed, it is unlikely that MSH is directly involved in the acute regulation of aldosterone secretion in healthy subjects.