Nociceptin/orphanin FQ peptide receptor as a therapeutic target for obesity

Nociceptin/orphanin FQ (N/OFQ) peptide (NOP) receptor is a candidate target for novel therapeutics for a range of conditions, including obesity. This article reviews recent advances in understanding of N/OFQ's involvement in the regulation of food intake and appraises current developments in the rational design of antagonists aimed at the NOP receptor.     

Nociceptin/orphanin FQ: effects on thermoregulation in rats.

Nociceptin/orphanin FQ is a 17 amino acid peptide which acts as a potent endogenous agonist of the opioid receptor-like 1 (ORL1) receptor. ORL1 receptor is a G protein-coupled unique member of the cloned opioid receptor family. We have investigated the effects of nociceptin (1, 10 and 100 nM) on the temperature sensitivity of neurons from the preoptic area of the anterior hypothalamus (PO/AH) in rat brain slices. The body temperature of male Wistar rats was measured after intrahypothalamic application of nociceptin (1 nM) via cannulas in the PO/AH. Low dose nociceptin (1 nM) significantly increased (p < 0.05) temperature sensitivity (TC) of warm-sensitive PO/AH neurons, while the high concentration (100 nM) decreased TC in both warm-sensitive and temperature-insensitive neurons. Similar agonistic activity was obtained after addition of [Phe1 psi (CH2-NH) Gly2]-nociceptin-(1-13)-NH2 (1, 10 and 100 nM), recently proposed to be a selective antagonist of the nociceptin receptor. Neither antagonism nor additive synergism were observed when nociceptin and [Phe1 psi (CH2-NH) Gly2]-nociceptin-(1-13)-NH2 were applied simultaneously in equimolar concentrations. The selective opioid OP3 receptor antagonist CTOP, the selective opioid OP2 receptor antagonist nor-binaltorphimine and selective opioid OP1 receptor antagonist naltrindol had no influence on the effects of nociceptin on temperature sensitivity in PO/AH neurons. In vivo experiments showed that nociceptin (1 nM; 1 microliter/rat) significantly decreased body temperature (p < 0.05) between 30 and 60 min after intrahypothalamic application. These data are in agreement with the hypothesis that the specific action of endogeous substances on body temperature appears to be closely related to a specific change in the temperature sensitivity of warm-sensitive PO/AH neurons.     

The molecular and behavioral pharmacology of the orphanin FQ/nociceptin peptide and receptor family

The isolation of an opioid receptor-related clone soon led to the isolation and characterization of a new neuropeptide, termed orphanin FQ or nociceptin (OFQ/N). This heptadecapeptide binds to the NOP(1) (previously termed ORL1) receptor with exceedingly high affinity, but does not interact directly with classical opioid receptors. Functionally, the actions of OFQ/N are diverse and intriguing. Most work has focused upon pain mechanisms, where OFQ/N has potent anti-analgesic actions supraspinally and analgesic actions spinally. Other OFQ/N activities are less clear. The diversity of responses might reflect NOP(1) receptor heterogeneity, but this remains to be established. The actions of this neurochemical system may also be uniquely dependent on contextual factors, both genetic and environmental. This review will address the molecular biology and behavioral pharmacology of OFQ/N and its receptor.     

Nociceptin/orphanin FQ receptor knockout rats: in vitro and in vivo studies

Nociceptin/orphanin FQ (N/OFQ) regulates several biological functions via selective activation of the N/OFQ peptide (NOP) receptor. Recently knockout rats for the NOP receptor gene (NOP(−/−)) have been generated; these animals were used in the present study to investigate their emotional (open field, elevated plus maze, and forced swimming test), locomotor (drag and rotarod test), and nociceptive (plantar and formalin test) phenotypes in comparison with their NOP(+/+) littermates. In addition, N/OFQ sensitivity has been assessed in electrically stimulated vas deferens tissues taken from NOP(+/+) and NOP(−/−) rats. In the elevated plus maze and forced swimming tests NOP(−/−) rats showed anxiety- and anti-depressant-like phenotype, respectively. No differences were found in the open field test. NOP(−/−) rats outperformed their NOP(+/+) littermates in two motor behaviour assays. Genetic ablation of the NOP receptor gene produced a statistically significant increase in nociceptive behaviour of the mutant rats in the formalin test. Finally, in the electrically stimulated rat vas deferens taken from NOP(+/+) tissues, N/OFQ inhibited in a concentration-dependent manner the electrically induced twitches while the peptide was inactive in tissues taken from NOP(−/−) animals. These results, in line with previous findings obtained with selective NOP receptor antagonists in mice and rats and with mouse knockout studies, clearly indicate that endogenous N/OFQ-NOP receptor signalling plays an important role in controlling anxiety- and mood-related behaviours, exercise-driven locomotor activity and nociception. These observations are relevant for defining the therapeutic indications (and contraindications) of NOP receptor antagonists.     

孤啡肽对HL-60细胞增殖及凋亡的影响

目的研究孤啡肽对白血病细胞株HL-60细胞增殖及凋亡的影响。方法选择人急性早幼粒细胞白血病细胞株HL-60为实验模型,应用MTT比色法、形态学观察及流式细胞术(FCM)等方法对孤啡肽诱导其凋亡情况进行研究。结果孤啡肽能显著抑制HL-60细胞增殖,使细胞周期阻滞于G_0/G_1期,细胞凋亡率增加,FCM DNA直方图上G_0/G_1峰前有明显的亚二倍体凋亡峰,表明孤啡肽能明显抑制HL-60细胞的生长,诱导其发生凋亡,且存在时间依赖性,而剂量依赖性不明显。结论孤啡肽对HL-60细胞有增殖抑制和诱导凋亡作用。     

Pharmacological profile of nociceptin/orphanin FQ receptors

1. Nociceptin/orphanin FQ (NC) and its receptor (OP4) represent a novel peptide/receptor system pharmacologically distinct from classical opioid systems. 2. Via OP4 receptor activation, NC regulates several biological functions, both at peripheral and central levels; therefore, the OP4 receptor may be viewed as a novel target for drug development. However, the pharmacology of this receptor is still in its infancy, with few molecules interacting selectively with this receptor. 3. In the present article, we review the findings of studies that have investigated the pharmacological profile of ligands selective for the OP4 receptor, these being two antagonists, the peptide [Nphe1]NC(1-13)NH2 and the non-peptide J-113397, and two agonists, the peptide [Arg14,Lys15]NC, and the non- peptide Ro 64-6198. 4. The results of these studies indicate that agents that selectively activate or block the OP4 receptor may represent new potential drugs for the treatment of human diseases.     

Nociceptin/orphanin FQ, hedonic state and the response to abused drugs.

The mesolimbic dopamine and endogenous opioid systems are foremost in our understanding of the neurochemical systems implicated in the control of motivation and reward. Several decades of study indicate that these systems interact to balance hedonic state and drive seeking for both natural and artificial and rewarding stimuli, such as food and abused drugs. Several classes of endogenous opioids have been identified, of which nociceptin (known also as orphanin FQ) is the most recently discovered. The relative contribution that each class of endogenous opioid peptides makes in determining basal and drug-stimulated changes in hedonic state is still unclear. mu and delta opioid receptor agonists induce increases in hedonic state and are therefore rewarding. Kappa opioid receptor agonists, on the other hand, typically decrease hedonic state and are aversive. Although nociceptin is mostly devoid of hedonic properties when administered centrally, it effectively blocks the acquisition of conditioned place preferences to various rewarding drugs, suggesting that nociceptin reverses stimulated increases in hedonic state. Nociceptin also blocks the seeking of some rewarding stimuli in drug self-administration paradigms. Neurobiological explanations for these behavioral effects are incomplete; though a key finding has been that nociceptin suppresses basal and drug-stimulated activity in the mesolimbic dopamine system. Thus far, little is known about the role of naturally occurring endogenous nociceptin in the control of reward and motivated behaviors. Gaining an understanding in this area could contribute significantly to our understanding of how the brain regulates hedonic balance and motivation in both normal and perturbed states. have formed a strong impression that augmentation therapy, especially with milnacipran plus lithium, is likely to be effective if the first-line antidepressant is ineffective. Investigation of more cases will be needed to confirm or refine details of the algorithm and, more generally, to determine the best approach to antidepressant medication.     

Nociceptin/orphanin FQ inhibits capsaicin-induced guinea-pig airway contraction through an inward-rectifier potassium channel

Nociceptin/orphanin FQ (N/OFQ), an endogenous opioid-like orphan receptor (NOP receptor, previously termed ORL1 receptor) agonist, has been found to inhibit capsaicin-induced bronchoconstriction in isolated guinea-pig lungs and in vivo. The underlying mechanisms are not clear. In the present studies, we tested the effect of N/OFQ on VR1 channel function in isolated guinea-pig nodose ganglia cells. Capsaicin increased intracellular Ca(2+) concentration in these cells through activation of vanilloid receptors. Capsaicin-induced Ca(2+) responses were attenuated by pretreatment of nodose neurons with N/OFQ (1 microM). N/OFQ inhibitory effect on the Ca(2+) response in nodose ganglia cells was antagonized by tertiapin (0.5 microM), an inhibitor of inward-rectifier K(+) channels, but not by verapamil, a voltage gated Ca(2+) channel blocker, indicating that an inward-rectifier K(+) channel is involved in N/OFQ inhibitory effect. In isolated guinea-pig bronchus, N/OFQ (1 microM) inhibited capsaicin-induced airway contraction. Tertiapin (0.5 microM) abolished the N/OFQ inhibition of capsaicin-induced bronchial contraction. Capsaicin (10 microg) increased pulmonary inflation pressure in the isolated perfused guinea-pig lungs. This response was significantly attenuated by pretreatment with N/OFQ (1 microM). Tertiapin also abolished the N/OFQ inhibitory effect on capsaicin-induced bronchoconstriction in perfused lungs. Capsaicin increased the release of substance P and neurokinin A from isolated lungs. N/OFQ (1 microM) blocked the capsaicin-induced tachykinin release. These results indicate that N/OFQ-induced hyperpolarization of tachykinin containing airway sensory nerves, through an inward-rectifier K(+) channel activation, accounts for the inhibition of capsaicin-evoked broncoconstriction.     

Nociceptin/orphanin FQ and nocistatin on learning and memory impairment induced by scopolamine in mice.

1. Nociceptin, also known as orphanin FQ, is an endogenous ligand for the orphan opioid receptor-like receptor 1 (ORL1) and involves in various functions in the central nervous system (CNS). On the other hand, nocistatin is recently isolated from the same precursor as nociceptin and blocks nociceptin-induced allodynia and hyperalgesia. 2. Although ORL1 receptors which display a high degree of sequence homology with classical opioid receptors are abundant in the hippocampus, little is known regarding their role in learning and memory. 3. The present study was designed to investigate whether nociceptin/orphanin FQ and nocistatin could modulate impairment of learning and memory induced by scopolamine, a muscarinic cholinergic receptor antagonist, using spontaneous alternation of Y-maze and step-down type passive avoidance tasks in mice. 4. While nocistatin (0.5-5.0 nmol mouse-1, i.c.v.) administered 30 min before spontaneous alternation performance or the training session of the passive avoidance task, had no effect on spontaneous alternation or passive avoidance behaviours, a lower per cent alternation and shorter median step-down latency in the retention test were obtained in nociceptin (1.5 and/or 5.0 nmol mouse-1, i.c.v.)-treated normal mice. 5. Administration of nocistatin (1.5 and/or 5.0 nmol mouse-1, i.c.v.) 30 min before spontaneous alternation performance or the training session of the passive avoidance task, attenuated the scopolamine-induced impairment of spontaneous alternation and passive avoidance behaviours. 6. These results indicated that nocistatin, a new biologically active peptide, ameliorates impairments of spontaneous alternation and passive avoidance induced by scopolamine, and suggested that these peptides play opposite roles in learning and memory.     

Nociceptin/orphanin FQ peptide receptor antagonist JTC-801 reverses pain and anxiety symptoms in a rat model of post-traumatic stress disorder

BACKGROUND AND PURPOSE

Single-prolonged stress (SPS), a rat model of post-traumatic stress disorder (PTSD), also induces long-lasting hyperalgesia associated with hypocortisolism and elevated nociceptin/orphanin FQ (N/OFQ) levels in serum and CSF. Here, we determined the effect of JTC-801 (N-(4-amino-2-methylquinolin-6-yl)-2-(4-ethylphenoxymethyl) benzamide monohydrochloride), a nociceptin/orphanin FQ peptide (NOP) receptor antagonist, on symptoms of pain and anxiety in rats after SPS exposure, and examined N/OFQ-NOP receptor system changes.

EXPERIMENTAL APPROACH

Male Sprague Dawley rats received JTC-801 (6 mg kg⁻¹ i.p., once daily) during days 7–21 of SPS. The ability of JTC-801 to inhibit N/OFQ-stimulated [³⁵S]-GTPγS binding was confirmed in rat brain membranes. Anxiety-like behaviour and pain sensitivity were monitored by changes in elevated plus maze performance and withdrawal responses to thermal and mechanical stimuli. Serum corticosterone and N/OFQ content in CSF, serum and brain tissues were determined by radioimmunoassay; NOP receptor protein and gene expression in amygdala, hippocampus and periaqueductal grey (PAG) were examined by immunoblotting and real-time PCR respectively.

KEY RESULTS

JTC-801 treatment reversed SPS-induced mechanical allodynia, thermal hyperalgesia, anxiety-like behaviour and hypocortisolism. Elevated N/OFQ levels in serum, CSF, PAG and hippocampus at day 21 of SPS were blocked by JTC-801; daily JTC-801 treatment also reversed NOP receptor protein and mRNA up-regulation in amygdala and PAG.

CONCLUSION AND IMPLICATIONS

JTC-801 reversed SPS-induced anxiety- and pain-like behaviours, and NOP receptor system up-regulation. These findings suggest that N/OFQ plays an important role in hyperalgesia and allodynia maintenance after SPS. NOP receptor antagonists may provide effective treatment for co-morbid PTSD and pain.

LINKED ARTICLES

This article is part of a themed section on Opioids: New Pathways to Functional Selectivity. To view the other articles in this section visit http://dx.doi.org/10.1111/bph.2015.172.issue-2     

Nociceptin/orphanin FQ (N/OFQ) induces a quasi-morphine abstinence syndrome in the rat

Nociceptin/orphanin FQ (N/OFQ) is a neuropeptide that exerts antiopiate effects under some circumstances, and there is evidence that it contributes to opiate tolerance. This raises the question, might N/OFQ also contribute to opiate dependence and abstinence? Twenty-two male Sprague-Dawley rats were cannulated in the third ventricle and challenged 7 days later by third ventricle injection of 50, 200 or 1,000 ng N/OFQ or saline alone. Each rat was observed under "blind" conditions for 30 min beginning 15 min after onset of the third ventricle injection. There was a significant positive linear trend of signs as a function of N/OFQ dose. Subjects receiving saline had 18.0+/-2.0 (mean+/-SEM) overall abstinence-like signs, whereas subjects receiving 50, 200 or 1000 ng N/OFQ had 35.2+/-3.6, 49.8+/-2.6 and 63.5+/-9.7 signs, respectively. In 16 additional rats, abstinence-like signs induced by 1000 ng N/OFQ were significantly attenuated by low SC doses of morphine or clonidine. These results raise the possibility that N/OFQ might contribute to opiate dependence and subsequent abstinence syndrome. On the other hand, N/OFQ over a wide dose range induced abstinence signs with similar potency in morphine dependent and non-dependent rats.     

Nociceptin/orphanin FQ prevents the antinociceptive action of paracetamol on the rat hot plate test

Nociceptin/orphanin FQ (N/OFQ) is involved in many behavioural patterns; in particular, it exerts a modulating effect on nociception. Like other proposed antiopiates, nociceptin/orphanin FQ has been shown to have analgesic, hyperalgesic as well as antianalgesic properties. Among the various effects proposed on nociceptive sensitivity at supraspinal level, the antagonistic activity toward morphine analgesia seems to be of interest. Therefore, we decided to investigate whether nociceptin/orphanin FQ and [Arg14, Lys15] nociceptin/orphanin FQ (R-K, a nociceptin analogue) can have the same effect on the analgesia produced by nonopioid analgesics. In this study, we examined the antianalgesic effect of nociceptin/orphanin FQ and its analogue R-K on paracetamol-induced analgesia and evaluated by means of the hot plate test in rats. Nociceptin/orphanin FQ was intracerebroventricularly administered, and, after 5 min, a dose of 400 mg/kg paracetamol was injected intraperitoneally, 30 min before the hot plate test. Nociceptin/orphanin FQ and R-K showed a dose-dependent antagonism on the antinociceptive effect of paracetamol, and the activity of both drugs was significantly reduced by the antagonist [Nphe1] Arg14, Lys15-N/OFQ-NH2 (UFP-101). These data indicate that nociceptin/orphanin FQ and R-K have an antianalgesic effect on the analgesia produced by a nonopioid analgesic drug, like paracetamol, that seems to develop within the brain.     

Nociceptin/orphanin FQ increases anxiety-related behavior and circulating levels of corticosterone during neophobic tests of anxiety.

Intracranial administration of nociceptin/orphanin FQ (N/OFQ) increases circulating concentrations of adrenocorticotrophic hormone and corticosterone in unstressed rats, and elevates the responsiveness of these hormones during mild stress. Furthermore, N/OFQ and its cognate receptor are both abundant in a variety of limbic nuclei, and stress exposure decreases neuronal N/OFQ content in forebrain neurons. In light of these and other findings, we examined the potential involvement of N/OFQ in regulation of anxiety-related behaviors in rats. In the open field, elevated plus maze, and dark-light neophobic tests, intracerebroventricular N/OFQ (1.0 pmole-1.0 nmole) increased the expression of anxiety-related behaviors. Specifically, N/OFQ increased the latency to enter, decreased the number of entries into, and decreased the time spent in the exposed or brightly lit environments of all three tests. N/OFQ also enhanced thigmotactic responses in the open field test. The effects of diazepam and of the benzodiazepine inverse agonist FG 7142 were also assessed in independent groups of rats. In all three tests, the behavioral effects of N/OFQ resembled the anxiogenic actions of FG 7142, and contrasted with the anxiolytic actions of diazepam. N/OFQ administration also increased circulating concentrations of corticosterone during anxiety testing, in comparison with the concentrations in vehicle-treated controls. We conclude that N/OFQ administration is anxiogenic, and elevates responsiveness of the hypothalamic pituitary-adrenal axis during neophobic tests of anxiety. This supports the possibility that N/OFQ neurotransmission participates in processing of emotionally-salient and stressful stimuli, and suggests that normal functioning of the N/OFQ system may be important in physiological and psychological well-being.     

Effects of chronic nociceptin/orphanin FQ exposure on cAMP accumulation and receptor density in Chinese hamster ovary cells expressing human nociceptin/orphanin FQ receptors

Since the therapeutic efficacy of Li+ in the treatment of mood disorder is observed only after chronic administration, we examined whether long-term Li+ treatment with a therapeutic concentration affected the elevation of intracellular-free Ca2+ concentration ([Ca2+]i) induced by carbachol, a muscarinic receptor agonist, in 1321N1 human astrocytoma cells. Carbachol caused [Ca2+]i elevation through phosphoinositide hydrolysis in a concentration-dependent manner. Treatment of the cells with phorbol 12-myristate 13-acetate (PMA), a protein kinase C activator, for 2 min resulted in a reduction of the carbachol-induced [Ca2+]i elevation. However, PMA did not reduce the carbachol-induced [Ca2+]i elevation in cells treated with PMA for 48 h, reflecting the down-regulation of protein kinase C. Although Li+ at a therapeutic concentration (1 mM) did not affect the carbachol-induced [Ca2+]i elevation in normal cells, it potently inhibited the [Ca2+]i elevation in protein kinase C down-regulated cells. This inhibitory action of Li+ was observed in a concentration- and time-dependent manner. When protein kinase C activity was directly determined, Li+ treatment did not restore protein kinase C activity in protein kinase C down-regulated cells. [3H]Quinuclidinyl benzylate, a muscarinic receptor ligand, bound to membranes derived from normal and protein kinase C down-regulated cells with a similar Kd and Bmax, and Li+ did not affect these parameters of [3H]quinuclidinyl benzylate binding. These results indicated that Li+ at a therapeutic concentration reduced the muscarinic receptor-mediated increased in [Ca2+]i under the protein kinase C-deficient condition without affecting muscarinic receptor or protein kinase C activity.     

Inhibition of striatal and retinal dopamine release via nociceptin/orphanin FQ receptors

1. We determined the effects of nociceptin/orphanin FQ and the NOP receptor ligands acetyl-Arg-Tyr-Tyr-Arg-Ile-Lys-NH(2) (Ac-RYYRIK-NH(2)) and naloxone benzoylhydrazone on transmitter release in vitro. 2. The electrically evoked tritium overflow from guinea-pig and mouse striatal slices and guinea-pig retinal discs preincubated with [(3)H]-dopamine was inhibited by nociceptin/orphanin FQ (pEC(50) 7.9, 7.6 and 8.6; E(max) 30, 50 and 55%). Ac-RYYRIK-NH(2) 0.032 microM and naloxone benzoylhydrazone 5 microM antagonized the effect of nociceptin/orphanin FQ in striatal slices of the guinea-pig (apparent pA(2) 9.1 and 6.8) and the mouse (apparent pA(2) 9.2 and 7.5) and strongly attenuated the effect of nociceptin/orphanin FQ 0.1 microM in guinea-pig retinal discs. Ac-RYYRIK-NH(2) 0.032 microM did not affect the evoked overflow by itself whereas naloxone benzoylhydrazone 5 microM inhibited it in each tissue. 3. The electrically evoked tritium overflow from mouse brain cortex slices preincubated with [(3)H]-noradrenaline was inhibited by nociceptin/orphanin FQ (pEC(50) 7.9, E(max) 85%), Ac-RYYRIK-NH(2) (pEC(50) 8.3, E(max) 47%) but not affected by naloxone benzoylhydrazone 5 microM. Ac-RYYRIK-NH(2) and naloxone benzoylhydrazone showed apparent pA(2) values of 8.6 and 6.9. 4. In conclusion, the inhibitory effect of nociceptin/orphanin FQ on dopamine release in the striatum and retina and on noradrenaline release in the cerebral cortex is mediated via NOP receptors. Ac-RYYRIK-NH(2) behaves as an extremely potent NOP receptor antagonist in the striatum and retina and as a partial agonist in the cortex.     

孤啡肽逆转人白血病K562/ADM细胞耐药性的研究

目的 探讨孤啡肽对人白血病K562/ADM细胞对阿霉素耐药性的逆转作用.方法 测定孤啡肽的细胞毒性及其对K562/ADM细胞药物敏感性的影响,计算耐药逆转倍数.瑞士染色观察药物作用后K562/ADM细胞形态的改变;流式细胞仪检测阿霉素单用或与孤啡肽联用K562/ADM细胞凋亡百分率;DNA琼脂糖凝胶电泳观察孤啡肽与阿霉素联用后K562/ADM细胞内DNA的损伤程度.结果 非细胞毒性剂量的孤啡肽(10-7mol/L)作用于K562/ADM细胞时,对阿霉素耐药起到了部分逆转作用,使K562/ADM细胞的IC50由原来的(46.99±0.25)μg/ml降低至(23.11±0.29)μg/ml,其逆转倍数为2.03倍;孤啡肽(10-7mol/L)和阿霉素(20μg/ml)联合处理K562/ADM细胞48h,K562/ADM细胞呈典型的凋亡形态改变;细胞的凋亡率达到(18.73±3.90)%,明显高于两种药物在相同条件下单独作用的效果,P＜0.01;结论 孤啡肽能诱导K562/ADM细胞凋亡,从而能逆转K562/ADM细胞的耐药性,提高阿霉素的敏感性.     

Opioid activity profiles indicate similarities between the nociceptin/orphanin FQ and opioid receptors

Nociceptin (orphanin FQ) is the recently discovered peptide agonist for the orphan receptor opioid receptor-like 1 (ORL1). Despite the high sequence homology between ORL1 and the opioid receptors, most opioids lack affinity for the nociceptin receptor. The affinity and functional profile of opioids possessing activity at the nociceptin receptor was determined using [3H]nociceptin and nociceptin-stimulated [35S]GTPgammaS binding. The mu-opioid receptor-selective agonist lofentanil potently and competitively displaced [3H]nociceptin at rat brain receptors (IC(50) 62 nM). Lofentanil exhibited full agonism for enhancement of [35S]GTPgammaS binding to human recombinant ORL1 receptors (EC(50) 50 nM). The related piperidines ohmefentanyl and sufentanil and the nonselective opioid receptor agonist etorphine were less potent nociceptin receptor agonists. The kappa(1)+kappa(3)-opioid receptor agonist/mu-opioid receptor antagonist naloxone benzoylhydrazone was a pure antagonist at both rat brain and human ORL1 receptors. The nonselective opioid receptor partial agonist buprenorphine and the nonselective opioid receptor antagonist (-)-quadazocine exhibited pure antagonism at rat brain receptors, but displayed partial agonism at human ORL1 receptors. Thus, opioids displaying full agonism at the nociceptin receptor are also opioid receptor agonists, whereas opioids that are antagonists or partial agonists at the nociceptin receptor show antagonism or partial agonism at opioid receptors. In addition, the stereospecificity required at opioid receptors appears to be retained at the nociceptin receptor, since (+)-quadazocine is inactive at both receptors. These findings illustrate the structural and functional homology of the opioid recognition site on these two receptor classes and suggest that opioids may provide leads for the design of nonpeptide nociceptin receptor agonists and antagonists lacking affinity for the classical opioid receptors.     

Nociceptin/orphanin FQ modulates the cardiovascular, but not renal, responses to stress in spontaneously hypertensive rats

1. The central administration of the endogenous opioid-like peptide nociceptin/orphanin FQ (N/OFQ) produces marked cardiovascular depressor and renal sympathoinhibitory responses in conscious animals. These findings are evidence that central N/OFQ may modulate the cardiovascular and renal responses to acute environmental stress. 2. The changes in cardiovascular and renal function produced by intracerebroventricular (i.c.v.) N/OFQ were measured in conscious spontaneously hypertensive rats (SHR) under basal conditions and during the acute environmental stimulus of air jet stress. 3. In SHR, central N/OFQ produced profound hypotensive, bradycardic, renal sympathoinhibitory (delayed) and water-diuretic effects by a pathway that does not involve activation of central alpha2-adrenoceptors or classical opioid receptors. 4. Intracerebroventricular injection of N/OFQ prevented the pressor response and blunted the tachycardia to air jet stress. A similar renal sympathoexcitatory and antinatriuretic response was observed in conscious SHR during air stress, before and after i.c.v. N/OFQ. 5. These findings are evidence that, in conscious SHR, i.c.v. N/OFQ selectively inhibited the neural responses to air jet stress by attenuating sympathetic outflow to the heart and, potentially, vasculature, but not to the kidneys. Central endogenous N/OFQ systems may be activated and contribute to regional changes in sympathetic outflow during acute stress.     

UFP-101, a peptide antagonist selective for the nociceptin/orphanin FQ receptor

Nociceptin/orphanin FQ modulates various biological functions at central and peripheral levels by selectively activating a G-protein coupled receptor named N/OFQ peptide (NOP) receptor. For extending our knowledge on the biological roles of the N/OFQ-NOP receptor system the identification of selective NOP ligands, especially antagonists, is mandatory. [Nphe1, Arg14, Lys15] N/OFQ-NH2 (UFP-101) is a novel NOP ligand that was designed by combining, in the same molecule, the [Nphe1] chemical modification which eliminates efficacy and the [Arg14, Lys15] substitution which increases ligand potency and duration of action in vivo. In the present article, we summarize the pharmacological features of UFP-101 as determined in a series of in vitro and in vivo assays. Moreover, some biological actions and possible therapeutic indications of NOP ligands are discussed on the basis of results obtained with UFP-101. Data obtained with this compound were compared with those generated using other NOP antagonists, especially J-113397 and [Nphe1]N/OFQ(1-13)-NH2, receptor or peptide knockout mice and other pharmacological tools useful for blocking N/OFQ - NOP receptor signaling. The analysis of the available data demonstrates that UFP-101 is a useful pharmacological tool for the investigation of the central and peripheral biological functions regulated by the N/OFQ-NOP receptor system and for defining the therapeutic potential of NOP receptor ligands.