RESUMEN
BACKGROUND AND PURPOSE: In animal models of sepsis, increased activation of the Nociceptin/Orphanin FQ (N/OFQ) receptor NOP is associated with mortality and NOP antagonists improved survival. We have explored the role of the N/OFQ-NOP system in freshly isolated volunteer human B- and T-cells incubated with lipopolysaccharide (LPS) and peptidoglycan G (PepG) as a model of in vitro sepsis. EXPERIMENTAL APPROACH: B- and T-cell NOP expression was measured using the NOP fluorescent probe N/OFQATTO594 , N/OFQ content was measured using immunofluorescence, N/OFQ release was tracked using a CHOhNOPGαiq5 biosensor assay and NOP function was measured using transwell migration and cytokine/chemokine release using a 25-plex assay format. Cells were challenged with LPS/PepG. KEY RESULTS: CD19-positive B-cells bound N/OFQATTO594 ; they also contain N/OFQ. Stimulation with CXCL13/IL-4 increased N/OFQ release. N/OFQ trended to reduced migration to CXCL13/IL-4. Surface NOP expression was unaffected by LPS/PepG, but this treatment increased GM-CSF release in an N/OFQ sensitive manner. CD3-positive T-cells did not bind N/OFQATTO594 ; they did contain N/OFQ. Stimulation with CXCL12/IL-6 increased N/OFQ release. When incubated with LPS/PepG, NOP surface expression was induced leading to N/OFQATTO594 binding. In LPS/PepG-treated cells, N/OFQ reduced migration to CXCL12/IL-6. LPS/PepG increased GM-CSF release in an N/OFQ sensitive manner. CONCLUSIONS AND IMPLICATIONS: We suggest both a constitutive and sepsis-inducible N/OFQ-NOP receptor autocrine regulation of B- and T-cell function, respectively. These NOP receptors variably inhibit migration and reduce GM-CSF release. These data provide mechanistic insights to the detrimental role for increased N/OFQ signalling in sepsis and suggest a potential role for NOP antagonists as treatments.
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Receptores Opioides , Sepsis , Animales , Humanos , Receptores Opioides/metabolismo , Receptor de Nociceptina , Factor Estimulante de Colonias de Granulocitos y Macrófagos , Lipopolisacáridos/farmacología , Interleucina-4 , Interleucina-6 , Péptidos Opioides/fisiología , Sepsis/tratamiento farmacológico , NociceptinaRESUMEN
Microvascular inflammation occurs during sepsis and the endogenous opioid-like peptide nociceptin/orphanin FQ (N/OFQ) is known to regulate inflammation. This study aimed to determine the inflammatory role of N/OFQ and its receptor NOP (ORL1) within the microcirculation, along with anti-inflammatory effects of the NOP antagonist UFP-101 (University of Ferrara Peptide-101) in an animal model of sepsis (endotoxemia). Male Wistar rats (220 to 300 g) were administered lipopolysaccharide (LPS) for 24 h (-24 h, 1 mg kg(-1); -2 h, 1 mg kg(-1) i.v., tail vein). They were then either anesthetised for observation of the mesenteric microcirculation using fluorescent in vivo microscopy, or isolated arterioles (~200 µm) were studied in vitro with pressure myography. 200 nM kg(-1) fluorescently labelled N/OFQ (FITC-N/OFQ, i.a., mesenteric artery) bound to specific sites on the microvascular endothelium in vivo, indicating sparse distribution of NOP receptors. In vitro, arterioles (~200 µm) dilated to intraluminal N/OFQ (10(-5)M) (32.6 + 8.4%) and this response was exaggerated with LPS (62.0 +7.9%, p=0.031). In vivo, LPS induced macromolecular leak of FITC-BSA (0.02 g kg(-1) i.v.) (LPS: 95.3 (86.7 to 97.9)%, p=0.043) from post-capillary venules (<40 µm) and increased leukocyte rolling as endotoxemia progressed (p=0.027), both being reduced by 150 nmol kg(-1) UFP-101 (i.v., jugular vein). Firstly, the rat mesenteric microcirculation expresses NOP receptors and secondly, NOP function (ability to induce dilation) is enhanced with LPS. UFP-101 also reduced microvascular inflammation to endotoxemia in vivo. Hence inhibition of the microvascular N/OFQ-NOP pathway may have therapeutic potential during sepsis and warrants further investigation.
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Inflamación/patología , Antagonistas de Narcóticos , Péptidos Opioides/farmacología , Animales , Células CHO , Sistema Cardiovascular/efectos de los fármacos , Sistema Cardiovascular/patología , Sistema Cardiovascular/fisiopatología , Cricetinae , Cricetulus , Fluoresceína-5-Isotiocianato/metabolismo , Inflamación/metabolismo , Rodamiento de Leucocito/efectos de los fármacos , Masculino , Microcirculación/efectos de los fármacos , Microvasos/efectos de los fármacos , Microvasos/patología , Péptidos Opioides/metabolismo , Ratas , Ratas Wistar , Receptores Opioides/metabolismo , Proteínas Recombinantes/metabolismo , Receptor de Nociceptina , NociceptinaRESUMEN
Knockout and pharmacological studies demonstrated that the activation of delta opioid peptide (DOP) receptors produces antidepressant-like effects in rodents. Here we report the results obtained with the novel DOP ligand H-Dmt-Tic-NH-CH(2)-Bid (UFP-502). UFP-502 bound with high affinity (pK(i) 9.43) to recombinant DOP receptors displaying moderate selectivity over MOP and KOP. In CHO(hDOP) [(35)S]GTPgammaS binding and mouse vas deferens experiments, UFP-502 behaved as a potent (pEC(50) 10.09 and 10.70, respectively) full agonist. In these preparations, naloxone, naltrindole and N,N(CH(3))(2)Dmt-Tic-OH showed similar pA(2) values against UFP-502 and DPDPE and the same rank order of potency. In vivo in mice, UFP-502 mimicked DPDPE actions, producing a significant reduction of immobility time after intracerebroventricular administration in the forced swimming test and a clear antinociceptive effect after intrathecal injection in the tail withdrawal assay. However, while the effects of DPDPE were fully prevented by naltrindole those evoked by UFP-502 were unaffected (tail withdrawal assay) or only partially reversed (forced swimming test). In conclusion, UFP-502 represents a novel and useful chemical template for the design of selective agonists for the DOP receptor.
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Bencimidazoles/farmacología , Dipéptidos/farmacología , Receptores Opioides delta/agonistas , Animales , Células CHO , Cricetinae , Cricetulus , Humanos , Masculino , Ratones , Receptores Opioides delta/biosíntesis , Receptores Opioides delta/genéticaRESUMEN
A novel ligand for the nociceptin/orphanin FQ (N/OFQ) receptor (NOP), [(pF)Phe(4),Arg(14),Lys(15)]N/OFQ-NH(2) (UFP-102), has been generated by combining in the N/OFQ-NH(2) sequence two chemical modifications, [Arg(14),Lys(15)] and [(pF)Phe(4)], that have been previously demonstrated to increase potency. In vitro, UFP-102 bound with high affinity to the human NOP receptor, showed at least 200-fold selectivity over classical opioid receptors, and mimicked N/OFQ effects in CHO(hNOP) cells, isolated tissues from various species, and mouse cortical synaptosomes releasing 5-hydroxytryptamine. UFP-102 showed similar maximal effects but higher potency (2- to 48-fold) relative to N/OFQ. The effects of UFP-102 were sensitive to NOP-selective antagonists J-113397 [(+/-)-trans-1-[1-cyclooctylmethyl-3-hydroxymethyl-4-piperidyl]-3-ethyl-1,3-dihydro-2H-benzimidazol-2-one] (pA(2) = 7.75-8.12) and UFP-101 ([Nphe(1),Arg(14),Lys(15)]N/OFQ-NH(2))(pA(2) = 6.91-7.33) but not to naloxone, and no longer observed in tissues taken from NOP receptor knockout mice (NOP(-/-)). In vivo, UFP-102 (0.01-0.3 nmol i.c.v.) mimicked the pronociceptive action of N/OFQ (0.1-10 nmol i.c.v.) in the mouse tail withdrawal assay, displaying higher potency and longer lasting effects. The action of UFP-102 was not apparent in NOP(-/-) mice. Similar results were obtained measuring locomotor activity in mice. In conscious rats, UFP-102 (0.05 nmol i.c.v.) produced a marked and sustained decrease in heart rate, mean arterial pressure, and urinary sodium excretion and a profound increase in urine flow rate. These effects were comparable with those evoked by N/OFQ at 5 nmol. Collectively, these findings demonstrate that UFP-102 behaves as a highly potent and selective NOP receptor agonist that produces long-lasting effects in vivo.