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ABSTRACT: In the present paper, we have further developed an in vitro model to study neuronal-glial interaction at trigeminal level by characterizing the effects of conditioned medium (CM) collected from activated primary cultures of satellite glial cells (SGCs) on calcitonin gene-related peptide (CGRP) release from rat trigeminal neurons. Moreover, we investigated whether such release is inhibited by a clinically relevant anti-migraine drug, sumatriptan. CM effects were tested on trigeminal neuronal cultures in different conditions of activation and at different time points. Long-term exposures of trigeminal neurons to CM increased directly neuronal CGRP release, which was further enhanced by the exposure to capsaicin. In this framework, the anti-migraine drug sumatriptan was able to inhibit the evoked CGRP release from naïve trigeminal neuron cultures, as well as from trigeminal cultures pre-exposed for 30 min to CM. On the contrary, sumatriptan failed to inhibit evoked CGRP release from trigeminal neurons after prolonged (4 and 8 h) pre-exposures to CM. These findings were confirmed in co-culture experiments (neurons and SGCs), where activation of SGCs or a bradykinin priming were used. Our data demonstrate that SGCs activation could influence neuronal excitability, and that this event affects the neuronal responses to triptans.
Neuron Glia Biology 02/2012; · 1.34 Impact Factor
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ABSTRACT: We have previously shown that the nonopioid analgesic flupirtine possesses analgesic activity in the orofacial formalin test in vivo in the rat. However, this paradigm does not allow to distinguish between central and peripheral site of action of the drug. In this study we used a recently characterized in vitro model, consisting in acute rat brainstem explants, to investigate whether flupirtine analgesia may be, at least in part, attributed to interference with neurotransmission between the first and the second order neurons of the trigeminal system, occurring within the brainstem. We used acute rat brainstem explants; CGRP released into the incubation medium was taken as a marker of CGRP release from central terminals of trigeminal ganglion afferent neurons within the brainstem. CGRP levels were measured by radioimmunoassay under basal conditions or in the presence of flupirtine, alone or with putative antagonist XE-991. We found that flupirtine inhibits in a concentration-dependent manner both basal and capsaicin-stimulated CGRP release from rat brainstem. This effect is mimicked by the flupirtine analogue retigabine, and is counteracted by the Kv7 blocker XE-991. These findings provide in vitro evidence that the analgesic activity of flupirtine may be related to interference with pain neurotransmission at the brainstem level. Pharmacological data suggests that such effect is related to opening of Kv7 channels on first-order neuronal nerve ending, and the subsequent inhibition of neurotransmitter release, since the effect is mimicked by the Kv7 opener retigabine and is counteracted by the Kv7 blocker XE-991.
Neuroscience Letters 12/2011; 506(2):332-5. · 2.11 Impact Factor
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ABSTRACT: Cortistatin (CST) is an endogenous neuropeptide bearing strong structural and functional analogies with somatostatin (SST). Gene expression of CST and its putative receptor MrgX2 in dorsal root ganglia (DRG) neurons in man suggests the involvement of CST in pain transmission. In this study we have investigated the effects of CST and SST on calcitonin gene-related peptide (CGRP, the main neuropeptide mediator of pain transmission) from primary cultures of rat trigeminal neurons. Moreover, here for the first time we used organotypic cultures of rat brainstem to investigate the release of CGRP form nucleus caudalis as a model of pre-synaptic peptide release. In both experimental paradigm CGRP release was evaluated in the presence of CST or SST, with or without the addition of known secretagogues (namely high KCl concentrations, veratridine and capsaicin). We found that CST and SST do not modify basal CGRP secretion from trigeminal neurons, but both peptides were able to inhibit in a concentration-dependent manner the release of CGRP stimulated by KCl, veratridine or capsaicin. Likewise, in brainstem organotypic cultures CST and SST did not modify baseline CGRP secretion. Of the secretagogues used, capsaicin proved to be most effective compared to KCl and veratridine (8-fold vs 2-fold increase, respectively). Thereafter, CST and SST were tested on capsaicin-stimulated CGPR release only. Under these conditions, CST but not SST was able to inhibit in a significant manner pre-synaptic CGRP release from the brainstem, providing further evidence in support of a role for CST in pain transmission.
Peptides 09/2010; 32(1):138-43. · 2.43 Impact Factor
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Diego Currò
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ABSTRACT: Ca(2+) inflow responsible for neurotransmitter release at most peripheral junctions is mainly mediated by activation of Ca(V)2.2 and Ca(V)2.1 channels. The aim of the present study was to characterize the voltage-gated Ca(2+) channels (VGCCs) responsible for the non-adrenergic non-cholinergic (NANC) relaxation and vasoactive intestinal polypeptide (VIP)-like immunoreactivity release in the rat gastric fundus. Precontracted longitudinal muscle strips of the rat gastric fundus were subjected to electrical field stimulation (EFS) under NANC conditions to evoke the relaxation and VIP-like immunoreactivity release. Nifedipine (1microM) completely relaxed the preparations, so that its effects on EFS-induced NANC relaxations could not be investigated. omega-Conotoxin GVIA (0.3-100nM) concentration-dependently reduced the amplitude of low frequency and the area under the curve (AUC) of high-frequency EFS-evoked relaxations (maximal reductions: approximately 55% and 42% of controls, respectively). The omega-conotoxin GVIA-resistant component of relaxation was not affected by omega-agatoxin IVA (300nM), omega-conotoxin MVIIC (100nM), SNX-482 (100nM) or flunarizine (1microM). omega-Conotoxin GVIA (30nM), omega-agatoxin IVA (30nM) and omega-conotoxin MVIIC (100nM) reduced high-frequency EFS-evoked VIP-like immunoreactivity release by approximately 70%, 27% and 35% of controls, respectively. omega-Conotoxin GVIA (30nM) plus omega-conotoxin MVIIC (100nM) almost abolished the EFS-induced VIP-like immunoreactivity outflow. In the rat gastric fundus, the activation of Ca(V)2.2 and P-type of Ca(V)2.1 channels is responsible for the EFS-induced VIP-like immunoreactivity release. In contrast, Ca(V)1 channels, novel VGCCs and/or molecular variants of VGCCs cloned to date may mediate a substantial component of the NANC relaxation.
European journal of pharmacology 11/2009; 628(1-3):207-13. · 2.59 Impact Factor
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ABSTRACT: In this study we used the dual opioid and nociceptin/orphanin peptide (NOP) agonist buprenorphine to investigate the relative contributions of opioid and NOP systems in regulating bradykinin-stimulated calcitonin-gene related peptide (CGRP) release from primary cultures of neonatal rat trigeminal neurons. We found that: bradykinin stimulates CGRP secretion either by a direct effect or after applying so-called "bradykinin-priming" protocol. In both cases, buprenorphine was able to inhibit bradykinin-stimulated CGRP secretion; however, inhibition was mediated by NOP receptors when buprenorphine was added to the incubation medium along with bradykinin, whereas it appeared to be mediated by mu-opioid receptors in bradykinin priming experiments. Bradykinin treatments also caused an increase in neuronal prostaglandin production; prostanoids appeared to be involved in the stimulatory effects of bradykinin as well as in buprenorphine inhibition, through apparently unrelated mechanisms.
European journal of pharmacology 04/2009; 609(1-3):45-50. · 2.59 Impact Factor
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ABSTRACT: Protein conformational diseases, such as Alzheimer's, Parkinson's and Huntington's, affect a large portion of aging population. The pathogenic dysfunctional aggregation of proteins in non-native conformations is associated with metabolic derangements and excessive production of reactive oxygen species. Reduction of cellular expression and activity of antioxidant proteins result in increased oxidative stress. Free-radicals derived from mitochondrial dysfunction and from the cyclooxygenase enzyme activity play a role in oxidative damage of brain. Cyclooxygenase also mediates in neuro-inflammation by the production of pro-inflammatory prostaglandins which contribute to brain injury. The pathogenic role of cyclooxygenase has been demonstrated in Alzheimer and Parkinson diseases. The brain responses to detect and control diverse forms of stress are accomplished by a complex network of "longevity assurance processes" integrated to the expression of genes termed vitagenes. Heat shock proteins are a highly conserved system responsible for the preservation and repair of correct protein conformation. Heme oxygenase-1, a inducible and redox-regulated enzyme, is currently considered as having an important role in cellular antioxidant defense. A neuroprotective effect, due to its heme degrading activity, and tissue-specific pro-oxidant effects, due to its products CO and free iron, are under debate. There is a current interest in dietary compounds that can inhibit, retard or reverse the multi-stage pathophysiology of Alzheimer disease, with a chronic inflammatory response, brain injury and beta-amyloid associated pathology. Curcumin and ferulic acid, two powerful antioxidants, the first from the curry spice turmeric and the second a major constituent of fruit and vegetables, have emerged as strong inducers of the heat shock response. Food supplementation with curcumin and ferulic acid is considered a nutritional approach to reduce oxidative damage and amyloid pathology in Alzheimer disease.
Frontiers in Bioscience 02/2007; 12:1107-23. · 3.52 Impact Factor
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ABSTRACT: The involvement of adenosine triphosphate (ATP) and carbon monoxide (CO) in the non-nitrergic nonpeptidergic component of high-frequency electrical field stimulation (EFS)-induced nonadrenergic noncholinergic (NANC) relaxation of longitudinal muscle strips from the rat gastric fundus was investigated. Under NANC conditions (1 microM atropine + 5 microM guanethidine), N(G)-nitro-L-arginine methyl ester (L-NAME, 1 mM) slightly reduced the amplitude, but did not affect the area under the curve (AUC) of EFS (13 Hz, 2 min)-induced relaxation of 9,11-dideoxy-9alpha,11alpha-methanoepoxy prostaglandin F(2alpha) (U46619, 0.1 microM)-precontracted strips. With L-NAME (1 mM) plus alpha-chymotrypsin (1 U ml(-1)), the amplitude and the AUC of relaxation were reduced to approximately two-third and one-third of controls, respectively. Pyridoxal-phosphate-6-azophenyl-2',4'-disulphonic acid (100 microM), apamin (0.3 microM), desensitization to ATP, suramin (100 microM), zinc protoporphyrin IX (300 microM) or ferrous haemoglobin (100 microM) did not inhibit the component of relaxation resistant to L-NAME plus alpha-chymotrypsin. L-NAME (1 mM) plus anti-vasoactive intestinal peptide (VIP) serum (1 : 100) reduced the amplitude and the AUC of relaxation to a similar extent as L-NAME (1 mM) plus alpha-chymotrypsin (1 U ml(-1)). Adding apamin (0.1 microM) to L-NAME (1 mM) plus anti-VIP serum (1 : 100) further reduced the amplitude and the AUC of relaxation. These findings suggest that the non-nitrergic nonpeptidergic component of NANC relaxation of the rat gastric fundus induced by high-frequency stimulation is mediated by a neurotransmitter that acts through apamin-sensitive mechanisms, that is neither ATP nor CO.
British Journal of Pharmacology 12/2004; 143(6):785-93. · 4.41 Impact Factor
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ABSTRACT: The role of peptide histidine isoleucine (PHI) as a neurotransmitter of the inhibitory motor neurones, the physiological role of PHI and vasoactive intestinal polypeptide (VIP) in the non-adrenergic non-cholinergic (NANC) relaxation and the relative amounts of VIP- and PHI-like immunoreactivity (LI) co-released by neuronal activation were investigated in the rat gastric fundus. Longitudinal muscle strips from the rat gastric fundus precontracted by the thromboxane receptor agonist U46619 (0.1 micro M) were studied in organ baths under conditions of muscarinic receptor blockade by atropine (1 micro M) and adrenergic neurone blockade by guanethidine (5 micro M) ("NANC conditions"). Concentration-response curves were plotted for both amplitude and area under the curve (AUC) of the relaxant responses induced by VIP (0.3 nM-0.3 micro M), PHI (0.3 nM-1 micro M) and peptide histidine valine [PHV(1-42); 0.3 nM-1 micro M]. All three peptides were more potent in the curve based on amplitude than in that based on the AUC of relaxation. In addition, VIP was 5.3 and 7 times more potent than PHI and PHV(1-42), respectively, in producing relaxation expressed as amplitude, and 2.7 and 2.8 times, respectively, in producing relaxation expressed as AUC. PHI and PHV(1-42) behaved as partial agonists with respect to VIP in producing relaxation expressed as AUC. Electrical field stimulation (EFS; 120 mA, 1 ms, 4-32 Hz, pulse trains of 2 min) evoked frequency-dependent relaxant responses. Alpha-chymotrypsin (1 u/ml or 3 u/ml), an anti-VIP serum (1:100 or 1:50) and an anti-PHI serum (1:25), slightly reduced the amplitude, but greatly inhibited the AUC of the NANC relaxation induced by EFS (13 Hz) [approximately 72%, 47% and 28% less than that seen in time controls or with normal rabbit serum (1:100 or 1:25), respectively]. EFS (8-32 Hz) caused significant, frequency-dependent increases in the outflow of VIP- and PHI-LI from the strips. The EFS-induced release of VIP-LI was approximately 20% of the PHI-LI release. These findings indicate that PHI is involved in EFS-induced NANC relaxation of the rat gastric fundus, the major physiological role of VIP and PHI is the maintenance of smooth muscle relaxation and VIP is co-released in equimolar amounts mainly with PHI.
Archiv für Experimentelle Pathologie und Pharmakologie 01/2003; 366(6):578-86. · 2.65 Impact Factor
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ABSTRACT: Rat brain hypothalami were exposed to various depolarizing stimuli and vasoactive intestinal polypeptide-like immunoreactivity (VIP-LI) release was measured by means of a radioimmunoassay (RIA) procedure. Under conditions of noradrenergic blockade, exposure to high K+ (40–100 mM) produced dose-dependent increases in the VIP-LI release in a Ca2+-dependent manner. Exposure to veratridine (3–100 μM) also induced concentration-dependent increases in VIP-LI release, an effect that was Ca2+-dependent and tetrodotoxin (TTX)-sensitive. Specific ligands for the L, N, and P/Q-type voltage-operated Ca2+ channels (VOCCs) were used to determine which channel subtypes were involved in the K+-evoked VIP-LI release. The L-type VOCC ligand, nifedipine (10 μM), had no effect on release. In contrast, the N-type VOCC blocker, ω-conotoxin GVIA (ω-CgTx GVIA) (0.1–100 nM), markedly reduced the K+-evoked response, with maximal inhibition of approximately 60±8%. ω-Agatoxin IVA (ω-Aga IVA) (1–50 nM), which binds P-type and, at high doses, also Q-type VOCCs, produced dose-dependent inhibition of up to 25±3%, while the maximal inhibition observed with the non-selective VOCCs ligand, ω-conotoxin MVIIC (ω-CmTx MVIIC) (1 nM–3 μM), amounted to 85±8%. These findings indicate that N and P-type Ca2+ channels play predominant roles in the high K+-evoked release of VIP-LI from the rat hypothalamus.
Neurochemistry International 05/2001; · 2.86 Impact Factor
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ABSTRACT: 8-Iso-prostaglandin F2α release from isolated and perfused guinea-pig lung was measured by radioimmunoassay. 8-Iso-prostaglandin F2α release was detectable under basal conditions and increased 10-fold during antigen-induced bronchoconstriction, concomitant with the increase of thromboxane B2 and prostaglandin E2. The anti-8-iso-prostaglandin F2α serum used in the radioimmunoassay seems to be quite specific for this compound. Pretreatment of lungs with indomethacin (a non-selective inhibitor of cyclooxygenase) reduced 8-iso-prostaglandin F2α release under basal conditions and completely abolished the increase observed during lung anaphylaxis. Pretreatment of lungs with NS 398 (N-[2-cyclohexyl]-4-nitrophenyl methanesulphonamide), a selective inhibitor of cyclooxygenase-2, did not change basal or antigen-induced 8-iso-prostaglandin F2α release at all. We conclude that under basal conditions guinea-pig lung perfusates contain low levels of 8-iso-prostaglandin F2α-like immunoreactivity, which increase 10-fold during antigen-induced bronchoconstriction. This isoprostane seems to be derived from the cyclooxygenation of arachidonic acid via the constitutive form of cyclooxygenase.
European Journal of Pharmacology.
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ABSTRACT: It has been reported that beta-carotene is able to increase lung cancer risk in chronic smokers, but the mechanism for this association remains unknown. This article reports the first evidence that beta-carotene, combined with cigarette smoke condensate (TAR), regulates heme oxygenase-1 (HO-1) via its transcriptional factor Bach1 and modulates cell growth. Both immortalized rat fibroblasts (RAT-1) and human lung cancer cells (Mv1Lu) exposed to TAR (25 microg/ml), exhibited an initial (6 h) induction of HO-1, followed by a late (24 h) repression due to the activation of Bach1. Heme oxygenase-1 repression was much more consistent when TAR was administered in combination with beta-carotene (1 microM) for 24 h; at this concentration the carotenoid per se did not have any effect on HO-1. Interestingly, the HO-1 repression following TAR plus beta-carotene treatment caused a resynchronization of RAT-1 cell-cycle with a significant increase in the S-phase, and this was probably due to the decreased intracellular levels of carbon monoxide and bilirubin, both of which have antiproliferative effects. The role of HO-1 repression in increasing cell growth was also confirmed in Mv1Lu cells by the "knock down" of the Bach1 gene, thus demonstrating as HO-1 repression is a conserved mechanism by which cells can react to oxidative stress.
Antioxidants and Redox Signaling 8(5-6):1069-80. · 8.46 Impact Factor
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ABSTRACT: Naloxone has been used to antagonize opioid effects for many years, even though at low doses it can exert antinociceptive effects. This 'paradoxical' analgesia has been detected after systemic administration of naloxone given alone or in combination with opioid drugs. In the present study, we investigated possible peripheral antinociceptive effects of low doses of naloxone using both an in vivo and in vitro model of trigeminal nociception. Low doses of naloxone injected locally into the rat wiskerpad elicited antinociceptive activity in the rat orofacial formalin test. The block of primary afferents with local administration of capsaicin suggested that naloxone acts both directly on sensory neurons and indirectly, by modulating the inflammatory component of the second phase of formalin test. Naloxone analgesia is maintained in rats made tolerant to the mu-receptor agonist DAMGO, suggesting the involvement of delta- and kappa-opioid receptors. Subsequently, the effects of very low doses of naloxone were tested in primary cultures of rat trigeminal neurons activated with bradykinin, in order to elucidate the mechanisms of action underlying naloxone antinociceptive effects. Naloxone inhibited bradykinin-evoked CGRP release in two different experimental paradigms, i.e. primed and unprimed cultures, acting at the level of delta- and kappa-opioids receptors. These results suggest that low doses of naloxone can directly modulate the activation of the trigeminal neurons by modulating the activity of specific opioid receptors, and this effect may be clinically relevant in combined therapies where an increased analgesic effect is sought through the potentiation of peripheral mechanisms.
Neuropharmacology 58(4-5):784-92. · 4.81 Impact Factor
