UMLS:C0030193 - FACTA Search

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Query: UMLS:C0030193 (pain)
261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The endogenous inhibitory role of the neuropeptide galanin in pain transmission and spinal cord excitability was demonstrated by the use of a high-affinity galanin receptor antagonist, M-35 [galanin-(1-13)-bradykinin-(2-9)-amide]. M-35, which displaced 125I-labeled galanin from membranes of rat dorsal spinal cord with an IC50 of 0.3 nM, dose-dependently antagonized the effect of intrathecal galanin on the flexor reflex. M-35 potentiated the facilitation of the flexor reflex by conditioning stimulation of cutaneous unmyelinated afferents in rats with intact nerves and the potentiating effect of M-35 on the conditioning-stimulation-induced reflex facilitation of the cutaneous unmyelinated afferents was strongly enhanced after axotomy. These results demonstrate that endogenous galanin plays a tonic inhibitory role in the mediation of spinal cord excitability, and it is particularly noteworthy that this function of galanin is remarkably enhanced after peripheral nerve section.
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PMID:Galanin-mediated control of pain: enhanced role after nerve injury. 137 97

Galanin, a 29 amino acid peptide, has been reported to possess antinociceptive properties at the spinal site and to potentiate opioid-induced antinociception. Our aim was to investigate whether also endogenous galanin interacts with an exogenously administered opioid, morphine, in the rat spinal cord. This question was investigated by use of the recently developed galanin receptor antagonists galantide [M-15, galanin-(1-13)-substance P-(5-11) amide] and M-35 [galanin-(1-13)-bradykinin-(2-9) amide]. Nociception was assessed in the rat tail-flick test using radiant heat and the rat Randall-Selitto model of inflammatory pain using vocalization as the nociceptive criterion. Intrathecal (i.t.) injections were performed in rats under either anaesthesia. Morphine was administered either i.t. or intraperitoneally (i.p.), and the antagonists were injected i.t. [125I]Galanin binding experiments were performed on crude synaptosomal membranes of the rat spinal cord. In the rat tail-flick test, i.t. injection of 3 micrograms morphine evoked antinociception of about 75% of the maximal possible effect (% MPE). Co-injection of either 2 micrograms galantide or 2 micrograms M-35 with morphine almost completely abolished the antinociceptive effect of morphine. I.p. injection of 2.15 mg/kg morphine elicited about 80% MPE when given 10 min prior to i.t. saline injection. Injection of the antagonists instead of saline antagonised the antinociceptive effect of morphine partially thus showing the spinal proportion of the overall antinociceptive effect. In the rat Randall-Selitto test, 3 micrograms morphine, injected i.t., produced antinociception of almost 100% MPE.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Spinal antinociception by morphine in rats is antagonised by galanin receptor antagonists. 753 Dec 94

Galanin, a neuroendocrine peptide with a multitude of functions, binds to and acts on specific G-protein coupled receptors. Only one galanin receptor subtype, GalRI, has been cloned so far, although pharmacological evidence suggests the presence of more than one galanin receptor subtype. These receptors mediate via different Gi/Go-proteins the inhibition of adenylyl cyclase, opening of K+-channels and closure of Ca2+-channels. Galanin inhibits secretion of insulin, acetylcholine, serotonin and noradrenaline, while it stimulates prolactin and growth hormone release. Determination of structural components of galanin receptors required for binding of the peptide ligand as carried out recently will facilitate the screening and design of molecules specifically acting on galaninergic systems with therapeutic potential in Alzheimer's disease, feeding disorders, pain and depression.
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PMID:Galanin receptors: involvement in feeding, pain, depression and Alzheimer's disease. 912 74

Galanin is a neuroendocrine peptide that modulates many different normal physiological effects including memory, weight, and pain perception. To better understand galanin receptor function, we cloned and characterized the galanin-1 receptor (GALN1R) gene isolated from a human P1 library. We determined that this gene contains 2 introns of approximately 2.1 and 2.9 Kb, both of which are located in the 3rd intracellular loop. We identified transcriptional initiation sites 61 and 63 bp upstream of the translation initiation codon ATG. Sequencing of the GALN1R gene 5' flanking region revealed it to be GC rich and devoid of TATA or CCAAT boxes, features of housekeeping genes. To identify potential sites regulating promoter activity, variable lengths of the 5' flanking region were fused to a CAT gene and studied in Bowes human melanoma cells. Significant losses in CAT activity were observed only with the elimination of 2 NF-kappa B sites, located -269 and -809 bp upstream from the translational start site, respectively. These findings suggest the novel possibility that GALN1R gene expression may be regulated as a consequence of inflammatory conditions. Finally fluorescent in situ hybridization (FISH) assigned this gene to chromosome 15q24.
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PMID:Cloning, chromosomal location, and transcriptional regulation of the human galanin-1 receptor gene (GALN1R). 942 10

We have previously suggested that the neuropeptides galanin and galanin message-associated peptide (GMAP) may have an inhibitory role in spinal nociception. The present study examined the effects of intrathecal (i.t.) administration of these two peptides on allodynia-like behaviours in response to mechanical and cold stimulation in rats after photochemically induced ischaemic peripheral nerve injury. I.t. galanin significantly alleviated the mechanical- and cold-allodynia-like behaviours in nerve injured rats, and was not associated with motor impairment or sedation. I.t. GMAP relieved mechanical allodynia much less than galanin. I.t. M-35, a high-affinity galanin receptor antagonist, did not significantly alter the response of the rats to mechanical or cold stimulation. At 1 or 2 weeks postinjury, around 15% of dorsal root ganglion (DRG) neuron profiles showed galanin-like immunoreactivity. These profiles were mostly small sized. Although the number of galanin positive cells was thus increased in the DRG in the present model, the increase was substantially less than after complete sciatic nerve section, as previously shown. The present results showed that spinal administration of galanin inhibited some abnormal pain-like behaviours in rats after partial peripheral nerve injury. These results further support an inhibitory function for galanin in nociception. However, endogenous galanin may not play a significant role in suppressing nociceptive input after partial ischaemic peripheral nerve injury, as the upregulation of galanin is moderate.
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PMID:Intrathecal galanin alleviates allodynia-like behaviour in rats after partial peripheral nerve injury. 1005 43

The development of a strain of galanin knockout mice has provided confirmation of a neuroendocrine role for galanin, as well as supporting results of previous physiological investigations indicating a role for galanin in analgesia and neuropathic pain, and potentially in neuronal growth and regeneration processes. Whether elevation of galanin expression in neurodegenerative disorders such as Alzheimer's disease represents a survival response or exacerbates functional deficit in afflicted individuals remains to be determined. More detailed analysis of the phenotype of the galanin knockout mouse should provide insights into the physiological role of galanin in memory and learning processes, as well as in hypothalamic function and other aspects of neuroendocrine regulation. Biochemical and molecular cloning efforts have demonstrated that the multiplicity of actions of galanin is matched by complexity in the distribution and regulation of galanin and its receptors. A focus on characterisation of galanin receptors has resulted in the molecular cloning of three receptor subtypes to date. The distribution and functional properties of these receptors have not yet been fully elucidated, currently precluding assignment of discrete functions of galanin to any one receptor subtype. It is not currently possible to reconcile available pharmacological data using analogs of galanin and chimeric peptides in functional assay systems with the pharmacological properties of cloned receptor subtypes. This highlights the value of further knockout approaches targeting galanin receptor subtypes, but also raises the possibility of the existence of additional receptor subtypes that have yet to be cloned, or that receptor activity may be modulated by regulatory molecules that remain to be identified. The development of receptor subtype-specific compounds remains a high priority to advance work in this area. The ability to selectively modulate the many different actions of galanin, through a clearer understanding of receptor structure-function relationships and neuronal distribution, promises to provide important insights into the molecular and cellular basis of galanin action in normal physiology, and may provide lead compounds with therapeutic application in the prevention and treatment of a range of disorders.
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PMID:Galanin and galanin receptors. 1045 68

Galanin has been implicated in various physiological functions including memory, feeding and pain perception. Using rat cerebral cortical slices and synaptosome preparations incubated with [(3)H]choline in Kreb's-Ringer solution, galanin was shown to inhibit both spontaneous and K(+)-stimulated [(3)H]ACh release in a concentration-related manner [EC(50)= 35 nM]. The galanin-mediated inhibition on spontaneous and K(+)-stimulated [(3)H]ACh release was respectively regulated by pertussis toxin-sensitive G(alphai3)and G(alphai1). These suggest that galanin is a negative modulator of cortical cholinergic function and most probably acting on presynaptic cholinergic terminals. Although galantide blocked the galanin-mediated inhibitory effect on [(3)H]ACh release, it mimicked galanin in blocking K(+)-stimulated [(3)H]ACh release, indicating that galantide may have a more complicated pharmacology than being a galanin receptor antagonist. In addition, we demonstrate that galanin and beta-amyloid peptide(1-42)synergistically attenuated K(+)-evoked [(3)H]ACh release from synaptosomes prepared from rat cerebral cortex. Since galanin is increased in Alzheimer's disease brain, our results suggest that galanin may be involved in cholinergic dysfunctions that occur in Alzheimer's disease.
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PMID:Galanin inhibits acetylcholine release from rat cerebral cortex via a pertussis toxin-sensitive G(i)protein. 1065 92

Galanin is a 29-aa neuropeptide with a complex role in pain processing. Several galanin receptor subtypes are present in dorsal root ganglia and spinal cord with a differential distribution. Here, we describe a generation of a specific galanin R2 (GalR2) agonist, AR-M1896, and its application in studies of a rat neuropathic pain model (Bennett). The results show that in normal rats mechanical and cold allodynia of the hindpaw are induced after intrathecal infusion of low-dose galanin (25 ng per 0.5 microl/h). The same effect is seen with equimolar doses of AR-M1896 or AR-M961, an agonist both at GalR1 and GalR2 receptors. In allodynic Bennett model rats, the mechanical threshold increased dose-dependently after intrathecal injection of a high dose of AR-M961, whereas no effect was observed in the control or AR-M1896 group. No effect of either of the two compounds was observed in nonallodynic Bennett model rats. These data indicate that a low dose of galanin has a nociceptive role at the spinal cord level mediated by GalR2 receptors, whereas the antiallodynic effect of high-dose galanin on neuropathic pain is mediated by the GalR1 receptors. Thus, a selective GalR1 agonist may be used to treat neuropathic pain.
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PMID:Receptor subtype-specific pronociceptive and analgesic actions of galanin in the spinal cord: selective actions via GalR1 and GalR2 receptors. 1148 29

Galanin is a neuroendocrine peptide involved in the regulation of feeding, pain, sexual behavior, learning, and memory. The recent discovery, that galanin antagonized excitatory glutamatergic neurotransmission in the hippocampus, provided a rationale for its possible antiepileptic effects. Here we summarize the data on the effects of galanin on seizure activity in several animal models of epilepsy. Pharmacological and molecular biological evidence suggest potent anticonvulsant effects of galanin. Exogenous administration of galanin receptor agonists attenuated seizures, whereas application of galanin receptor antagonists potentiated seizure expression. Genetically engineered mice, with either deletion or overexpression of galanin gene, showed altered resistance to seizures, which was in direct correlation with galanin gene expression. Possible mechanisms of the anticonvulsant action of galanin include its effects on synaptic potentiation in hippocampal circuits and inhibition of the release of the excitatory neurotransmitter glutamate from principal hippocampal neurons.
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PMID:Galanin: an endogenous anticonvulsant? 1176 28

Since its discovery in 1983, the neuropeptide galanin has been found to be involved in a wide range of functions, including pain sensation, sexual activity, feeding, and learning and memory. Furthermore, galanin has recently been proposed to have a key role in depression, owing to its inhibition of noradrenergic cells, and in epilepsy. Three galanin receptor subtypes have been cloned and studied, though little is known about their specific contributions to behavioral processes. This article reviews galanin's role in behavior, with special attention to learning and memory. It concludes by discussing the status of the pharmacology of galanin, including nonpeptide ligands that have recently been developed with potential for therapeutic use, and the need for better receptor subtype-specific ligands. Despite the existence of many unknowns, the accumulation of basic research and the emergence of new research tools suggests we are entering an exciting period in the development of galanin pharmacology that may lead to new drugs for the treatment of cognitive decline and other neuro- and psychopathologies. (c) 2002 Prous Science. All rights reserved.
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PMID:Galanin: Involvement in Behavior and Neuropathology, and Therapeutic Potential. 1267 50

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