The ORL1 receptor, an orphan receptor whose human and murine complementary DNAs have recently been characterized, structurally resembles opioid receptors and is negatively coupled with adenylate cyclase. ORL1 transcripts are particularly abundant in the central nervous system. Here we report the isolation, on the basis of its ability to inhibit the cyclase in a stable recombinant CHO(ORL1+) cell line, of a neuropeptide that resembles dynorphin A9 and whose amino acid sequence is Phe-Gly-Gly-Phe-Thr-Gly-Ala-Arg-Lys-Ser-Ala-Arg-Lys-Leu-Ala-Asn-Gln. The rat-brain cDNA encodes the peptide flanked by Lys-Arg proteolytic cleavage motifs. The synthetic heptadecapeptide potently inhibits adenylate cyclase in CHO(ORL1+) cells in culture and induces hyperalgesia when administered intracerebroventricularly to mice. Taken together, these data indicate that the newly discovered heptadecapeptide is an endogenous agonist of the ORL1 receptor and that it may be endowed with pro-nociceptive properties.
Adenosine is released from metabolically active cells by facilitated diffusion, and is generated extracellularly by degradation of released ATP. It is a potent biological mediator that modulates the activity of numerous cell types, including various neuronal populations, platelets, neutrophils and mast cells, and smooth muscle cells in bronchi and vasculature. Most of these effects help to protect cells and tissues during stress conditions such as ischaemia. Adenosine mediates its effects through four receptor subtypes: the A1, A2a, A2b and A3 receptors. The A2a receptor (A2aR) is abundant in basal ganglia, vasculature and platelets, and stimulates adenylyl cyclase. It is a major target of caffeine, the most widely used psychoactive drug. Here we investigate the role of the A2a receptor by disrupting the gene in mice. We found that A2aR-knockout (A2aR-/-) mice were viable and bred normally. Their exploratory activity was reduced, whereas caffeine, which normally stimulates exploratory behaviour, became a depressant of exploratory activity. Knockout animals scored higher in anxiety tests, and male mice were much more aggressive towards intruders. The response of A2aR-/- mice to acute pain stimuli was slower. Blood pressure and heart rate were increased, as well as platelet aggregation. The specific A2a agonist CGS 21680 lost its biological activity in all systems tested.
A neuropeptide was isolated from a frog brain extract by HPLC purification and characterized by mass spectrometry. This 26-aa neuropeptide, which belongs to the RFamide peptide family, was designated 26RFa, and its primary structure was established as VGTALGSLAEELNGYNRKKGGFSFRF-NH 2. Research in databases revealed the presence of sequences homologous to frog 26RFa in the human genome and in rat ESTs. On the basis of this sequence information, the cDNAs encoding the human and rat 26RFa precursors were cloned. The two preproteins show a similar organization, with the 26RFa sequence located in the C-terminal region of the precursor. Human preprotein (prepro)-26RFa encodes an additional putative RFamide peptide that is not found in the rat precursor. The primary structures of human, rat, and frog 26RFa exhibit Ϸ80% identity, and the C-terminal octapeptide has been fully conserved from amphibians to mammals. In situ hybridization histochemistry revealed that, in the rat brain, the 26RFa gene is exclusively expressed in the ventromedial hypothalamic nucleus and in the lateral hypothalamic area. 26RFa induced a dosedependent stimulation in cAMP production by rat pituitary cells in vitro and markedly increased food intake in mice. The conservation of the primary structure of 26RFa during vertebrate evolution, the discrete localization of the mRNA encoding its precursor in hypothalamic nuclei involved in the control of feeding behavior, and the observation that 26RFa possesses orexigenic properties indicate that this neuropeptide may play important biological functions.
1. The locomotor stimulatory effects induced by caffeine (1,3, 7-trimethylxanthine) in rodents have been attributed to antagonism of adenosine A(1) and A(2A) receptors. Little is known about its locomotor depressant effects seen when acutely administered at high doses. The roles of adenosine A(1) and A(2A) receptors in these activities were investigated using a Digiscan actimeter in experiments carried out in mice. Besides caffeine, the A(2A) antagonist SCH 58261 (5-amino-7-(beta-phenylethyl)-2-(8-furyl)pyrazolo[4,3-e]-1,2, 4-triazolo[1,5-c]pyrimidine), the A(1) antagonist DPCPX (8-cyclopentyl-1,3-dipropylxanthine), the A(1) agonist CPA (N(6)-cyclopentyladenosine) and A(2A) receptor knockout mice were used. 2. Caffeine had a biphasic effect on locomotion of wild-type mice not habituated to the open field, stimulating locomotion at 6.25 - 25 mg kg(-1) i.p. doses, while depressing it at 100 mg kg(-1). In sharp contrast, caffeine dose-dependently decreased locomotion in A(2A) receptor knockout mice over the whole range of tested doses. 3. The depressant effects induced by high doses of caffeine were lost in control CD1 mice habituated to the open field. 4. The A(1) agonist CPA depressed locomotion at 0.3 - 1 mg kg(-1) i.p. doses. 5. The A(1) antagonist DPCPX decreased locomotion of A(2A) receptor knockouts and CD1 mice at 5 mg kg(-1) i.p. and 25 mg kg(-1) i.p. respectively. 6. DPCPX (0.2 - 1 mg kg(-1) i.p.) left unaltered or even reduced the stimulant effect of SCH 58261 (1 - 3 mg kg(-1) i.p.) on CD1 mice. 7. These results suggest therefore that the stimulant effect of low doses of caffeine is mediated by A(2A) receptor blockade while the depressant effect seen at higher doses under some conditions is explained by A(1) receptor blockade.
Depression is a multifactorial illness and genetic factors play a role in its etiology. The understanding of its physiopathology relies on the availability of experimental models potentially mimicking the disease. Here we describe a model built up by selective breeding of mice with strikingly different responses in the tail suspension test, a stress paradigm aimed at screening potential antidepressants. Indeed, ''helpless'' mice are essentially immobile in the tail suspension test, as well as the Porsolt forced-swim test, and they show reduced consumption of a palatable 2% sucrose solution. In addition, helpless mice exhibit sleep-wakefulness alterations resembling those classically observed in depressed patients, notably a lighter and more fragmented sleep, with an increased pressure of rapid eye movement sleep. Compared with ''nonhelpless'' mice, they display higher basal seric corticosterone levels and lower serotonin metabolism index in the hippocampus. Remarkably, serotonin 1A autoreceptor stimulation induces larger hypothermia and inhibition of serotoninergic neuronal firing in the nucleus raphe dorsalis in helpless than in nonhelpless mice. Thus, helpless mice exhibit a decrease in serotoninergic tone, which evokes that associated with endogenous depression in humans. Finally, both the behavioral impairments and the serotoninergic dysfunction can be improved by chronic treatment with the antidepressant fluoxetine. The helpless line of mice may provide an opportunity to approach genes influencing susceptibility to depression and to investigate neurophysiological and neurochemical substrates underlying antidepressant effects.T he prevalence of depression worldwide is such that this disorder represents a major health problem. It is estimated, for example, that Ϸ10% of men and 20% of women in Western Europe will suffer from a major depressive episode at some time in their life. The monoamine hypothesis of depression suggests that one of the biological bases of affective disorders is a deficiency in the neurotransmitter serotonin (5-HT). During the past 40 yr, this hypothesis has been refined, as more experimental and clinical evidence has emerged. The selective 5-HT reuptake inhibitors, in particular, allowed important progress in our understanding of the role of 5-HT in depression. To some extent, the mechanism of action of 5-HT reuptake inhibitors, which are the most widely prescribed antidepressant drugs today, can be anticipated from our knowledge of the anatomy and chemistry of the central serotoninergic system. However, it must be accepted that extensive investigations have so far failed to find convincing evidence of a primary dysfunction of the serotoninergic system in patients with depression. Disturbances of sleep are typical for most depressed patients and belong to the core symptoms of the disorder. Polysomnographic sleep research has demonstrated that, besides disturbances of sleep continuity, depression is associated with a reduction of slow-wave sleep and a shortening of rapid eye movement (REM...
Mice treated with low doses of apomorphine tend to adopt a vertical position along the walls of their cage. Optimal conditions have been defined to obtain a reliable dose-response relationship. This peculiar behavior appears to be elicited by stimulation of dopamine receptors in the striatum: it is suppressed after coagulation of this structure while it is facilitated when these receptors are made hypersensitive by previous treatments with 6-hydroxy-dopamine or haloperidol; on the other hand, it is not modified by coagulation of the nucleus accumbens. The relative efficacy of various agonists and antagonists of dopamine receptors have been determined on this test. It appears that this stereotyped behavior might represent a convenient mean to assess the stimulation of striatal dopamine receptors in mice.
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