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Locomotor Behaviour (locomotor + behaviour)

Distribution by Scientific Domains

Life Sciences	84%
Medical Sciences	15%

Selected Abstracts

The effects of genetic and pharmacological blockade of the CB1 cannabinoid receptor on anxiety

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 7 2002
J. Haller
Abstract The aim of this study was to compare the effects of the genetic and pharmacological disruption of CB1 cannabinoid receptors on the elevated plus-maze test of anxiety. In the first experiment, the behaviour of CB1-knockout mice and wild-type mice was compared. In the second experiment, the cannabinoid antagonist SR141716A (0, 1, and 3 mg/kg) was administered to both CB1-knockout and wild type mice. Untreated CB1-knockout mice showed a reduced exploration of the open arms of the plus-maze apparatus, thus appearing more anxious than the wild-type animals, however no changes in locomotion were noticed. The vehicle-injected CB1-knockout mice from the second experiment also showed increased anxiety as compared with wild types. Surprisingly, the cannabinoid antagonist SR141716A reduced anxiety in both wild type and CB1 knockout mice. Locomotor behaviour was only marginally affected. Recent evidence suggests the existence of a novel cannabinoid receptor in the brain. It has also been shown that SR141716A binds to both the CB1 and the putative novel receptor. The data presented here supports these findings, as the cannabinoid receptor antagonist affected anxiety in both wild type and CB1-knockout mice. Tentatively, it may be suggested that the discrepancy between the effects of the genetic and pharmacological blockade of the CB1 receptor suggests that the novel receptor plays a role in anxiety. [source]

Orexin receptor subtype activation and locomotor behaviour in the rat

ACTA PHYSIOLOGICA, Issue 3 2010
W. K. Samson
Abstract Aim:, Orexin-producing neurones, located primarily in the perifornical region of the lateral hypothalamus, project to a wide spectrum of brain sites where they influence numerous behaviours as well as modulating the neuroendocrine and autonomic responses to stress. While some of the actions of orexin appear to be mediated via the type 1 receptor, some are not, including its action on the release of one stress hormone, prolactin. We describe here the ability of orexin to increase locomotor behaviours and identify the importance of both receptor subtypes in these actions. Methods:, Rats were tested for their behavioural responses to the central activation of both the type 1 (OX1R) and type 2 (OX2R) receptor (ICV orexin A), compared to OX2R activation using a relatively selective OX2R agonist in the absence or presence of an orexin receptor antagonist that possesses highest affinity for OX1R. Results:, Increases in locomotor activity were observed, effects which were expressed by not only orexin A, which binds to both the OX1R and the OX2R receptors, but also by the relatively selective OX2R agonist [(Ala11, Leu15)-orexin B]. Furthermore, the OX1R selective antagonist only partially blocked the action of orexin A on most locomotor behaviours and did not block the actions of [(Ala11, Leu15)-orexin B]. Conclusion:, We conclude that orexin A exerts its effects on locomotor behaviour via both the OX1R and OX2R and that agonism or antagonism of only one of these receptors for therapeutic purposes (i.e. sleep disorders) would not provide selectivity in terms of associated behavioural side effects. [source]

PRECLINICAL STUDY: Atypical development of behavioural sensitization to 3,4-methylenedioxymethamphetamine (MDMA, ,Ecstasy') in adolescent rats and its expression in adulthood: role of the MDMA chirality

ADDICTION BIOLOGY, Issue 1 2010
Nora Von Ameln
ABSTRACT Despite the great popularity of 3,4-methylenedioxymethamphetamine (MDMA, Ecstasy) as a drug of abuse, not much is known about the detailed mechanisms of the acute and subchronic effects of the drug. There is especially a lack of information about the distinct behavioural effects of its optical isomers (enantiomers) R- and S-MDMA compared with the racemic RS-MDMA. For this purpose, adolescent rats were repetitively treated during two treatment stages (stage 1: days 1,10; stage 2: days 15, 17, 19) with RS-MDMA (5 or 10 mg/kg) or each of the respective enantiomers (5 mg/kg). The repeated treatment started on postnatal day (PND) 32 and locomotor activity was measured on each day by means of a photobeam-equipped activity box system. RS-MDMA or S-MDMA administration led acutely to massive hyperlocomotion and subchronically, to the development of behavioural sensitization after a short habituation period. R-MDMA was free of hyperactivating effects and even decreased locomotor behaviour upon repeated treatment. Nevertheless, co-administration of R-MDMA increased the hyperactivity of S-MDMA and made the S-MDMA induced behavioural sensitization state-dependent. The animals pre-treated with R-MDMA showed a sensitized response in adulthood when tested with RS-MDMA. Our results indicated that even in the absence of substantial neurotoxicity, both MDMA enantiomers can lead to long-term changes in brain circuitry and concomitant behavioural changes when repeatedly administered in adolescence. The sensitization development was most pronounced in the animals treated with S- and RS-MDMA; the animals with R-MDMA did not develop sensitization under repeated treatment but expressed a sensitized response when challenged with RS-MDMA. [source]

PRECLINICAL STUDY: The effect of naltrexone on amphetamine-induced conditioned place preference and locomotor behaviour in the rat

ADDICTION BIOLOGY, Issue 3 2009
Jenny Häggkvist
ABSTRACT Whereas amphetamine and other psychostimulants primarily act on the dopamine system, there is also evidence that other neurotransmitter systems, such as the endogenous opioid system, modulate psychostimulant-induced effects. Several studies have investigated the role of opioid antagonists on cocaine-induced conditioned place preference (CPP), but there is limited information about the interaction with amphetamines. The aim of the present study was to investigate the effect of the opioid receptor antagonist, naltrexone (NTX) on the conditioning, expression and reinstatement of amphetamine-induced place preference. In addition, the effect of NTX on locomotor behaviour was measured during all sessions. During training, animals were conditioned with amphetamine (2 mg/kg) to induce place preference. In order to extinguish the conditioned behaviour, animals received saline for 12 days. Reinstatement of CPP was induced by a priming dose of amphetamine (0.5 mg/kg). The interaction of NTX and amphetamine was evaluated using three paradigms of CPP: with NTX (vehicle, 0.3, 1.0 and 3.0 mg/kg) administered either 30 minutes prior to amphetamine conditioning, or 30 minutes before the expression, or 30 minutes before the amphetamine priming to induce reinstatement. Naltrexone had no effect on the conditioning, the expression or the reinstatement induced by a priming dose of amphetamine. Further, NTX by itself did not induce place preference or place aversion. In contrast, NTX significantly attenuated the locomotor response to a priming dose of amphetamine without affecting general locomotor behaviour. The results suggest differences in opioid modulation of amphetamine-induced behaviours in the rat. [source]

The brain weights body-based cues higher than vision when estimating walked distances

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 10 2010
Jennifer L. Campos
Abstract Optic flow is the stream of retinal information generated when an observer's body, head or eyes move relative to their environment, and it plays a defining role in many influential theories of active perception. Traditionally, studies of optic flow have used artificially generated flow in the absence of the body-based cues typically coincident with self-motion (e.g. proprioceptive, efference copy, and vestibular). While optic flow alone can be used to judge the direction, speed and magnitude of self-motion, little is known about the precise extent to which it is used during natural locomotor behaviours such as walking. In this study, walked distances were estimated in an open outdoor environment. This study employed two novel complementary techniques to dissociate the contributions of optic flow from body-based cues when estimating distance travelled in a flat, open, outdoor environment void of distinct proximal visual landmarks. First, lenses were used to magnify or minify the visual environment. Second, two walked distances were presented in succession and were either the same or different in magnitude; vision was either present or absent in each. A computational model was developed based on the results of both experiments. Highly convergent cue-weighting values were observed, indicating that the brain consistently weighted body-based cues about twice as high as optic flow, the combination of the two cues being additive. The current experiments represent some of the first to isolate and quantify the contributions of optic flow during natural human locomotor behaviour. [source]

Adaptive loss of ultraviolet-sensitive/violet-sensitive (UVS/VS) cone opsin in the blind mole rat (Spalax ehrenbergi)

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 7 2002
Z. K. David-Gray
Abstract In previous studies, fully functional rod and long-wavelength-sensitive (LWS) cone photopigments have been isolated from the eye of the subterranean blind mole rat (Spalax ehrenbergi superspecies). Spalax possesses subcutaneous atrophied eyes and lacks any ability to respond to visual images. By contrast this animal retains the ability to entrain circadian rhythms of locomotor behaviour to environmental light cues. As this is the only known function of the eye, the rod and LWS photopigments are thought to mediate this response. Most mammals are dichromats possessing, in addition to a single rod photopigment, two classes of cone photopigment, LWS and ultraviolet-sensitive/violet-sensitive (UVS/VS) with differing spectral sensitivities which mediate colour vision. In this paper we explore whether Spalax is a dichromat and has the potential to use colour discrimination for photoentrainment. Using immunocytochemistry and molecular approaches we demonstrate that Spalax is a LWS monochromat. Spalax lacks a functional UVS/VS cone photopigment due to the accumulation of several deleterious mutational changes that have rendered the gene nonfunctional. Using phylogenetic analysis we show that the loss of this class of photoreceptor is likely to have arisen from the visual ecology of this species, and is not an artefact of having an ancestor which lacked a functional UVS/VS cone photopigment. We conclude that colour discrimination is not a prerequisite for photoentrainment in this species. [source]

Oestrogen Receptors Enhance Dopamine Neurone Survival in Rat Midbrain

JOURNAL OF NEUROENDOCRINOLOGY, Issue 4 2010
M. L. Johnson
Previous findings in our laboratory and elsewhere have shown that ovariectomy of rats in adulthood attenuates cocaine-stimulated locomotor behaviour. Ovarian hormones enhance both cocaine-stimulated behaviour and increase dopamine overflow after psychomotor stimulants. The present study aimed to determine whether ovarian hormones have these effects in part by maintaining dopamine neurone number in the substantia nigra pars compacta (SNpc) and ventral tegmental area (VTA) and to investigate the roles of specific oestrogen receptors (ERs) in the maintenance of mesencephalic dopamine neurones. To accomplish this goal, we used unbiased stereological techniques to estimate the number of tyrosine hydroxylase-immunoreactive (TH-IR) cell bodies in midbrain regions of intact, ovariectomised and hormone-replaced female rats and mice. Animals received active or sham gonadectomy on postnatal day 60 and received vehicle, 17,-oestradiol (E2) or selective ER agonists propyl-pyrazole-triol (PPT, ER,) or diarylpropionitrile (DPN, ER,) for 1 month post-surgery. In both rats and mice, ovariectomy reduced the number of TH-IR cells in the SNpc and VTA. Replacement with E2, PPT or DPN prevented or attenuated the loss observed with ovariectomy in both rats and mice. An additional study using ER knockout mice revealed that adult female mice lacking ER, had fewer TH-IR cells in midbrain regions than wild-type mice, whereas mice lacking ER, had TH-IR cell counts comparable to wild-type. These findings suggest that, although both ER subtypes play a role in the maintenance of TH-IR cell number in the SNpc and VTA, ER, may play a more significant role. [source]

Central nervous system stimulatory action from the root extract of Plumbago zeylanica in rats

PHYTOTHERAPY RESEARCH, Issue 2 2001
C. P. Bopaiah
Abstract The effects of a 50% ethanol extract of the root of Plumbago zeylanica (P. zeylanica) were investigated on locomotor behaviour and central dopaminergic activity in rats. The effects on the ambulatory behaviour were assessed along with the levels of dopamine (DA) and its metabolite homovanillic acid (HVA) in the striatum after a single oral dose (100, 200 and 300,mg/kg body weight) of the extract. The extract significantly increased the spontaneous motility in animals. The ambulatory and rotatory behaviour in the treated groups were higher than in the control group (p,<,0.05). There were marked differences in the ambulatory behaviour between 100 and 300,mg/kg, indicating that the responses were stimulatory and dose-dependent. The stereotypic behaviour which is characteristic of a dopamine agonist showed biphasic effects. However, there was no significant difference between the groups (p,>,0.05). The results showed that the extract of the root of P. zeylanica specifically enhanced the spontaneous ambulatory activity without inducing stereotypic behaviour. The neurochemical estimations revealed elevated levels of DA and HVA in striatum compared with the control rats (p,<,0.01). The levels were higher for the 100,mg/kg treated group than the other groups. The levels declined by increasing the dosage of the extract to 200,mg/kg and 300,mg/kg, however, these levels remained higher than the control group. The relationship between motor activity and levels of dopamine are not parallel. These behavioural and biochemical results indicated stimulatory properties of the extract of the root of P. zeylanica, which may be mediated by dopaminergic mechanisms in the rat brain. Copyright © 2001 John Wiley & Sons, Ltd. [source]