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Behavioural Sensitization (behavioural + sensitization)

Distribution by Scientific Domains

Life Sciences	100%

Selected Abstracts

Impact of basic FGF expression in astrocytes on dopamine neuron synaptic function and development

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 3 2006
Caroline Forget
Abstract Behavioural sensitization to amphetamine (AMPH) requires action of the drug in the ventral midbrain where dopamine (DA) neurons are located. In vivo studies suggest that AMPH sensitization requires enhanced expression of basic fibroblast growth factor (bFGF) in the nucleus of midbrain astrocytes. One idea is that the AMPH-induced increase in bFGF expression in astrocytes leads to enhanced secretion of this peptide and to long-term plasticity in DA neurons. To study directly the effects of astrocytic expression of bFGF on DA neurons, we established a cell-culture model of mesencephalic astrocytes and DA neurons. Immunolabelling showed that even in the absence of a pharmacological stimulus, the majority of mesencephalic astrocytes in culture express bFGF at a nuclear level. Arguing against the idea that bFGF was secreted, bFGF was undetectable in the extracellular medium (below 10 pg/mL). However, supplementing culture medium with exogenous bFGF at standard concentrations (20 ng/mL) led to a dramatic change in the morphology of astrocytes, increased spontaneous DA release, and inhibited synapse formation by individual DA neurons. RNA interference (siRNA) against bFGF mRNA, caused a reduction in DA release but produced no change in synaptic development. Together these data demonstrate that under basal conditions (in the absence of a pharmacological stimulus such as amphetamine) bFGF is not secreted even though there is abundant nuclear expression in astrocytes. The effects of bFGF seen here on DA neurons are thus likely to be mediated through more indirect glial,neuronal interactions, leading to enhanced DA release without a necessary change in synapse number. [source]

Behavioural sensitization and enhanced dopamine response in the nucleus accumbens after intravenous cocaine self-administration in mice

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 3 2003
Agustin Zapata
Abstract The behavioural effects of cocaine are enhanced in animals with a prior history of repeated cocaine administration. This phenomenon, referred to as sensitization, is also associated with an increase in cocaine-evoked extracellular dopamine levels in the nucleus accumbens. Behavioural and neurochemical sensitization has been demonstrated in rats with a prior history of cocaine self-administration and in those that had received experimenter-administered cocaine. Although it is clear that the repeated non-contingent administration also results in behavioural sensitization in the mouse, the issue of whether behavioural and neurochemical sensitization also occur in this species following intravenous cocaine self-administration has not been assessed. The present study used the technique of in vivo microdialysis in conjunction with operant self-administration to characterize cocaine-evoked locomotor activity and dopamine levels in the nucleus accumbens in mice with a prior history of intravenous cocaine self-administration or those that had received yoked infusions of cocaine. Mice that had received contingent or non-contingent infusions of cocaine exhibited an enhanced behavioural response to cocaine and increased cocaine-evoked dopamine levels in the nucleus accumbens. There was no difference between groups in the magnitude of this effect. Prior exposure to cocaine did not modify baseline dopamine levels in the nucleus accumbens. These data demonstrate that mice with previous cocaine self-administration experience show an enhanced behavioural and dopamine response to cocaine in the nucleus accumbens. Furthermore, control over cocaine infusion does not significantly alter the magnitude of the sensitized behavioural and presynaptic dopamine responses observed in response to a challenge dose of cocaine. [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]

Decrease of D2 receptor binding but increase in D2 -stimulated G-protein activation, dopamine transporter binding and behavioural sensitization in brains of mice treated with a chronic escalating dose ,binge' cocaine administration paradigm

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 4 2008
A. Bailey
Abstract Understanding the neurobiology of the transition from initial drug use to excessive drug use has been a challenge in drug addiction. We examined the effect of chronic ,binge' escalating dose cocaine administration, which mimics human compulsive drug use, on behavioural responses and the dopaminergic system of mice and compared it with a chronic steady dose (3 × 15 mg/kg/day) ,binge' cocaine administration paradigm. Male C57BL/6J mice were injected with saline or cocaine in an escalating dose paradigm for 14 days. Locomotor and stereotypy activity were measured and quantitative autoradiographic mapping of D1 and D2 receptors, dopamine transporters and D2 -stimulated [35S]GTP,S binding was performed in the brains of mice treated with this escalating and steady dose paradigm. An initial sensitization to the locomotor effects of cocaine followed by a dose-dependent increase in the duration of the locomotor effect of cocaine was observed in the escalating but not the steady dose paradigm. Sensitization to the stereotypy effect of cocaine and an increase in cocaine-induced stereotypy score was observed from 3 × 20 to 3 × 25 mg/kg/day cocaine. There was a significant decrease in D2 receptor density, but an increase in D2 -stimulated G-protein activity and dopamine transporter density in the striatum of cocaine-treated mice, which was not observed in our steady dose paradigm. Our results document that chronic ,binge' escalating dose cocaine treatment triggers profound behavioural and neurochemical changes in the dopaminergic system, which might underlie the transition from drug use to compulsive drug use associated with addiction, which is a process of escalation. [source]

Activation of afferents to the ventral tegmental area in response to acute amphetamine: a double-labelling study

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 4 2007
Joyce Colussi-Mas
Abstract The ventral tegmental area (VTA), primary source of the mesocorticolimbic dopaminergic system, is regarded as a critical site for initiation of behavioural sensitization to psychostimulants. The present study was undertaken to identify the neural pathways converging on the VTA that are potentially implicated in this process. Rats were sensitized by a single exposure to amphetamine (5 mg/kg, s.c.). The distribution of VTA-projecting neurons activated by amphetamine was examined by combining retrograde transport of the cholera toxin , subunit (CTb), injected into the VTA, with immunodetection of Fos. The quantitative analysis of CTb,Fos double labelling demonstrates that amphetamine induced a rapid activation of Fos in a large number of brain areas projecting to the VTA. More than half of the CTb,Fos double-labelled neurons were located in the prefrontal cortex, lateral preoptic area,lateral hypothalamus, pontomesencephalic tegmentum, dorsal raphe nucleus, ventral pallidum and nucleus accumbens. In addition, scattered CTb,Fos double-labelled cells were observed in many other VTA afferent structures, such as claustrum, lateral septum, diagonal band,magnocellular preoptic nucleus, deep mesencephalic nucleus, oral part of pontine reticular nucleus and dorsomedial tegmental area. This suggests that systemic amphetamine activates a wide population of neurons projecting to the VTA that may be important for the modulation of neurobehavioural plasticity produced by this psychostimulant. [source]

Context-dependent behavioural and neuronal sensitization in striatum to MDMA (ecstasy) administration in rats

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 1 2006
Kevin T. Ball
Abstract To investigate the neuronal mechanisms underlying the behavioural alterations that accompany repeated exposure to MDMA (ecstasy), we recorded the activity of >,200 striatal units in response to multiple, intermittent, locomotor-activating doses (5.0 mg/kg) of MDMA. Rats were treated with once-daily injections of either saline or MDMA for 5 days when housed in their home cage, followed by a challenge injection 3,5 days later when housed in a recording chamber. Because contextual drug associations might be particularly important to the expression of behavioural sensitization to chronic MDMA, a separate group of rats received repeated injections of MDMA alternately in the recording chamber or home cage, according to the above timeline. A sensitized locomotor response was observed only in rats that had previously experienced MDMA in the context of the recording chamber, and only on the challenge day. These sensitized animals also showed a decreased basal firing rate in neurons that were subsequently excited by MDMA when compared with the same category of neurons earlier in the treatment regimen. This resulted in a greater percentage increase from the baseline firing rate on the challenge day compared with the first and fifth days of treatment, even though this trend was not evident with an analysis of absolute firing rate. These results strongly support a role for context in the expression of MDMA-induced locomotor sensitization, and implicate striatal involvement in the neurobehavioural changes associated with the repeated use of MDMA. [source]

Activation of group II mGlu receptors blocks the enhanced drug taking induced by previous exposure to amphetamine

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 1 2005
Jeong-Hoon Kim
Abstract Repeated exposure to amphetamine (AMPH) leads to the development of behavioural sensitization that can be demonstrated in rats as enhanced locomotor responding to and self-administration of the drug. Glutamate systems are known to participate in the induction and expression of sensitization by psychostimulants. Group II metabotropic glutamate receptors (mGluRs), because they negatively regulate both vesicular and nonvesicular glutamate release, are thus well positioned to gate its expression. Here we report that the expression of locomotor sensitization by AMPH is completely prevented by a systemic injection of the selective group II mGluR agonist LY379268 at a dose that produced no effects when administered alone. The activation of group II mGluRs in AMPH-sensitized rats also reduced the enhanced overflow of both dopamine and glutamate normally observed in the nucleus accumbens, a brain region critical for the generation of locomotor and drug self-administration behaviours. To directly determine the effect of group II mGluR activation on enhanced drug self-administration, AMPH-sensitized rats were allowed to self-administer a mixture of LY379268 and AMPH. These rats continued to self-administer but did not exhibit the enhanced work output and drug intake observed in AMPH-sensitized rats self-administering AMPH alone. Thus, activating group II mGluRs prevents the expression of different manifestations of AMPH sensitization including enhanced self-administration of the drug. These receptors may represent a potentially important target for therapeutic intervention directed at drugs of abuse. [source]

Cocaine increases medial prefrontal cortical glutamate overflow in cocaine-sensitized rats: a time course study

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 6 2004
Jason M. Williams
Abstract Excitatory amino acid transmission within mesocorticolimbic brain pathways is thought to play an important role in behavioural sensitization to psychomotor stimulants. The current studies evaluated a time course of the effects of cocaine on extracellular glutamate levels within the medial prefrontal cortex (mPFC) following increasing periods of withdrawal from repeated cocaine exposure. Male Sprague,Dawley rats underwent stereotaxic surgeries and were pretreated daily with saline (1 mL/kg/day × 4 days, i.p.) or cocaine (15 mg/kg/day × 4 days, i.p.) and withdrawn for 1, 7 or 30 days. After withdrawal rats were challenged with the same dose of saline or cocaine and in vivo microdialysis of the mPFC was conducted with concurrent analysis of locomotor activity. Animals that were withdrawn from repeated daily cocaine for 1 day and 7 days displayed an augmentation in cocaine-induced mPFC glutamate levels compared to saline and acute control subjects, which were similarly unaffected by cocaine challenge. At the 7 day time point, a subset of animals that received repeated cocaine did not express behavioural sensitization, nor did these animals exhibit the enhancement in mPFC glutamate in response to cocaine challenge. In contrast to these early effects, 30 days of withdrawal resulted in no significant changes in cocaine-induced mPFC glutamate levels regardless of the pretreatment or behavioural response. These data suggest that repeated cocaine administration transiently increases cocaine-induced glutamate levels in the mPFC during the first week of withdrawal, which may play an important role in the development of behavioural sensitization to cocaine. [source]

Behavioural sensitization and enhanced dopamine response in the nucleus accumbens after intravenous cocaine self-administration in mice

Intravenous cocaine induced-activity and behavioural sensitization in norepinephrine-, but not dopamine-transporter knockout mice

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 3 2002
Andy N. Mead
Abstract Previously, it was reported that both norepinephrine transporter (NET) and dopamine transporter (DAT) knockout (KO) mice were sensitive to the reinforcing effects of cocaine. However, assessing the locomotor-stimulant effects of cocaine in these subjects has proven difficult due to significant differences in their baseline activity compared to wild-type controls. The present studies were designed to clarify the role of NET and DAT in the stimulant effects of acute and repeated cocaine utilizing these knockout mice, and thereby assess the role of these substrates in the locomotor stimulant effects of cocaine. Mice were habituated to the test environment for sufficient time to ensure equal baselines at the time of cocaine administration. Mice then received cocaine (3,25 mg/kg) intravenously according to a within-session cumulative dose,response design. Cocaine dosing was repeated at 48-h intervals for four sessions to assess behavioural sensitization. NET-KO mice exhibited a reduced response to acute cocaine administration compared to wild-type (WT) controls. However, comparable sensitization developed in NET-KO and WT mice. The DAT-KO and DAT-heterozygote (HT) mice displayed no locomotor activation following either acute or repeated cocaine administration. These data suggest a role for the NET in the acute response to cocaine, but no involvement in sensitization to cocaine. In contrast, DAT appears to be necessary for both the acute locomotor response to cocaine and the subsequent development of sensitization. In addition to existing data concerning the reinforcing effects of cocaine in DAT-KO mice, these data suggest a dissociation between the reinforcing and locomotor stimulant effects of cocaine. [source]

Dual alteration of limbic dopamine D1 receptor-mediated signalling and the Akt/GSK3 pathway in dopamine D3 receptor mutants during the development of methamphetamine sensitization

JOURNAL OF NEUROCHEMISTRY, Issue 1 2007
Pei-Chun Chen
Abstract The central dopamine system plays significant roles in motor activity and drug-induced behavioural sensitization. Our goal was to determine the significance of dopamine D3 receptors in the development of behavioural sensitization to methamphetamine, assessed with D3 receptor mutant mice. The absence of D3 receptors significantly increased the behavioural responses to acute methamphetamine and evoked a faster rate of behavioural sensitization to chronic methamphetamine. In addition, both D3 receptor protein and mRNA levels in the limbic forebrain decreased in sensitized wild-type mice. Further analyses indicated that D1 -dependent behavioural sensitization and the number of limbic D1 receptors increased in sensitized D3 mutants as compared with sensitized wild-type mice. Consistent with this finding, we observed higher levels of D1 receptor-evoked cAMP accumulation and basal phosphoDARPP-32/Thr34 in the limbic forebrain of D3 mutants than wild-type mice and the difference was more pronounced after chronic methamphetamine treatment. We also observed an increase in phospho-extracellular signal-regulated kinase 2 but a decrease in phosphoAkt/Ser473 and phosphoglycogen synthase kinase 3 (GSK3)-,/, in the limbic forebrain of D3 mutants compared with wild-type mice after methamphetamine treatment. The convergent results implicate D3 receptors as a negative regulator of the development of methamphetamine sensitization. A compensatory up-regulation of D1 receptor-mediated signals, in addition to an altered Akt/GSK3 pathway, could contribute to the accelerated development of behavioural sensitization. [source]