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Effects of chronic exposure to cocaine are regulated by the neuronal protein Cdk5 (2001)

Chen, Jingshan ; Taylor, Jane R. ; Svenningsson, Per ; [et al.]

[s.l.] : Macmillian Magazines Ltd.

Nature 410 (2001), S. 376-380

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] Cocaine enhances dopamine-mediated neurotransmission by blocking dopamine re-uptake at axon terminals. Most dopamine-containing nerve terminals innervate medium spiny neurons in the striatum of the brain. Cocaine addiction is thought to stem, in part, from neural adaptations that act to ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/35066591

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Blockade of melanocortin transmission inhibits cocaine reward (2005)

Hsu, Richard ; Taylor, Jane R. ; Newton, Samuel S. ; [et al.]

Oxford, UK : Blackwell Science Ltd

European journal of neuroscience 21 (2005), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Melanocortins and the melanocortin-4 receptor (MC4-R) are enriched in the nucleus accumbens, a brain region that has been implicated in the rewarding action of cocaine and other drugs of abuse. In the present study we use a number of rat behavioral models to show that infusion of a melanocortin peptide antagonist into the nucleus accumbens blocks the reinforcing, incentive motivational, and locomotor sensitizing effects of cocaine. We also show that locomotor responses to repeated cocaine exposure are completely blocked in MC4-R null mutant mice and reduced in Agouti mice that overexpress an endogenous inhibitor of melanocortins in the brain. The results also demonstrate that cocaine administration increases the expression of MC4-R in the nucleus accumbens and striatum, and that MC4-R is co-localized with prodynorphin in medium spiny neurons in the nucleus accumbens. Together, these findings indicate that the behavioral actions of cocaine are dependent on activation of MC4-R, and suggest that upregulation of this receptor by drug exposure may contribute to sensitization of these behavioral responses. Modulation of cocaine reward is a novel action of the melanocortin–MC4-R system and could be targeted for the development of new medications for cocaine addiction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1460-9568.2005.04038.x

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3

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Neural Transplantation for Neurodegenerative Diseases: Past, Present, and Future (1993)

REDMOND, D. EUGENE ; ROTH, ROBERT H. ; SPENCER, DENNIS D. ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Annals of the New York Academy of Sciences 695 (1993), S. 0

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ISSN: 1749-6632

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Natural Sciences in General

Notes: After almost 100 years of sporadic, and marginally successful, studies of neural transplantation in animals, we are now on the threshold of a clinical treatment of the damaged brain. The initial studies of neural transplantation have focused on Parkinson's disease, primarily as a model for a more general strategy of “repair by cellular replacement.” Parkinson's is known to result from the loss of a small population of cells that produce the essential neuromodulator, dopamine, for much of the brain. Further, the disease is improved significantly, during the early part of its course, by chemical augmentation of dopamine activity through drug therapies, such as l-dopa. Finally, the disease is often fatal in spite of the best medical treatments, therefore justifying more radical therapeutic experiments. If transplantation of brain cells can be accomplished successfully in humans, as it has been in animals, then replacement of a small population of dopamine-producing cells in Parkinson's disease should have important functional effects and possibly reverse the course and symptoms of the disease. Other useful applications will surely follow for conditions affecting millions of people for whom medicine now has only palliative and ineffective treatments.Just as Parkinson's disease is a model clinical condition for testing cellular replacements, fetal neural tissue transplants are also a first step for a broader strategy of molecular and cellular therapies. Fetal cells are, in many respects, the best replacements one could imagine, since precursor cells have the capacity to develop into every cell found in the adult. So, the best replacement for a dopamine neuron would likely be a precursor dopamine neuron or “neuroblast.” Animal research through 1985 had demonstrated the unique properties of such fetal cells, but survivability after transplantation had not been attained with primate or human neural tissue. Our programs developed techniques to transplant monkey fetal neural tissue, to cryopreserve it, and to reverse functional effects of the neurotoxin, MPTP, in monkeys. This technique was applied to the collection and preservation of human tissue, and preliminary successful results have been obtained in patients with idiopathic Parkinson's disease. Others have reported success with different techniques in two MPTP-Parkinsonian patients and a small number of patients with idiopathic disease. If the most dramatic improvements can be replicated consistently and the benefits last for a reasonable period without complications, a clinical treatment might develop using “random-source” fetal cadaver cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1749-6632.1993.tb23064.x

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Enhanced behavioural control by conditioned reinforcers following microinjections of d-amphetamine into the nucleus accumbens (1984)

Taylor, Jane R. ; Robbins, Trevor W.

Springer

Psychopharmacology 84 (1984), S. 405-412

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ISSN: 1432-2072

Keywords: Conditioned reinforcement ; d-Amphetamine ; Nucleus accumbens ; Caudate nucleus ; Thalamus ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Stimulant drugs have been shown to enhance the control over behaviour exerted by stimuli previously correlated with primary reinforcers, termed conditioned reinforcers (CR). Experiment 1 examined the possible neuroanatomical specificity of the enhancement of conditioned reinforcement following intracerebral injections ofd-amphetamine. Thirsty rats were trained to associate, a light with water. In the test phase, water was no longer presented but the light (CR) was intermittently produced by responding on one of two novel levers. Rats with bilateral guide cannulae aimed at the nucleus accumbens, posterior caudate nucleus, or medio-dorsal nucleus of the thalamus received four counterbalanced microinfusions ofd-amphetamine (10, 20, 30 μg/2 μl) or vehicle (control) over 4 test days. There was a dose-dependent selective increase in responding on the lever that produced the light (CR) with intra-accumbensd-amphetamine infusions. Quantitatively similar, but much more variable effects were found with intra-caudate infusions and no effects following intra-thalamicd-amphetamine. Experiment 2 provided evidence that the enhanced control over responding by a CR with intra-accumbensd-amphetamine is behaviourally specific. Three groups of rats received a compound tone — plus —light stimulus that was positively, negatively or randomly correlated with water during training. Intra-accumbensd-amphetamine produced selective increases in responding only if the contingent stimulus had been positively correlated. The results suggest that the nucleus accumbens may play an important role ind-amphetamine's enhanced control over behaviour exerted by conditioned reinforcers.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00555222

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5

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Prefrontal cortical involvement in phencyclidine-induced activation of the mesolimbic dopamine system: behavioral and neurochemical evidence (1998)

Jentsch, J. David ; Tran, A. ; Taylor, Jane R. ; [et al.]

Springer

Psychopharmacology 138 (1998), S. 89-95

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ISSN: 1432-2072

Keywords: Key words Catecholamine ; Psychotomimetic ; Nucleus accumbens ; Locomotion ; Mesocorticolimbic ; Ventral mesencephalon

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Acute administration of phencyclidine to rats potently activates mesocorticolimbic dopaminergic neurons. The activation of dopamine release and utilization in the prefrontal cortex and nucleus accumbens are associated with profound cognitive impairment and hyperlocomotion, respectively. This dopaminergic activation by phencyclidine is not mediated by direct effects on the cell body regions of the dopamine neurons; however, phencyclidine augments dopamine release locally in the terminal fields. In the present study, the possible involvement of the prefrontal cortex in mediating activation of the mesolimbic dopamine system by phencyclidine was examined. Ibotenic acid lesions of the prefrontal cortex attenuated the biochemical activation of the mesolimbic dopamine neurons by PCP, and prefrontal lesions sharply blunted phencyclidine-, but not amphetamine- or novelty-, induced hyperlocomotion. In addition, injection of phencyclidine directly into the prefrontal cortex increased dopamine utilization in the nucleus accumbens and induced hyperlocomotion. In summary, these studies show that phencyclidine activates the mesolimbic pathway through a mechanism in the prefrontal cortex, possibly by disinhibiting the cortical circuit and activating corticofugal glutamatergic release in the ventral tegmental area.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002130050649

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6

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A comparison of the effects of clonidine and CNQX infusion into the locus coeruleus and the amygdala on naloxone-precipitated opiate withdrawal in the rat (1998)

Taylor, Jane R. ; Punch, Laurie J. ; Elsworth, John D.

Springer

Psychopharmacology 138 (1998), S. 133-142

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ISSN: 1432-2072

Keywords: Key words Clonidine ; ST-91 ; CNQX ; LC ; Amygdala ; Intracerebral infusion ; Withdrawal ; Naloxone ; Morphine ; Opioid ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Both the locus coeruleus (LC) and the amygdala have been implicated in aspects of opiate dependence and withdrawal. The LC is known to be one of the most sensitive sites for precipitating withdrawal behaviors after local opiate antagonist infusions in morphine-dependent subjects. The amygdala is also known to mediate antagonist-induced withdrawal behaviors and aversive motivational states. The goal of the present study was to evaluate directly the ability of noradrenergic agonists and glutamatergic antagonists to attenuate naloxone-precipitated withdrawal behaviors when infused into the LC or the central nucleus of the amygdala (CeA). The alpha-2-noradrenergic agonists clonidine or ST-91 were infused into the CeA to compare the effects of noradrenergic activation in the CeA to the attenuation of withdrawal previously observed in rats infused with clonidine into the LC, since the LC and CeA are known to contain co-localized opiate and noradrenergic receptors. The effects of microinfusions of the non-NMDA excitatory amino acid antagonist 6-cyano-2,3-dihydroxy-7-nitroquinoxaline (CNQX) were also infused into the LC and CeA since opiate withdrawal is associated with increased glutamatergic transmission. Intra-CeA clonidine or ST-91 (2.4 µg/0.5 µl or 1.0 µl) produced significant reductions primarily in the occurrence of irritability. Conversely, intra-CeA or intra-LC infusions of CNQX (2.5 µg/0.5 µl) significantly attenuated naloxone-precipitated withdrawal, an effect similar to the attenuation previously observed after intra-LC clonidine infusions. These data demonstrate the specific behavioral effects of altering glutamatergic and noradrenergic neurotransmission in the LC or CeA during naloxone-precipitated opiate withdrawal. Elucidation of the neuroanatomical circuitry involved in opiate withdrawal should increase our understanding of the neuroadaptations associated with drug dependence and subsequent withdrawal behavior.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002130050655

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7

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Dopamine D4 receptor antagonist reversal of subchronic phencyclidine-induced object retrieval/detour deficits in monkeys (1999)

Jentsch, J. D. ; Taylor, Jane R. ; Redmond Jr, D. Eugene ; [et al.]

Springer

Psychopharmacology 142 (1999), S. 78-84

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ISSN: 1432-2072

Keywords: Key words Prefrontal cortex ; Psychotomimetic ; Memory ; Dopamine ; Primate ; D4 receptor

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract D4 dopamine receptors (DRs) are enriched in the primate prefrontal cortex, a brain region implicated in cognitive processes, and mesoprefrontal dopaminergic systems appear to be involved in modulating some cognitive functions of the prefrontal cortex. Despite anatomical localization of D4 DRs within the frontal cortex, the role of these receptors, specifically, in the regulation of cognition or behavior in primates is unknown. In these studies, we sought to learn whether specific antagonism of D4 DRs would affect performance of a task dependent on the frontostriatal system. The effects of NGD94-1 (2-phenyl-4(5)-[4-(2-pyrimidinyl)-piperazin-1-yl)-methyl]-imidazole dimaleate), a potent and selective D4 DR antagonist and haloperidol, a non-specific D2-like DR antagonist, on the performance of an object retrieval/detour task by monkeys were examined. The effects of these antagonists on the object retrieval task were evaluated in normal control monkeys and in subjects repeatedly exposed to phencyclidine (PCP), to induce frontal cortical dopaminergic and cognitive dysfunction. NGD94-1 (1–5 mg/kg) reversed the cognitive deficits of PCP pre-treated monkeys, whereas haloperidol (25 μg/kg) exacerbated PCP-induced performance impairments. A low dose of NGD94-1 failed to affect performance of control subjects, while both haloperidol and a high dose of NGD94-1 impaired control performance. These data show, for the first time, that D4 DRs modulate the cognitive functions of the frontostriatal system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002130050865

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6-Hydroxydopamine lesions of the nucleus accumbens, but not of the caudate nucleus, attenuate enhanced responding with reward-related stimuli produced by intra-accumbens d-amphetamine (1986)

Taylor, Jane R. ; Robbins, Trevor W.

Springer

Psychopharmacology 90 (1986), S. 390-397

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ISSN: 1432-2072

Keywords: Conditioned reinforcement ; d-Amphetamine ; Nucleus accumbens ; Caudate nucleus ; 6-Hydroxydopamine ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Intra-accumbens d-amphetamine enhances responding for reward-related stimuli (conditioned reinforcers, CRs), whereas intra-caudate d-amphetamine has only weak and variable effects (Taylor and Robbins 1984). The present experiment further examined the involvement of the nucleus accumbens and the role of dopamine (DA) in this effect. Thirsty rats were trained to associate a flash of a light and movement of a dipper (CR) with water. After implantation of permanent guide cannulae aimed at the nucleus accumbens, they were assigned to one of four groups, receiving either bilateral 6-OHDA (4 mg/ml free base in 2 μ1 0.1% ascorbic acid/0.9% saline) or sham (vehicle) infusions into the nucleus accumbens or the caudate nucleus. In the test phase, two novel levers were available. Responding on one lever (CR lever) produced the light and dipper stimuli without water presentation, whereas responding on the other (NCR lever) had no effect. All four groups received four counterbalanced intra-accumbens infusions of d-amphetamine (3, 10, 20 μg/2 μl) or vehicle. On the 5th test day, subjects were pretreated subcutaneously with apomorphine (0.1 mg/kg). Intra-accumbens d-amphetamine in both sham-lesioned groups produced a dose-dependent increase in responding on the CR lever, but no significant change on the NCR lever. No selective increases in responding on either lever were found in animals with 6-OHDA-induced depletion of DA (〉80%) in the nucleus accumbens following intra-accumbens d-amphetamine; however, in subjects with DA depletion of the posterior caudate nucleus (〉80%), increases in responding on the CR lever were observed to be similar in magnitude to those of both the sham-lesioned groups. Following systemic administration of apomorphine, only rats in the nucleus-accumbens-lesioned group continued to respond, preferring the CR lever, thus suggesting the involvement of DA receptors in these effects. These results indicate that enhanced responding for CR following administration of psychomotor stimulant drugs is critically dependent on dopaminergic activation of the nucleus accumbens, rather than the caudate nucleus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00179197

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