NAC-1, a Rat Brain mRNA, Is Increased in the Nucleus Accumbens Three Weeks after Chronic Cocaine Self-Administration

Yuan, Xian; Pierce, R. Christopher; Kalivas, Peter W.; Mackler, Scott A.

doi:10.1523/jneurosci.17-18-06864.1997

Cited by 82 publications

(75 citation statements)

References 37 publications

(46 reference statements)

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“…Although the relevance of changes in PENK mRNA levels elicited by cocaine self-administration and its extinction awaits further analysis of complementary changes in receptor function, the present results are in accordance with other studies showing that chronic cocaine administration produces long-lasting neuroadaptations in gene expression , especially in dopamine terminal fields (Hope et al 1994;Moratalla et al 1996;Cha et al 1997). Long-lasting behavioral alterations exist associated with cocaine addiction, including the development of paranoia and drug craving (Satel and Edell 1991;Childress et al 1999).…”

Section: Discussionsupporting

confidence: 91%

“…Repeated administration of cocaine can also regulate the activity of opioid receptors in discrete brain regions of rats. Indeed, it has been shown that 2 weeks of either continuous administration of cocaine via subcutaneously implanted osmotic mini-pumps (Hammer 1989) or repeated daily injections (Unterwald et al , 1994 lead to increase in and -opioid receptor density in terminal fields of the nigrostriatal and mesolimbic-mesocortical dopamine systems (for a review see Izenwasser 1998).Identification of the alterations in brain function by chronic cocaine administration has been a focus of many research efforts over the last two decades (for review see Nestler 1993;White et al 1995;Pierce and Kalivas 1997). This effort has consistently revealed the induction of many changes in cellular processes, although the data sometimes appear contradictory.…”

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confidence: 99%

“…Identification of the alterations in brain function by chronic cocaine administration has been a focus of many research efforts over the last two decades (for review see Nestler 1993;White et al 1995;Pierce and Kalivas 1997). This effort has consistently revealed the induction of many changes in cellular processes, although the data sometimes appear contradictory.…”

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Extinction of Cocaine Self-Administration Produces a Differential Time-Related Regulation of Proenkephalin Gene Expression in Rat Brain

Crespo

Manzanares

Martínez

et al. 2001

Neuropsychopharmacology

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The purpose of this study was to examine the time course effects of extinction of cocaine self-administration behavior on proenkephalin (PENK) gene expression in caudateputamen nucleus (ST), nucleus accumbens (Acc), olfactory tubercle (Tu), piriform cortex (Pir), ventromedial hypothalamic nucleus (VMN), and central amygdala (Ce) as measured by in situ hybridization histochemistry. Seventy-two littermate male Lewis rats were randomly assigned in triads to one of three conditions: (1) contingent intravenous self-administration of 1 mg/kg/injection of cocaine (CONT); (2) noncontingent injections of either 1 mg/kg/injection of cocaine (NONCONT); or (3) saline yoked (SALINE) to the intake of the self-administering subject. The self-administering rats were trained to selfadminister cocaine under a FR5 schedule of reinforcement for a minimum of 3 weeks. After stable baseline levels of drug intake had been reached, saline was substituted for drug. Following this first extinction period, cocaine selfadministration was reinstated for an additional period of 2 weeks. Immediately after cessation of the last session of cocaine self-administration (day 0) and 1-, 5-, and 10-day after the second extinction period, animal brains in eachCocaine abuse and dependence remain major public health and social problems. Cocaine abuse results from a complex interplay of behavioral, pharmacological, and neurobiological determinants. The main pharmacological effect of cocaine is to inhibit the reuptake of monoamines dopamine, norepinephrine, and serotonin at presynaptic terminals. As a consequence of these ac- (Hadfield et al. 1980;Heikkila et al. 1975;Ross and Renyi 1969). The major behavioral effect of cocaine is a psychomotor stimulant action with reinforcing addictive properties. This behavioral effect is produced primarily by inhibition of dopamine uptake, thereby increasing extracellular concentrations of released dopamine (Ritz et al. 1987; for a review see Kuhar et al. 1991;Spanagel and Weiss 1999). However, a recent study using mice lacking dopamine transporter proposed other mechanisms, such as increases in serotonin transmission, may mediate the reinforcing effects of cocaine (Rocha et al. 1998).Several studies have shown that cocaine also affects the expression of opioid peptides and opioid receptors. For example, chronic cocaine administration leads to increases in circulating ␤ -endorphin levels (Moldow and Fischman 1987), striatal preprodynorphin mRNA levels (Hurd et al. 1992;Daunais et al. 1993;Daunais and McGinty, 1995;Spangler et al. 1993Spangler et al. , 1996Spangler et al. , 1997, and striatonigral dynorphin content (Sivam 1989;Smiley et al. 1990) in rats and to decreases in preproenkephalin mRNA levels in rhesus monkeys (Daunais et al. 1997) and humans (Hurd and Herkenham 1993). Repeated administration of cocaine can also regulate the activity of opioid receptors in discrete brain regions of rats. Indeed, it has been shown that 2 weeks of either continuous administration of cocaine via subcutaneously implanted osmotic...

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Section: Discussionsupporting

confidence: 91%

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confidence: 99%

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Extinction of Cocaine Self-Administration Produces a Differential Time-Related Regulation of Proenkephalin Gene Expression in Rat Brain

Crespo

Manzanares

Martínez

et al. 2001

Neuropsychopharmacology

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“…These experiments suggest that a DFosBCdk5 cascade and NAC1 may mediate a homeostatic negative feedback response to minimize the behavioral impact of subsequent stimulant administration. [39][40][41] In contrast to Cdk5 and NAC1, bFGF may play a significant role in establishing and/or sustaining sensitization because (1) the development of sensitization to amphetamine was blocked when the stimulant injections were preceded by infusions of a neutralizing antibody against bFGF into the VTA, 12 and (2) repeated coadministration of a nonselective glutamate receptor antagonist with amphetamine produced neither sensitization nor elevated bFGF expression. 42 To investigate the possible relation of Mrt1b with DFosB, Cdk5, NAC1 or bFGF would provide a clue to the molecular basis for an increase in mrt1b mRNA levels after repeated MAP.…”

Section: Discussionmentioning

confidence: 99%

A developmentally regulated and psychostimulant-inducible novel rat gene mrt1 encoding PDZ-PX proteins isolated in the neocortex

et al. 2003

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Single or repeated exposure to psychostimulants such as amphetamines and cocaine after postnatal week 3 leads to an enduring enhancement in the psychotomimetic responses elicited by a subsequent challenge of a stimulant in rodents. This behavioral sensitization phenomenon has been considered to be the neural consequences of stimulant-induced alterations in gene expression in the brain after a critical period of postnatal development. Using a differential cloning technique, RNA arbitrarily primed PCR, we have now identified from the rat neocortex a novel and developmentally regulated methamphetamine (MAP)-inducible gene mrt1 (MAP responsive transcript 1). mrt1 encodes two major types of PDZ-and PX-domains containing proteins of approximately 62 kDa in size with different carboxy termini, Mrt1a and Mrt1b. The mrt1 mRNAs for Mrt1a, mrt1a, and for Mrt1b, mrt1b, are predominantly expressed in various brain regions and the testes, respectively. Acute MAP injection upregulated mrt1b expression in the neocortex after postnatal week 3 in a D1 receptor antagonist-sensitive manner without affecting mrt1a expression. This upregulation was mimicked by another stimulant, cocaine, whereas pentobarbital and D1 antagonist failed to change the mrt1b transcript levels. Moreover, repeated daily treatment of MAP, but not MAP plus D1 antagonist, for 5 days caused an augmentation of the basal expression of mrt1b 2 and 3 weeks after the drug discontinuation. These late-developing, cocaine-crossreactive, D1 antagonist-sensitive and long-term regulations of mrt1b by MAP are similar to the pharmacological profiles of stimulant-induced behavioral sensitization, and therefore may be associated with the initiation and/or maintenance of the long-term neuronal adaptation.

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“…Much is known regarding the immediate and short-term molecular and cellular consequences of stimulant drug exposure. In contrast, however, a far more limited number of persistent, long-standing cellular, or molecular adaptations to drug use have been described (Sorensen et al, 1982;Cha et al, 1997;Hope et al, 1994;Chen et al, 1997). Significantly, a clear link between known cellular adaptations and long-standing behavioral change has remained elusive.…”

Section: Introductionmentioning

confidence: 99%

Altered Behavioral Response to Dopamine D3 Receptor Agonists 7-OH-DPAT and PD 128907 Following Repetitive Amphetamine Administration

Richtand

Welge

Levant

et al. 2003

Neuropsychopharmacol

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Behavioral sensitization, the progressive and enduring enhancement of certain behaviors following repetitive drug use, is mediated in part by dopaminergic pathways. Increased locomotor response to drug treatment, a sensitizable behavior, is modulated by an opposing balance of dopamine receptor subtypes, with D1/D2 dopamine receptor stimulation increasing and D3 dopamine receptor activation inhibiting amphetamine-induced locomotion. We hypothesize that tolerance of D3 receptor locomotor inhibition contributes to behavioral sensitization. In order to test the hypothesis that expression of behavioral sensitization results in part from release of D3 receptor-mediated inhibition, thereby resulting in decreased response to D3 receptor agonists, we examined the effect of repetitive amphetamine administration on the behavioral response to the D3 receptor preferring agonists 7-OH-DPAT and PD 128907. D3-selective effects have recently been described for both drugs at a low dose. At 1 week following completion of a repetitive treatment regimen, amphetamine-pretreated rats displayed a decreased response to D3-selective doses of both 7-OH-DPAT and PD 128907, when compared to animals receiving saline pretreatment. Moreover, in addition to the quantitative alteration in response, there was a change in the inter-relation between response to amphetamine and D3 agonist. A highly significant inverse relation between locomotor inhibitory response to PD 128907 and the locomotor-stimulant response to amphetamine was observed prior to amphetamine treatment. In contrast, 10 days following repetitive amphetamine treatment, the relation between response to PD 128907 and amphetamine was not detected. The observed behavioral alteration could not be accounted for by changes in D3 receptor binding in ventral striatum. These findings suggest a persistent release of D3 receptor-mediated inhibitory influence contributes to the expression of behavioral sensitization to amphetamine.

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NAC-1, a Rat Brain mRNA, Is Increased in the Nucleus Accumbens Three Weeks after Chronic Cocaine Self-Administration

Cited by 82 publications

References 37 publications

Extinction of Cocaine Self-Administration Produces a Differential Time-Related Regulation of Proenkephalin Gene Expression in Rat Brain

Extinction of Cocaine Self-Administration Produces a Differential Time-Related Regulation of Proenkephalin Gene Expression in Rat Brain

A developmentally regulated and psychostimulant-inducible novel rat gene mrt1 encoding PDZ-PX proteins isolated in the neocortex

Altered Behavioral Response to Dopamine D3 Receptor Agonists 7-OH-DPAT and PD 128907 Following Repetitive Amphetamine Administration

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