Locomotor activation induced by infusion of endorphins into the ventral tegmental area: evidence for opiate-dopamine interactions.

Stinus, L.; Koob, George F.; Ling, Nicholas; Bloom, Floyd E.; Moal, Michel Le

doi:10.1073/pnas.77.4.2323

Cited by 144 publications

(51 citation statements)

References 24 publications

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“…A marked difference with systemic administration is that upon intra-VTA administration, the locomotor effects of opioids seem to be completely dopamine-dependent (Kelley et al 1980;Stinus et al 1980;Joyce et al 1981;Kalivas et al 1983), mediated by indirect stimulation of mesolimbic dopaminergic neurons (Johnson and North 1992;Klitenick et al 1992). Given the findings that the mesolimbic dopaminergic system becomes hyperreactive upon repeated treatment with psychostimulant drugs (see introduction), it is therefore not surprising that in these studies cross-sensitization to intra-VTA morphine was observed.…”

Section: Discussionmentioning

confidence: 95%

“…The locomotor activating properties of psychostimulant drugs are generally thought to be due to an increase in nucleus accumbens dopaminergic neurotransmission (Kelly et al 1975;Pijnenburg et al 1975;Delfs et al 1990; for review see Amalric and Koob 1993). On the other hand, the psychomotor effects of opioid drugs have been shown to involve both dopamine-dependent and dopamine-independent components (Pert and Sivit 1979;Kelley et al 1980;Stinus et al 1980;Joyce et al 1981;Kalivas et al 1983;Vaccarino et al 1986). This leaves open as to whether expression of opioid sensitization involves hyperresponsiveness of dopaminergic and/or non-dopaminergic mechanisms, and whether sensitization to opioids and psychostimulant requires different neuroadaptive phenomena.…”

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confidence: 99%

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Lack of Cross-Sensitization of the Locomotor Effects of Morphine in Amphetamine-Treated Rats

Vanderschuren

Schoffelmeer

Mulder

et al. 1999

Neuropsychopharmacology

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Section: Discussionmentioning

confidence: 95%

mentioning

confidence: 99%

Lack of Cross-Sensitization of the Locomotor Effects of Morphine in Amphetamine-Treated Rats

Vanderschuren

Schoffelmeer

Mulder

et al. 1999

Neuropsychopharmacology

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“…Furthermore, the specific opioid ligand involved in MOR activation in VTA has not been identified. Anatomical studies show both beta-endorphin (Mansour et al, 1988) and enkephalin (Johnson et al, 1980;Fallon and Leslie, 1986) terminals in the VTA, and pharmacological evidence shows that both of these peptides can activate the mesolimbic DA system (Broekkamp et al, 1979;Stinus et al, 1980;Dauge et al, 1992). In addition, recent reports have indicated the presence of the highly MOR-specific ligands endomorphin-1 and -2 in the VTA (Greenwell et al, 2002).…”

Section: Discussionmentioning

confidence: 99%

Sexual Behavior and Sex-Associated Environmental Cues Activate the Mesolimbic System in Male Rats

Balfour

Coolen

2003

Neuropsychopharmacol

165

125

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The mesolimbic system plays an important role in the regulation of both pathological behaviors such as drug addiction and normal motivated behaviors such as sexual behavior. The present study investigated the mechanism by which this system is endogenously activated during sexual behavior. Specifically, the effects of sexual experience and sex-related environmental cues on the activation of several components of the mesolimbic system were studied. The mesolimbic system consists of a dopaminergic projection from the ventral tegmental area (VTA) to the nucleus accumbens (NAc). Previous studies suggest that these neurons are under tonic inhibition by local GABA interneurons, which are in turn modulated by mu opioid receptor (MOR) ligands. To test the hypothesis that opioids are acting in the VTA during sexual behavior, visualization of MOR internalization in VTA was used as a marker for ligand-induced activation of the receptor. Significant increases in MOR internalization were observed following copulation or exposure to sex-related environmental cues. The next goal was to determine if sexual behavior activates dopamine neurons in the VTA, using tyrosine hydroxylase as a marker for dopaminergic neurons and Fos-immunoreactivity as a marker for neuronal activation. Significant increases in the percentage of activated dopaminergic neurons were observed following copulation or exposure to sex-related environmental cues. In addition, mating and sex-related cues activated a large population of nondopaminergic neurons in VTA as well as neurons in both the NAc Core and Shell. Taken together, our results provide functional neuroanatomical evidence that the mesolimbic system is activated by both sexual behavior and exposure to sex-related environmental cues.

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“…As pioneered by the Segal laboratory and others, animal models of locomotor behavior have been critical tools for understanding the relationships between monoamines and behavior (Geyer and Segal, 1991;Kelly and Iversen, 1976;Lat, 1965;Schiorring, 1979;Segal et al, 1975Segal et al, , 1971Segal and Mandell, 1970;Stinus et al, 1980). Such behavioral models have provided a foundation for much of what we know regarding the neural correlates of behavioral effects of drugs of abuse, in particular psychotomimetics such as stimulants and hallucinogens (Adams and Geyer, 1982;Bankson and Cunningham, 2001;Creese, 1983;Eilam et al, 1989;Fink and Morgenstern, 1985;Geyer, 1990;Lehmann-Masten and Geyer, 1991;Segal, 1975;Segal et al, 1981Segal et al, , 1980Swerdlow and Koob, 1985).…”

Section: Introductionmentioning

confidence: 99%

Differential Contributions of Dopamine D1, D2, and D3 Receptors to MDMA-Induced Effects on Locomotor Behavior Patterns in Mice

Risbrough

Masten

Caldwell

et al. 2006

Neuropsychopharmacol

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MDMA or 'ecstasy' (3,4-methylenedioxymethamphetamine) is a commonly used psychoactive drug that has unusual and distinctive behavioral effects in both humans and animals. In rodents, MDMA administration produces a unique locomotor activity pattern, with high activity characterized by smooth locomotor paths and perseverative thigmotaxis. Although considerable evidence supports a major role for serotonin release in MDMA-induced locomotor activity, dopamine (DA) receptor antagonists have recently been shown to attenuate these effects. Here, we tested the hypothesis that DA D 1 , D 2 , and D 3 receptors contribute to MDMA-induced alterations in locomotor activity and motor patterns. DA D 1 , D 2 , or D 3 receptor knockout (KO) and wild-type (WT) mice received vehicle or ( + /À)-MDMA and were tested for 60 min in the behavioral pattern monitor (BPM). D 1 KO mice exhibited significant increases in MDMA-induced hyperactivity in the late testing phase as well as an overall increase in straight path movements. In contrast, D 2 KO mice exhibited reductions in MDMA-induced hyperactivity in the late testing phase, and exhibited significantly less sensitivity to MDMA-induced perseverative thigmotaxis. At baseline, D 2 KO mice also exhibited reduced activity and more circumscribed movements compared to WT mice. Female D 3 KO mice showed a slight reduction in MDMA-induced hyperactivity. These results confirm differential modulatory roles for D 1 and D 2 and perhaps D 3 receptors in MDMA-induced hyperactivity. More specifically, D 1 receptor activation appears to modify the type of activity (linear vs circumscribed), whereas D 2 receptor activation appears to contribute to the repetitive circling behavior produced by MDMA.

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Locomotor activation induced by infusion of endorphins into the ventral tegmental area: evidence for opiate-dopamine interactions.

Cited by 144 publications

References 24 publications

Lack of Cross-Sensitization of the Locomotor Effects of Morphine in Amphetamine-Treated Rats

Lack of Cross-Sensitization of the Locomotor Effects of Morphine in Amphetamine-Treated Rats

Sexual Behavior and Sex-Associated Environmental Cues Activate the Mesolimbic System in Male Rats

Differential Contributions of Dopamine D1, D2, and D3 Receptors to MDMA-Induced Effects on Locomotor Behavior Patterns in Mice

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