Dopamine D3 and 5-HT1B receptor dysregulation as a result of psychostimulant intake and forced abstinence: Implications for medications development

Neisewander, Janet L.; Cheung, T. H. C.; Pentkowski, Nathan S.

doi:10.1016/j.neuropharm.2013.08.014

Cited by 46 publications

(44 citation statements)

References 230 publications

(386 reference statements)

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“…They extend previous findings showing that 5-HT1B receptor stimulation enhances methylphenidate-induced locomotor activity (Borycz et al, 2008). Overall, these findings are consistent with previous results demonstrating that 5-HT1B receptors contribute to cocaine-induced gene expression (Lucas et al, 1997; Castanon et al, 2000) and regulate behavioral responses to cocaine (e.g., Neisewander et al, 2014). …”

Section: Discussionsupporting

confidence: 92%

“…Moreover, we also addressed the potential underlying mechanisms by investigating associated changes in the expression of serotonin (5-HT) receptor subtypes in the striatum that may mediate these effects. Research shows that 5-HT1B receptor signaling regulates various behavioral responses to cocaine including self-administration (e.g., Parsons et al, 1998; Neumaier et al, 2002; Przegaliński et al, 2004; Przegaliński et al, 2008; Pentkowski et al, 2012; Neisewander et al, 2014, for review), as well as cocaine-induced gene regulation (e.g., Lucas et al, 1997; Castanon et al, 2000). For comparison, we assessed treatment effects on the 5-HT2C receptor, which also modifies cocaine effects in several ways (Bubar and Cunningham, 2008; Devroye et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

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Fluoxetine potentiation of methylphenidate-induced gene regulation in striatal output pathways: Potential role for 5-HT1B receptor

et al. 2015

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Drug combinations that include the psychostimulant methylphenidate plus a selective serotonin reuptake inhibitor (SSRI) such as fluoxetine are increasingly used in children and adolescents. For example, this combination is indicated in the treatment of attention-deficit/hyperactivity disorder and depression comorbidity and other mental disorders. Such co-exposure also occurs in patients on SSRIs that use methylphenidate as a cognitive enhancer. The neurobiological consequences of these drug combinations are poorly understood. Methylphenidate alone can produce gene regulation effects that mimic addiction-related gene regulation by cocaine, consistent with its moderate addiction liability. We have previously shown that combining SSRIs with methylphenidate potentiates methylphenidate-induced gene regulation in the striatum. The present study investigated which striatal output pathways are affected by the methylphenidate+fluoxetine combination, by assessing effects on pathway-specific neuropeptide markers, and which serotonin receptor subtypes may mediate these effects. Our results demonstrate that a 5-day repeated treatment with fluoxetine (5 mg/kg) potentiates methylphenidate (5 mg/kg)-induced expression of both dynorphin (direct pathway marker) and enkephalin (indirect pathway). These changes were accompanied by correlated increases in the expression of the 5-HT1B, but not 5-HT2C, serotonin receptor in the same striatal regions. A further study showed that the 5-HT1B receptor agonist CP94253 (3-10 mg/kg) mimics the fluoxetine potentiation of methylphenidate-induced gene regulation. These findings suggest a role for the 5-HT1B receptor in the fluoxetine effects on striatal gene regulation. Given that 5-HT1B receptors are known to facilitate addiction-related gene regulation and behavior, our results suggest that SSRIs may enhance the addiction liability of methylphenidate by increasing 5-HT1B receptor signaling.

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Section: Discussionsupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Fluoxetine potentiation of methylphenidate-induced gene regulation in striatal output pathways: Potential role for 5-HT1B receptor

et al. 2015

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“…Key neurotransmitters in the NAcSh involved in cocaine related behaviors are GABA, serotonin, and dopamine (38–43). To this end, we evaluated NMUR2 colocalization with markers for GABA, serotonin, and dopamine neurons using GAD67, TPH and TH, antibodies respectively (Figure 3A).…”

Section: Resultsmentioning

confidence: 99%

Gamma-Aminobutyric Acidergic Projections From the Dorsal Raphe to the Nucleus Accumbens Are Regulated by Neuromedin U

Kasper

McCue

Milton

et al. 2016

Biological Psychiatry

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Introduction Neuromedin U (NMU) is a neuropeptide enriched in the nucleus accumbens shell (NAcSh), a brain region associated with reward. While NMU and its receptor, NMU Receptor 2 (NMUR2), have been studied for its ability to regulate food reward, NMU has not been studied in the context of drugs of abuse (e.g. cocaine). Furthermore, the neuroanatomical pathways which express NMUR2 and its ultrastructural localization are unknown. Methods Immunohistochemistry was used to determine the synaptic localization of NMUR2 in the NAcSh and characterize which neurons express this receptor (n=17). The functional outcome of NMU on NMUR2 was examined using microdialysis (n=16). The behavioral effects of NMU microinjection directly to the NAcSh was investigated using cocaine-evoked locomotion (n=93). The specific effects of NMUR2 knockdown on cocaine-evoked locomotion was evaluated using viral-mediated RNAi (n=40). Results NMUR2 is localized to presynaptic GABAergic nerve terminals in the NAcSh originating from the dorsal raphe nucleus. Furthermore, NMU microinjection to the NAcSh decreased local GABA concentrations. Next, we evaluated the effects of NMU microinjection on behavioral sensitization to cocaine. When repeatedly administered throughout the sensitization regimen, NMU attenuated cocaine-evoked hyperactivity. Additionally, shRNA-mediated knockdown of presynaptic NMUR2 in the NAcSh using a retrograde viral vector potentiated cocaine sensitization. Conclusions Together, these data reveal that NMUR2 modulates a novel GABAergic pathway from the dorsal raphe nucleus to the NAcSh to influence behavioral responses to cocaine.

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“…These decreases are likely not in isolation however, as preclinical work has shown that the 5-HT 1B system is largely dependent on the stage of the addiction cycle with cocaine administration and abstinence increasing and reducing 5-HT 1B mRNA expression respectively. (29, 30) Mechanistic explanations for these changes are not fully known, but reductions in 5-HT 1B receptor availability in CD could be due to 5-HT 1B down regulation or also preexisting differences or higher levels of extracellular 5-HT in CD. Any possible preexisting differences in CD could be supported by a host of genetic studies in addiction (13, 31) and inherent 5-HT 1B heterogeneity could potentially alter dopamine activity in reward areas by reducing inhibition of GABA release.…”

Section: Discussionmentioning

confidence: 99%

Reductions in Brain 5-HT1B Receptor Availability in Primarily Cocaine-Dependent Humans

Matuskey

Bhagwagar

Planeta

et al. 2014

Biological Psychiatry

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Background Preclinical evidence implicates the 5-HT1B receptor in cocaine’s effects. This study explores 5-HT1B in humans by examining receptor availability in vivo with primary cocaine-dependent (CD) subjects using positron emission tomography (PET). Methods Fourteen medically healthy CD subjects (mean age=41±6 yrs) were compared to 14 age-matched healthy control subjects (41±8 yrs) with no past or current history of cocaine or other illicit substance abuse. Participants received an MRI and then a PET scan with the highly selective 5HT1B tracer, [11C]P943, for purposes of quantifying regional binding potential (BPND). Voxel-based morphometry (VBM) and gray matter masking (GMM) were also employed to control for potential partial volume effects. Results [11C]P943 PET imaging data in nine candidate regions (amygdala, anterior cingulate cortex, caudate, frontal cortex, hypothalamus, pallidum, putamen, thalamus and ventral striatum) showed significant or nearly significant reductions of BPND in CD subjects in three regions, including the anterior cingulate (−16%; P<0.01), hypothalamus (−16%, P=0.03) and frontal cortex (−7%, P=0.08). VBM showed significant gray matter reductions in the frontal cortex of CD subjects. After GMM, statistically significant reductions in [11C]P943 BPND were either retained (anterior cingulate, −14%, p=0.01; hypothalamus, −20%, P<0.01) or achieved (frontal cortex, −14%, p<0.01). Whole brain voxel-wise parameter estimation confirmed these results. Secondary analyses were also significant in some regions for years of cocaine and daily tobacco use. Conclusions The reductions found in this study suggest that 5-HT1B receptors may contribute to the etiology and/or expression of cocaine dependence and potentially represent a target for medication development.

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Dopamine D3 and 5-HT1B receptor dysregulation as a result of psychostimulant intake and forced abstinence: Implications for medications development

Cited by 46 publications

References 230 publications

Fluoxetine potentiation of methylphenidate-induced gene regulation in striatal output pathways: Potential role for 5-HT1B receptor

Fluoxetine potentiation of methylphenidate-induced gene regulation in striatal output pathways: Potential role for 5-HT1B receptor

Gamma-Aminobutyric Acidergic Projections From the Dorsal Raphe to the Nucleus Accumbens Are Regulated by Neuromedin U

Reductions in Brain 5-HT1B Receptor Availability in Primarily Cocaine-Dependent Humans

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