Dopamine <scp>D</scp>1 or <scp>D</scp>2 receptor‐expressing neurons in the central nervous system

Wei, Xiaoyan; Ma, Tengfei; Cheng, Yidong; Huang, Cathy Chia-Yu; Wang, Xuehua; Lu, Jiayi; Wang, Jun

doi:10.1111/adb.12512

Cited by 110 publications

(109 citation statements)

References 44 publications

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“…The direct visualization of D1R-and D2R-SPNs revealed that in the intermingled area, SPNs co-expressing both D1R and D2R were preferentially clustered adjacently to the corpus callosum. This contrasts with the homogenous distribution previously described in the anterior dorsal striatum (Gagnon et al 2017;Ren et al 2017;Wei et al 2018). The second territory, embedded between the striatum and the central amygdala is characterized by a high percentage of D1R/D2R-SPNs (~33%).…”

Section: Discussioncontrasting

confidence: 91%

Contrasting patterns of ERK activation in the tail of the striatum in response to aversive and rewarding signals

Gangarossa

Castell

Castro³

et al. 2019

Preprint

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All custom-made materials will be shared upon reasonable request. Running title: ERK, dopamine and the caudal striatumKeywords: striatum, dopamine, ERK, D1R, D2R, psychostimulants ERK, dopamine and the caudal striatum 2 AbstractThe caudal part of the striatum, also named the tail of the striatum (TS), defines a fourth striatal domain. Determining whether rewarding, aversive and salient stimuli regulate the activity of striatal spiny projections neurons (SPNs) of the TS is therefore of paramount importance to understand its functions, which remain largely elusive.Taking advantage of genetically encoded biosensors (A-kinase activity reporter 3, AKAR3) to record PKA signals and by analyzing the distribution of dopamine D1Rand D2R-SPNs in the TS, we characterized three subterritories: a D2R/A2aR-lacking, a D1R/D2R-intermingled and a D1R/D2R-SPNs-enriched area (corresponding to the amygdalostriatal transition). In addition, we provide evidence that the distribution of D1R-and D2R-SPNs in the TS is evolutionarily conserved (mouse, rat, gerbil). The in vivo analysis of extracellular signal-regulated kinase (ERK) phosphorylation in these TS subterritories in response to distinct appetitive, aversive and pharmacological stimuli revealed that SPNs of the TS are not recruited by stimuli triggering innate aversive responses, fasting, satiety or palatable signals whereas a reduction in ERK phosphorylation occurred following learned avoidance. In contrast, D1R-SPNs of the intermingled and D2R/A2aR-lacking areas were strongly activated by both D1R agonists and psychostimulant drugs (d-amphetamine, cocaine, MDMA or methylphenidate), but not by hallucinogens. Finally, a similar pattern of ERK activation was observed by blocking selectively dopamine reuptake. Together, our results reveal that the caudal TS might participate in the processing of specific reward signals and discrete aversive stimuli.ERK, dopamine and the caudal striatum 3

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Section: Discussioncontrasting

confidence: 91%

Contrasting patterns of ERK activation in the tail of the striatum in response to aversive and rewarding signals

Gangarossa

Castell

Castro³

et al. 2019

Preprint

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“…1). Striatal neurons mostly consist of GABAergic medium spiny neurons (MSN), which can be divided into two sub-populations as determined by the type of dopamine receptor they express: D1-or D2-expressing MSNs (Kreitzer & Malenka, 2008;Beaulieu & Gainetdinov, 2011;Gerfen & Surmeier, 2011;Calabresi et al, 2014;Wei et al, 2018). These neurons play opposite functional roles (Kreitzer & Malenka, 2008) in the socalled direct and indirect pathways, which were previously implicated in the action of drugs of abuse (Lobo & Nestler, 2011).…”

Section: Discussionmentioning

confidence: 99%

The role of fibroblast growth factor 2 in drug addiction

Even-Chen

Barak

2018

Eur J of Neuroscience

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Fibroblast growth factor 2 (FGF2) is a member of the FGF-family, which consists of 22 members, with four known FGF receptors (five in humans). Over the last 30 years, FGF2 has been extensively studied for its role in cell proliferation, differentiation, growth, survival and angiogenesis during development, as well as for its role in adult neurogenesis and regenerative plasticity. Over the past decade, FGF2 has been implicated in learning and memory, as well as in several neuropsychiatric disorders, including anxiety, stress, depression and drug addiction. In this review, we present accumulating evidence indicating the involvement of FGF2 in neuroadaptations caused by drugs of abuse, namely, amphetamine, cocaine, nicotine and alcohol. Moreover, evidence suggests that FGF2 is a positive regulator of alcohol and drug-related behaviors. Thus, although additional studies are yet required, we suggest that reducing FGF2 activity may provide a novel therapeutic approach for substance use disorders.

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“…Although the dopaminergic innervation of the hippocampus appears to be relatively limited (Hortnagl, Berger, Sperk, & Pifl, ; Scatton et al, ; Swanson and Hartman, ; Swanson, Kohler, & Bjorklund, ), hippocampus is significantly populated by dopamine receptors (Hansen and Manahan‐Vaughan, ; Smith and Greene, ; Wei et al, ) and the functional impact of DA in the hippocampus neural circuitry is substantial (Frey et al, ; Hansen and Manahan‐Vaughan, ; Ito and Schuman, ; Kempadoo, Mosharov, Choi, Sulzer, & Kandel, ; Lisman and Otmakhova, ; Takeuchi et al ; Werlen and Jones, ). Importantly, the DAergic projections from the ventral tegmental area and the substantia nigra are disproportionately segregated along the hippocampal long axis.…”

Section: Introductionmentioning

confidence: 99%

Effects of endogenous and exogenous D1/D5 dopamine receptor activation on LTP in ventral and dorsal CA1 hippocampal synapses

Papaleonidopoulos

Kouvaros

Papatheodoropoulos

2018

Synapse

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Hippocampus is importantly involved in dopamine-dependent behaviors and dopamine is a significant modulator of synaptic plasticity in the hippocampus. Moreover, the dopaminergic innervation appears to be disproportionally segregated along the hippocampal longitudinal (dorsoventral) axis with unknown consequences for synaptic plasticity. In this study we examined the actions of endogenously released dopamine and the effects of exogenous D1/D5 dopamine receptor agonists on theta-burst stimulation-induced long-term potentiation (LTP) of field excitatory synaptic potential (fEPSP) at Schaffer collateral-CA1 synapses in slices from dorsal (DH) and ventral hippocampus (VH). Furthermore, we quantified D1 receptor mRNA and protein expression levels in DH and VH. We found that blockade of D1/D5 receptors by SCH 23390 (20 μM) significantly reduced the magnitude of LTP in both DH and VH similarly suggesting that dopamine endogenously released during TBS, presumably mimicking low activity of DA neurons, exerts a homogeneous modulation of LTP along the hippocampal long axis. Moderate to high concentrations of the selective partial D1/D5 receptor agonist SKF 38393 (50-150 μM) did not significantly change LTP in either hippocampal segment. However, the full D1 receptor selective agonist SKF 82958 (10 μM) significantly enhanced LTP in VH but not DH. Furthermore, the expression of D1 receptor mRNA and protein was considerably higher in VH compared with DH. These results suggest that the dynamic range of D1/D5 receptor-mediated dopamine effects on LTP may be higher in VH than DH and that VH may be specialized to acquire information about behaviorally relevant strong stimuli signaled by the dopamine system.

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Dopamine D1 or D2 receptor‐expressing neurons in the central nervous system

Cited by 110 publications

References 44 publications

Contrasting patterns of ERK activation in the tail of the striatum in response to aversive and rewarding signals

Contrasting patterns of ERK activation in the tail of the striatum in response to aversive and rewarding signals

The role of fibroblast growth factor 2 in drug addiction

Effects of endogenous and exogenous D1/D5 dopamine receptor activation on LTP in ventral and dorsal CA1 hippocampal synapses

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