Dopamine release mediated by the dopamine transporter, facts and consequences

Spontaneous and/or stimulated neural activity of the nigrostriatal dopamine (DA) pathway makes amines run out from the neurons. This DA dynamic follows a rather complex path, running in or out the terminals, and flushing or diffusing into the extracellular space. The location of this leakage is not limited to the axon terminals; it also occurs from the cell bodies and dendrites. This molecular release mechanism was, for a long time, considered as being produced, in part, by the exocytosis of previously stored vesicles. The DA carrier protein (DAT, DA transporter) embedded in the DA cell membrane is known to clear previously released amines through an inward DA influx. The DAT also appears to be an active vector of amine release. Particular local conditions and the presence of numerous psychostimulant substances are able to trigger an outward efflux of DA through the DAT. This process, delivering slowly large amounts of amine could play a major regulatory role in extracellular DA homeostasis.     

多巴胺受体的cDNA克隆

通过多巴胺受体的5个cDNA克隆,综述和分析了5个多巴胺受体(D₁R-D₅R)的基因结构,在染色体上的定位及其mRNA在中枢脑区的分布;比较了这5个受体cDNA克隆的结构特征和药理学性质.     

多巴胺重摄取的分子机制

多巴胺转运体(Dopamine transporter,DAT)位于多巴胺能神经元表面,主要负责将细胞外的多巴胺重摄取至多巴胺能神经元内,控制细胞外多巴胺的浓度,进而影响多巴胺的信号强度和时长。多巴胺转运体与注意力缺陷多动症、抑郁、成瘾等中枢神经系统的功能异常相关。多巴胺转运体的重摄取功能受多种因素的调节,包括底物的浓度、自身位点的翻译后修饰、细胞内蛋白激酶的活性、细胞外的调节信号等。本文就近年来DAT的分子调节机制以及在脑疾病发病机制中作用的研究进展做一综述。     

Characterization of [3H]LS‐3‐134, a novel arylamide phenylpiperazine D3 dopamine receptor selective radioligand

LS‐3‐134 is a substituted N‐phenylpiperazine derivative that has been reported to exhibit: (i) high‐affinity binding (K_i value 0.2 nM) at human D3 dopamine receptors, (ii) > 100‐fold D3 versus D2 dopamine receptor subtype binding selectivity, and (iii) low‐affinity binding (K_i > 5000 nM) at sigma 1 and sigma 2 receptors. Based upon a forskolin‐dependent activation of the adenylyl cyclase inhibition assay, LS‐3‐134 is a weak partial agonist at both D2 and D3 dopamine receptor subtypes (29% and 35% of full agonist activity, respectively). In this study, [³H]‐labeled LS‐3‐134 was prepared and evaluated to further characterize its use as a D3 dopamine receptor selective radioligand. Kinetic and equilibrium radioligand binding studies were performed. This radioligand rapidly reaches equilibrium (10–15 min at 37°C) and binds with high affinity to both human (K_d = 0.06 ± 0.01 nM) and rat (K_d = 0.2 ± 0.02 nM) D3 receptors expressed in HEK293 cells. Direct and competitive radioligand binding studies using rat caudate and nucleus accumbens tissue indicate that [³H]LS‐3‐134 selectively binds a homogeneous population of binding sites with a dopamine D3 receptor pharmacological profile. Based upon these studies, we propose that [³H]LS‐3‐134 represents a novel D3 dopamine receptor selective radioligand that can be used for studying the expression and regulation of the D3 dopamine receptor subtype.     

Diphenols in hemolymph and cuticle during development and cuticle tanning of Periplaneta americana (L.) and other cockroach species

Diphenolic compounds in cockroach hemolymph and cuticle were extracted with 1.2 N HCI, partially purified by alumina adsorption, and analyzed by liquid chromatography. Dopamine (DA) is the major catecholamine in hemolymph of Periplaneta americana, Blatta orientalis, Blattella germanica, Gromphadorhina portentosa, and Blaberus craniifer at adult ecdysis, while N-acetyldopamine (NADA) predominates in hemolymph of Leucophaea maderae. In P. americana, NADA is the second most abundant catecholamine, while N-β-alanyldopamine (NBAD), norepinephrine (NE), 3,4-dihydroxyphenylalanine, 3,4-dihydroxyphenylethanol, 3,4-dihydroxyphenylacetic acid, and 3,4-dihydroxybenzoic acid occur in lesser quantities. Catecholamines occur mainly as acid labile conjugates in hemolymph. Dopamine, conjugated primarily as the 3-sulfate ester, increases in hemolymph from 0.1 to 0.8 mM during the last instar. Concentrations decrease by 75% in pharate adults, partially because of an increase in hemolymph volume. A second smaller peak of DA sulfate occurs after ecdysis followed by a rapid disappearance as the cuticle tans. A conjugate of catechol (o-dihydroxybenzene) is also present in relatively high concentrations at all ages examined. In cuticle, N-β-alanylnorepinephrine accumulates during the early period of adult tanning, while NBAD, NADA, N-acetylnorepinephrine, and DA increase more slowly. The N-β-alanyl and N-acetyl derivatives of DA and NE occure in relatively high concentrations in tanned cutical of P. americana and probably play an important role in the stablization process.     

An inverse correlation between the apparent rate of dopamine clearance and tonic autoinhibition in subdomains of the rat striatum: a possible role of transporter-mediated dopamine efflux

The dopaminergic terminal field in the rat striatum is compartmentalized into sub-domains that exhibit distinct dynamics of electrically evoked dopamine release. The fast striatal domains, where dopamine release is predominantly vesicular, exhibit conventional dopaminergic activity. However, vesicular dopamine release is tonically autoinhibited in the slow domains, which suggests that dopamine reaches the autoreceptors via a non-vesicular route. Hence, it appears that the domains use distinct mechanisms to regulate the basal dopamine concentration available to activate, or not, pre-synaptic autoinhibitory receptors. However, direct detection of local variations in tonic extracellular dopamine concentrations is not yet possible. So, the present study employed voltammetry to test the hypothesis that the apparent rate of dopamine clearance from the extracellular space should be domain-dependent. The apparent rate of dopamine clearance is equal to the difference in the rates of dopamine release and uptake that determine extracellular dopamine concentrations. This study confirms that the apparent rate of dopamine clearance is slower in the slow striatal domains where vesicular dopamine release is tonically autoinhibited. These findings support the view that the basal concentration in slow domains is maintained by a non-vesicular release process, possibly transporter-mediated efflux.     

Reaction of oxidized dopamine with endogenous cysteine residues in the human dopamine transporter

There is evidence to suggest that dopamine (DA) oxidizes to form dopamine ortho-quinone (DAQ), which binds covalently to nucleophilic sulfhydryl groups on protein cysteinyl residues. This reaction has been shown to inhibit dopamine uptake, as well as other biological processes. We have identified specific cysteine residues in the human dopamine transporter (hDAT) that are modified by this electron-deficient substrate analog. DAQ reactivity was inferred from its effects on the binding of [(3)H]2-beta-carbomethoxy-3-beta-(4-fluorophenyl)tropane (beta-CFT) to hDAT cysteine mutant constructs. One construct, X5C, had four cysteines mutated to alanine and one to phenylalanine (Cys(90)A, Cys(135)A, C306A, C319F and Cys(342)A). In membrane preparations 1 mM DAQ did not affect [(3)H]beta-CFT binding to X5C hDAT, in contrast to its effect in wild-type hDAT in which it reduced the B:(max) value by more than half. Wild-type cysteines were substituted back into X5C, one at a time, and the ability of DAQ to inhibit [(3)H]beta-CFT binding was assessed. Reactivity of DAQ with Cys(90) increased the affinity of [(3)H]beta-CFT for the transporter, whereas reactivity with Cys(135) decreased the affinity of [(3)H]beta-CFT. DAQ did not change the K:(D) for [(3)H]beta-CFT binding to wild-type. The reactivity of DAQ at Cys(342) decreased B:(max) to the same degree as wild-type. The latter result suggests that Cys(342) is the wild-type residue most responsible for DAQ-induced inhibition of [(3)H]beta-CFT binding.     

左旋千金藤啶碱对不同脑区DA更新率的影响

应用ＨＰＬＣ－ＥＣＤ测定ＤＡ更新率（ＤＯＰＡＣ／ＤＡ）,证明（－）ＳＰＤ对黑质－纹状体、中脑－边缘系统、下丘脑－垂体ＤＡ神经系统的ＤＡ含量影响不明显,却显著增加ＤＯＰＡＣ含量,并显著加强这些脑区的ＤＡ更新率,这可能是通过末梢的ＤＡ自身受体实现的。但（－）ＳＰＤ既不显著影响中脑－前额叶和中脑－扣带回的ＤＡ含量,也不影响其中ＤＯＰＡＣ含量,表明它不影响这些脑区ＤＡ更新率。这可能是由于皮层ＤＡ系统神经末     

Pre-synaptic nicotinic and D2 receptors functionally interact on dopaminergic nerve endings of rat and mouse nucleus accumbens

The existence of pre-synaptic auto- and hetero receptors which modulate neurotransmitter release is well documented. Emerging evidence show that in some cases these pre-synaptic receptors may also cross-talk with each other. The aim of the present work was to investigate whether acetylcholine receptors (nAChRs) and dopamine (DA) autoreceptors, which are both able to modulate DA release, functionally interact on the same nerve endings. We used rat and mouse nucleus accumbens synaptosomes pre-labeled with [³H]DA and exposed to nicotinic and dopaminergic receptor ligands. Both nicotinic agonists and 4-aminopyridine (4-AP) provoked [³H]DA release which was inhibited by quinpirole and blocked by sulpiride and raclopride. Both the inhibitory effect of quinpirole and the stimulatory effect of (−)nicotine did not change when the nAChRs or the DA receptors were desensitized. (−)Nicotine and 4-AP were able to stimulate [³H]DA overflow also in mouse synaptosomes and this overflow was partially inhibited by quinpirole. In the β₂ knockout mice quinpirole was still able to inhibit the [³H]DA overflow elicited by 4-AP. To conclude: in rat and mouse the (−)nicotine evoked-release can be modulated by D₂/D₃ autoreceptors present on the DA terminals and nAChRs function is independent from D₂/D₃ autoreceptors which themselves may function independently from the activation of nAChRs.     

Polypyrimidine tract-binding protein 1 regulates the alternative splicing of dopamine receptor D(2)

Dopamine receptor D(2) (DRD2) has two splicing isoforms, a long form (D2L) and short form (D2S), which have distinct functions in the dopaminergic system. However, the regulatory mechanism of the alternative splicing of DRD2 is unknown. In this study, we examined which splicing factors regulate the expression of D2L and D2S by over-expressing several RNA-binding proteins in HEK293 cells. In a cellular splicing assay, the over-expression of polypyrimidine tract-binding protein 1 (PTBP1) reduced the expression of D2S, whereas the knockdown of PTBP1 increased the expression of D2S. We also identified the regions of DRD2 that are responsive to PTBP1 using heterologous minigenes and deletion mutants. Our results indicate that PTBP1 regulates the alternative splicing of DRD2. Considering that DRD2 inhibits cAMP-dependent protein kinase A, which modulates the intracellular localization of PTBP1, PTBP1 may contribute to the autoregulation of DRD2 by regulating the expression of its isoforms.     

[3H]Nemonapride and [3H]Spiperone Label Equivalent Numbers of D2 and D3 Dopamine Receptors in a Range of Tissues and Under Different Conditions

Abstract: [³H]Nemonapride and [³H]spiperone are very widely used to study dopaminergic systems in vitro and in vivo, but it has been reported that [³H]nemonapride and [³H]spiperone give markedly different B _max values for preparations of D₂ dopamine receptors from recombinant cell lines or animal tissues. We have used the two radioligands in parallel to study a range of dopamine receptors [D_2(short), D_2(long), and D₃] in different buffers. B _max values derived using either radioligand differ by an average of <20%, independent of receptor type or buffer conditions. All competition experiments show that the two ligands compete at a single site. It seems that [³H]spiperone and [³H]nemonapride do not differentiate between different forms or populations of D₂-like receptors.     

Characterization of a novel D2-like dopamine receptor with a truncated splice variant and a D1-like dopamine receptor unique to invertebrates from Caenorhabditis elegans

We have cloned two novel Caenorhabditis elegans dopamine receptors, DOP-3 and DOP-4. DOP-3 shows high sequence homology with other D2-like dopamine receptors. As a result of alternative splicing, a truncated splice variant of DOP-3, DOP-3nf, was produced. Because of the in-frame insertion of a stop codon in the third intracellular loop, DOP-3nf lacks the sixth and seventh transmembrane domains that are found in the full-length DOP-3 receptor. Reporter gene assay showed that DOP-3 attenuates forskolin-stimulated cAMP formation in response to dopamine stimulation, whereas DOP-3nf does not. When DOP-3 was coexpressed with DOP-3nf, the ability to inhibit forskolin-stimulated cAMP formation was reduced. DOP-4 shows high sequence homology with D1-like dopamine receptors unique to invertebrates, which are distinct from mammalian D1-like dopamine receptors. Reporter gene assay showed that DOP-4 stimulates cAMP accumulation in response to dopamine stimulation. These two receptors provide new opportunities to understand dopaminergic signaling at the molecular level.     

Prenatal cocaine exposure disrupts the dopaminergic system and its postnatal responses to cocaine

Impaired attention is the hallmark consequence of prenatal cocaine exposure (PCE), affecting brain development, learning, memory and social adaptation starting at an early age. To date, little is known about the brain structures and neurochemical processes involved in this effect. Through focusing on the visual system and employing zebrafish as a model, we show that PCE reduces expression of dopamine receptor Drd1, with levels reduced in the optic tectum and other brain regions, but not the telencephalon. Organism‐wide, PCE results in a 1.7‐fold reduction in the expression of the dopamine transporter (dat), at baseline. Acute cocaine administration leads to a 2‐fold reduction in dat in drug‐naive larvae but not PCE fish. PCE sensitizes animals to an anxiogenic‐like behavioral effect of acute cocaine, bottom‐dwelling, while loss of DAT due to genetic knockout (DATKO) leads to bottom‐dwelling behavior at baseline. Neuronal calcium responses to visual stimuli in both PCE and DATKO fish show tolerance to acute cocaine in the principal regions of visual attention, the telencephalon and optic tectum. The zebrafish model can provide a sensitive assay by which to elucidate the molecular mechanisms and brain region‐specific consequences of PCE, and facilitate the search for effective therapeutic solutions.     

Pramipexole protects against MPTP toxicity in non-human primates

The neurotoxin MPTP induces nigral dopaminergic cell death in primates and produces a partial model of Parkinson's disease (PD). Pramipexole is a D2/D3 dopamine receptor agonist used in the symptomatic treatment of PD, and which also protects neuronal cells against dopaminergic toxins in vitro. We now demonstrate that pramipexole partially prevents MPTP toxicity in vivo in a primate species. Common marmosets were repeatedly treated with pramipexole either before, coincidentally with, or after low-dose MPTP treatment designed to induce a partial lesion of the substantia nigra. Animals pretreated with pramipexole had a significantly greater number of surviving tyrosine hydroxylase (TH) positive neurones in the pars compacta of the substantia nigra. Pramipexole pretreatment also prevented degeneration of striatal dopamine terminals. Treatment with pramipexole concurrently with MPTP or following MPTP did not prevent TH-positive cell loss. Pramipexole pretreatment appears to induce adaptive changes that protect against dopaminergic cell loss in primates.     

Regulation of dopaminergic neuron firing by heterogeneous dopamine autoreceptors in the substantia nigra pars compacta

Dopamine (DA) receptors generate many cellular signals and play various roles in locomotion, motivation, hormone production, and drug abuse. According to the location and expression types of the receptors in the brain, DA signals act in either stimulatory or inhibitory manners. Although DA autoreceptors in the substantia nigra pars compacta are known to regulate firing activity, the exact expression patterns and roles of DA autoreceptor types on the firing activity are highly debated. Therefore, we performed individual correlation studies between firing activity and receptor expression patterns using acutely isolated rat substantia nigra pars compacta DA neurons. When we performed single-cell RT-PCR experiments, D(1), D(2)S, D(2)L, D(3), and D(5) receptor mRNA were heterogeneously expressed in the order of D(2)L > D(2)S > D(3) > D(5) > D(1). Stimulation of D(2) receptors with quinpirole suppressed spontaneous firing similarly among all neurons expressing mRNA solely for D(2)S, D(2)L, or D(3) receptors. However, quinpirole most strongly suppressed spontaneous firing in the neurons expressing mRNA for both D(2) and D(3) receptors. These data suggest that D(2) S, D(2)L, and D(3) receptors are able to equally suppress firing activity, but that D(2) and D(3) receptors synergistically suppress firing. This diversity in DA autoreceptors could explain the various actions of DA in the brain.     

Interaction between dopamine and its transporter: role of intracellular sodium ions and membrane potential

The present study addresses the effect of intracellular Na(+) and membrane potential on the binding of dopamine (DA) to the dopamine transporter (DAT). Perforation of plasma membranes of DAT-expressing cells with gramicidin diminished DA uptake and decreased the potency (increases K(i)) of DA in inhibiting the binding of cocaine analog [(3)H]2beta-carbomethoxy-3beta-(4-fluorophenyl)tropane (CFT). It also compromised the ability of external Na(+) to reduce DA K(i). No substantial effect on DA K(i) was observed upon gramicidin treatment in Na(+)-free buffer, membrane depolarization with high [K(+)](o), or elevation of [Na(+)](i) with monensin under non-depolarizing conditions. Elevation of DA K(i) was greater at more positive potentials when [Na(+)](i) was raised to a similar level, or at higher [Na(+)](i) when the membrane was depolarized to a similar level. In cells expressing D313N DAT, DA K(i) was significantly higher but less sensitive to gramicidin than that in wild-type (WT) cells. In contrast, DA K(i) in cell-free membranes was insensitive to Na(+), gramicidin, and D313N mutation. The data suggest that (i) intracellular Na(+) plays a role in affecting the external access to DA binding sites at DAT on depolarized plasma membranes of cells, and (ii) access to DA binding sites in cell-free membranes may occur from the intracellular side of the membrane. Unlike DA binding, CFT binding to both cells and membranes was sensitive to Na(+) and D313N mutation but insensitive to gramicidin, consistent with exclusively external access to sites that are different from but conformationally linked to those for DA.