Yang Han scite author profile

A major obstacle to understanding the functional importance of dimerization between Class A G protein-coupled receptors (GPCRs) has been the methodological limitation in achieving control of the identity of the components comprising the signaling unit. We have developed a functional complementation assay that enables such control and illustrate it for the human dopamine D2 receptor. The minimal signaling unit, two receptors and a single G protein, is maximally activated by agonist binding to a single protomer, which suggests an asymmetrical activated dimer. Inverse agonist binding to the second protomer enhances signaling, whereas agonist binding to the second protomer blunts signaling. Ligand-independent constitutive activation of the second protomer also inhibits signaling. Thus, GPCR dimer function can be modulated by the activity state of the second protomer, which for a heterodimer may be altered in pathological states. Our novel methodology also makes possible the characterization of signaling from a defined heterodimer unit.

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D₂Receptors Regulate Dopamine Transporter Function via an Extracellular Signal-Regulated Kinases 1 and 2-Dependent and Phosphoinositide 3 Kinase-Independent Mechanism

Bolan

Kivell²,

Jaligam³

et al. 2007

Mol Pharmacol

189

238

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The dopamine transporter (DAT) terminates dopamine (DA) neurotransmission by reuptake of DA into presynaptic neurons. -(2-amino-3-methoxyphenyl)-4H-1-benzopyran-4-one (PD98059) prevented the quinpirole-evoked increase in ASPϩ accumulation, whereas inhibition of PI3K was without effect. Fluorescence flow cytometry and biotinylation studies revealed a rapid increase in DAT cell-surface expression in response to D 2 R stimulation. These experiments demonstrate that D 2S R stimulation increases DAT cell surface expression and therefore enhances substrate clearance. Furthermore, they show that the increase in DAT function is ERK1/2-dependent but PI3K-independent. Our data also suggest the possibility of a direct physical interaction between DAT and D 2 R. Together, these results suggest a novel mechanism by which D 2S R autoreceptors may regulate DAT in the central nervous system. Dopamine (DA) is the predominant catecholamine neurotransmitter in the central nervous system. Dysregulation of DA neurons has been implicated in the pathogenesis of Parkinson's disease, schizophrenia, and drug addiction (Sotnikova et al., 2006). Extracellular DA levels are primarily regulated by the DA transporter (DAT), an integral membrane protein that is a member of the Na ϩ /Cl Ϫ -dependent J.J., A.Z., and T.S.S. contributed equally to this work.

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Exosomes from hypoxia-treated human adipose-derived mesenchymal stem cells enhance angiogenesis through VEGF/VEGF-R

Han

Ren

Bai

et al. 2019

The International Journal of Biochemistry & Cell Biology

229

184

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Regulation of Dopamine Transporter Function and Cell Surface Expression by D3 Dopamine Receptors

Zapata

Kivell

Han

et al. 2007

Journal of Biological Chemistry

106

131

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The D 3 dopamine (DA) 4 receptor, a member of the D2-like family of DA receptors, is expressed in limbic brain regions, both presynaptically on DA neurons as well as postsynaptically. The D3 receptor has gained increasing attention as a target for the treatment of schizophrenia, psycho-stimulant abuse, and DA cell neurodegeneration (1-4). Its restricted central nervous system distribution, relative to D2 receptors, suggests that D3 receptor ligands may have fewer side effects than currently available therapeutic agents.Studies using D3 receptor knock-out mice (5-7) or D3 antisense (8, 9) revealed that D3 receptors regulate extracellular DA in ventral striatum. This effect was attributed to D3 regulation of a long negative feedback loop in which postsynaptic D3 receptors on medium spiny neurons modulate the activity of accumbens output neurons projecting to DA cell bodies in mid-brain (5). However, this hypothesis is incompatible with the effects of DA receptor ligands in tissue preparations in which efferent projections to midbrain DA nuclei are disrupted; modulation of extracellular DA by D3 receptors has been demonstrated in striatal slices (7) and tissue suspensions (10). Pharmacological studies examining the mechanism of such regulation have been precluded by the lack of selective ligands that discriminate between D2 and D3 receptors in vivo (5,(11)(12)(13).DA signaling is terminated by the DA transporter (DAT), an integral membrane protein that re-uptakes DA released into the extracellular space (14). Receptor and second messengerlinked kinase cascades regulate DAT function and cell surface

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Yang Han

Allosteric communication between protomers of dopamine class A GPCR dimers modulates activation

D₂Receptors Regulate Dopamine Transporter Function via an Extracellular Signal-Regulated Kinases 1 and 2-Dependent and Phosphoinositide 3 Kinase-Independent Mechanism

Exosomes from hypoxia-treated human adipose-derived mesenchymal stem cells enhance angiogenesis through VEGF/VEGF-R

Regulation of Dopamine Transporter Function and Cell Surface Expression by D3 Dopamine Receptors

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Yang Han

Allosteric communication between protomers of dopamine class A GPCR dimers modulates activation

D2Receptors Regulate Dopamine Transporter Function via an Extracellular Signal-Regulated Kinases 1 and 2-Dependent and Phosphoinositide 3 Kinase-Independent Mechanism

Exosomes from hypoxia-treated human adipose-derived mesenchymal stem cells enhance angiogenesis through VEGF/VEGF-R

Regulation of Dopamine Transporter Function and Cell Surface Expression by D3 Dopamine Receptors

Contact Info

Product

Resources

About

D₂Receptors Regulate Dopamine Transporter Function via an Extracellular Signal-Regulated Kinases 1 and 2-Dependent and Phosphoinositide 3 Kinase-Independent Mechanism