标题
Evidence against dopamine D1/D2 receptor heteromers
作者
关键词
-
出版物
MOLECULAR PSYCHIATRY
Volume 20, Issue 11, Pages 1373-1385
出版商
Springer Nature
发表日期
2015-01-06
DOI
10.1038/mp.2014.166
参考文献
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注意:仅列出部分参考文献,下载原文获取全部文献信息。- CrossTalk opposing view: Weighing the evidence for class A GPCR dimers, the jury is still out
- (2014) Nevin A. Lambert et al. JOURNAL OF PHYSIOLOGY-LONDON
- D1R/GluN1 complexes in the striatum integrate dopamine and glutamate signalling to control synaptic plasticity and cocaine-induced responses
- (2014) E Cahill et al. MOLECULAR PSYCHIATRY
- SKF-83959 is not a highly-biased functionally selective D1 dopamine receptor ligand with activity at phospholipase C
- (2014) Sang-Min Lee et al. NEUROPHARMACOLOGY
- Viral over-expression of D1 dopamine receptors in the prefrontal cortex increase high-risk behaviors in adults: Comparison with adolescents
- (2014) Kai C. Sonntag et al. PSYCHOPHARMACOLOGY
- Increasing dopamine D2 receptor expression in the adult nucleus accumbens enhances motivation
- (2013) P Trifilieff et al. MOLECULAR PSYCHIATRY
- Heteromeric Dopamine Receptor Signaling Complexes: Emerging Neurobiology and Disease Relevance
- (2013) Melissa L Perreault et al. NEUROPSYCHOPHARMACOLOGY
- Building a better hormone therapy? How understanding the rapid effects of sex steroid hormones could lead to new therapeutics for age-related memory decline.
- (2012) Karyn M. Frick BEHAVIORAL NEUROSCIENCE
- Deciphering biased-agonism complexity reveals a new active AT1 receptor entity
- (2012) Aude Saulière et al. Nature Chemical Biology
- Reduced striatal dopamine D1–D2 receptor heteromer expression and behavioural subsensitivity in juvenile rats
- (2012) M.L. Perreault et al. NEUROSCIENCE
- Dopamine D1–D2 Receptor Heteromer in Dual Phenotype GABA/Glutamate-Coexpressing Striatal Medium Spiny Neurons: Regulation of BDNF, GAD67 and VGLUT1/2
- (2012) Melissa L. Perreault et al. PLoS One
- Loss of Thr286 phosphorylation disrupts synaptic CaMKIIα targeting, NMDAR activity and behavior in pre-adolescent mice
- (2011) Richard M. Gustin et al. MOLECULAR AND CELLULAR NEUROSCIENCE
- CODA-RET reveals functional selectivity as a result of GPCR heteromerization
- (2011) Eneko Urizar et al. Nature Chemical Biology
- The Physiology, Signaling, and Pharmacology of Dopamine Receptors
- (2011) J.-M. Beaulieu et al. PHARMACOLOGICAL REVIEWS
- The Dopamine D1–D2 Receptor Heteromer in Striatal Medium Spiny Neurons: Evidence for a Third Distinct Neuronal Pathway in Basal Ganglia
- (2011) Melissa L. Perreault et al. Frontiers in Neuroanatomy
- Activation of phosphatidylinositol-linked D1-like receptors increases spontaneous glutamate release in rat somatosensory cortical neurons in vitro
- (2010) Hong-Yuan Chu et al. BRAIN RESEARCH
- The Dopamine D1-D2 Receptor Heteromer Localizes in Dynorphin/Enkephalin Neurons
- (2010) Melissa L. Perreault et al. JOURNAL OF BIOLOGICAL CHEMISTRY
- Evidence for a Distinct D1Like Dopamine Receptor that Couples to Activation of Phosphoinositide Metabolism in Brain
- (2010) Ashiwel S. Undie et al. JOURNAL OF NEUROCHEMISTRY
- Uncoupling the dopamine D1-D2 receptor complex exerts antidepressant-like effects
- (2010) Lin Pei et al. NATURE MEDICINE
- What is the degree of segregation between striatonigral and striatopallidal projections?
- (2010) Jesus Bertran-Gonzalez Frontiers in Neuroanatomy
- Heteromerization of dopamine D2 receptors with dopamine D1 or D5 receptors generates intracellular calcium signaling by different mechanisms
- (2009) Ahmed Hasbi et al. CURRENT OPINION IN PHARMACOLOGY
- Activation of Phosphatidylinositol-Linked Novel D1 Dopamine Receptors Inhibits High-Voltage-Activated Ca2+ Currents in Primary Cultured Striatal Neurons
- (2009) Li-Qun Ma et al. JOURNAL OF NEUROPHYSIOLOGY
- Activation of Phosphatidylinositol-Linked D1-Like Receptor Modulates FGF-2 Expression in Astrocytes via IP3-Dependent Ca2+ Signaling
- (2009) X. Zhang et al. JOURNAL OF NEUROSCIENCE
- Calcium Signaling by Dopamine D5 Receptor and D5-D2 Receptor Hetero-Oligomers Occurs by a Mechanism Distinct from That for Dopamine D1-D2 Receptor Hetero-Oligomers
- (2009) C. H. So et al. MOLECULAR PHARMACOLOGY
- Allosteric communication between protomers of dopamine class A GPCR dimers modulates activation
- (2009) Yang Han et al. Nature Chemical Biology
- Building a new conceptual framework for receptor heteromers
- (2009) Sergi Ferré et al. Nature Chemical Biology
- Phosphatidylinositol-linked novel D1 dopamine receptor facilitates long-term depression in rat hippocampal CA1 synapses
- (2009) Jue Liu et al. NEUROPHARMACOLOGY
- Activation of calcium/calmodulin-dependent protein kinase IIα in the striatum by the heteromeric D1-D2 dopamine receptor complex
- (2009) J. Ng et al. NEUROSCIENCE
- Striatal Medium-Sized Spiny Neurons: Identification by Nuclear Staining and Study of Neuronal Subpopulations in BAC Transgenic Mice
- (2009) Miriam Matamales et al. PLoS One
- Calcium signaling cascade links dopamine D1–D2 receptor heteromer to striatal BDNF production and neuronal growth
- (2009) Ahmed Hasbi et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Dopamine D2 receptors form higher order oligomers at physiological expression levels
- (2008) Wen Guo et al. EMBO JOURNAL
- Drd1a-tdTomato BAC Transgenic Mice for Simultaneous Visualization of Medium Spiny Neurons in the Direct and Indirect Pathways of the Basal Ganglia
- (2008) J. A. Shuen et al. JOURNAL OF NEUROSCIENCE
- Opposing Patterns of Signaling Activation in Dopamine D1 and D2 Receptor-Expressing Striatal Neurons in Response to Cocaine and Haloperidol
- (2008) J. Bertran-Gonzalez et al. JOURNAL OF NEUROSCIENCE
- D5 Dopamine Receptors are Required for Dopaminergic Activation of Phospholipase C
- (2008) A. Sahu et al. MOLECULAR PHARMACOLOGY
- GPCR monomers and oligomers: it takes all kinds
- (2008) Vsevolod V. Gurevich et al. TRENDS IN NEUROSCIENCES
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