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Genetically Determined Interaction between the Dopamine Transporter and the D2 Receptor on Prefronto-Striatal Activity and Volume in Humans

Dopamine modulation of neuronal activity during memory tasks identifies a nonlinear inverted-U shaped function. Both the dopamine transporter (DAT) and dopamine D(2) receptors (encoded by DRD(2)) critically regulate dopamine signaling in the striatum and in prefrontal cortex during memory. Moreover,...

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Published in:	The Journal of neuroscience 2009-01, Vol.29 (4), p.1224-1234
Main Authors:	Bertolino, Alessandro, Fazio, Leonardo, Di Giorgio, Annabella, Blasi, Giuseppe, Romano, Raffaella, Taurisano, Paolo, Caforio, Grazia, Sinibaldi, Lorenzo, Ursini, Gianluca, Popolizio, Teresa, Tirotta, Emanuele, Papp, Audrey, Dallapiccola, Bruno, Borrelli, Emiliana, Sadee, Wolfgang
Format:	Article
Language:	English
Subjects:	Adult Analysis of Variance Animals Brain Mapping Corpus Striatum - blood supply Corpus Striatum - physiology Dopamine Plasma Membrane Transport Proteins - genetics Dopamine Plasma Membrane Transport Proteins - metabolism Female Functional Laterality Genotype Humans Image Processing, Computer-Assisted - methods Immunoprecipitation - methods Magnetic Resonance Imaging - methods Male Mice Mice, Knockout Minisatellite Repeats - genetics Neural Pathways - blood supply Neural Pathways - physiology Neuropsychological Tests Oxygen - blood Polymorphism, Single Nucleotide - genetics Prefrontal Cortex - blood supply Prefrontal Cortex - physiology Receptors, Dopamine D2 - deficiency Receptors, Dopamine D2 - genetics Receptors, Dopamine D2 - metabolism Recognition (Psychology) - physiology Regression Analysis Young Adult
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creator	Bertolino, Alessandro Fazio, Leonardo Di Giorgio, Annabella Blasi, Giuseppe Romano, Raffaella Taurisano, Paolo Caforio, Grazia Sinibaldi, Lorenzo Ursini, Gianluca Popolizio, Teresa Tirotta, Emanuele Papp, Audrey Dallapiccola, Bruno Borrelli, Emiliana Sadee, Wolfgang
description	Dopamine modulation of neuronal activity during memory tasks identifies a nonlinear inverted-U shaped function. Both the dopamine transporter (DAT) and dopamine D(2) receptors (encoded by DRD(2)) critically regulate dopamine signaling in the striatum and in prefrontal cortex during memory. Moreover, in vitro studies have demonstrated that DAT and D(2) proteins reciprocally regulate each other presynaptically. Therefore, we have evaluated the genetic interaction between a DRD(2) polymorphism (rs1076560) causing reduced presynaptic D(2) receptor expression and the DAT 3'-VNTR variant (affecting DAT expression) in a large sample of healthy subjects undergoing blood oxygenation level-dependent (BOLD)-functional magnetic resonance imaging (MRI) during memory tasks and structural MRI. Results indicated a significant DRD(2)/DAT interaction in prefrontal cortex and striatum BOLD activity during both working memory and encoding of recognition memory. The differential effect on BOLD activity of the DAT variant was mostly manifest in the context of the DRD(2) allele associated with lower presynaptic expression. Similar results were also evident for gray matter volume in caudate. These interactions describe a nonlinear relationship between compound genotypes and brain activity or gray matter volume. Complementary data from striatal protein extracts from wild-type and D(2) knock-out animals (D2R(-/-)) indicate that DAT and D(2) proteins interact in vivo. Together, our results demonstrate that the interaction between genetic variants in DRD(2) and DAT critically modulates the nonlinear relationship between dopamine and neuronal activity during memory processing.
doi_str_mv	10.1523/JNEUROSCI.4858-08.2009
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The differential effect on BOLD activity of the DAT variant was mostly manifest in the context of the DRD(2) allele associated with lower presynaptic expression. Similar results were also evident for gray matter volume in caudate. These interactions describe a nonlinear relationship between compound genotypes and brain activity or gray matter volume. Complementary data from striatal protein extracts from wild-type and D(2) knock-out animals (D2R(-/-)) indicate that DAT and D(2) proteins interact in vivo. 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Both the dopamine transporter (DAT) and dopamine D(2) receptors (encoded by DRD(2)) critically regulate dopamine signaling in the striatum and in prefrontal cortex during memory. Moreover, in vitro studies have demonstrated that DAT and D(2) proteins reciprocally regulate each other presynaptically. Therefore, we have evaluated the genetic interaction between a DRD(2) polymorphism (rs1076560) causing reduced presynaptic D(2) receptor expression and the DAT 3'-VNTR variant (affecting DAT expression) in a large sample of healthy subjects undergoing blood oxygenation level-dependent (BOLD)-functional magnetic resonance imaging (MRI) during memory tasks and structural MRI. Results indicated a significant DRD(2)/DAT interaction in prefrontal cortex and striatum BOLD activity during both working memory and encoding of recognition memory. The differential effect on BOLD activity of the DAT variant was mostly manifest in the context of the DRD(2) allele associated with lower presynaptic expression. Similar results were also evident for gray matter volume in caudate. These interactions describe a nonlinear relationship between compound genotypes and brain activity or gray matter volume. Complementary data from striatal protein extracts from wild-type and D(2) knock-out animals (D2R(-/-)) indicate that DAT and D(2) proteins interact in vivo. 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Both the dopamine transporter (DAT) and dopamine D(2) receptors (encoded by DRD(2)) critically regulate dopamine signaling in the striatum and in prefrontal cortex during memory. Moreover, in vitro studies have demonstrated that DAT and D(2) proteins reciprocally regulate each other presynaptically. Therefore, we have evaluated the genetic interaction between a DRD(2) polymorphism (rs1076560) causing reduced presynaptic D(2) receptor expression and the DAT 3'-VNTR variant (affecting DAT expression) in a large sample of healthy subjects undergoing blood oxygenation level-dependent (BOLD)-functional magnetic resonance imaging (MRI) during memory tasks and structural MRI. Results indicated a significant DRD(2)/DAT interaction in prefrontal cortex and striatum BOLD activity during both working memory and encoding of recognition memory. The differential effect on BOLD activity of the DAT variant was mostly manifest in the context of the DRD(2) allele associated with lower presynaptic expression. Similar results were also evident for gray matter volume in caudate. These interactions describe a nonlinear relationship between compound genotypes and brain activity or gray matter volume. Complementary data from striatal protein extracts from wild-type and D(2) knock-out animals (D2R(-/-)) indicate that DAT and D(2) proteins interact in vivo. Together, our results demonstrate that the interaction between genetic variants in DRD(2) and DAT critically modulates the nonlinear relationship between dopamine and neuronal activity during memory processing.</abstract><cop>United States</cop><pub>Soc Neuroscience</pub><pmid>19176830</pmid><doi>10.1523/JNEUROSCI.4858-08.2009</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adult Analysis of Variance Animals Brain Mapping Corpus Striatum - blood supply Corpus Striatum - physiology Dopamine Plasma Membrane Transport Proteins - genetics Dopamine Plasma Membrane Transport Proteins - metabolism Female Functional Laterality Genotype Humans Image Processing, Computer-Assisted - methods Immunoprecipitation - methods Magnetic Resonance Imaging - methods Male Mice Mice, Knockout Minisatellite Repeats - genetics Neural Pathways - blood supply Neural Pathways - physiology Neuropsychological Tests Oxygen - blood Polymorphism, Single Nucleotide - genetics Prefrontal Cortex - blood supply Prefrontal Cortex - physiology Receptors, Dopamine D2 - deficiency Receptors, Dopamine D2 - genetics Receptors, Dopamine D2 - metabolism Recognition (Psychology) - physiology Regression Analysis Young Adult
title	Genetically Determined Interaction between the Dopamine Transporter and the D2 Receptor on Prefronto-Striatal Activity and Volume in Humans
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