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D 2 Dopamine Receptors Colocalize Regulator of G-Protein Signaling 9-2 (RGS9-2) via the RGS9 DEP Domain, and RGS9 Knock-Out Mice Develop Dyskinesias Associated with Dopamine Pathways
Regulator of G-protein signaling 9-2 (RGS9-2), a member of the RGS family of Gα GTPase accelerating proteins, is expressed specifically in the striatum, which participates in antipsychotic-induced tardive dyskinesia and in levodopa-induced dyskinesia. We report that RGS9 knock-out mice develop abnor...
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| Published in: | The Journal of neuroscience 2005-02, Vol.25 (8), p.2157-2165 |
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| Main Authors: | , , , , , , , , , , |
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| Language: | English |
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| cites | cdi_FETCH-LOGICAL-c185t-67e687770a33d9210f727c952e56afe1947a456e5ac6d9c0076f1505dfb348653 |
| container_end_page | 2165 |
| container_issue | 8 |
| container_start_page | 2157 |
| container_title | The Journal of neuroscience |
| container_volume | 25 |
| creator | Kovoor, Abraham Seyffarth, Petra Ebert, Jana Barghshoon, Sami Chen, Ching-Kang Schwarz, Sigrid Axelrod, Jeffrey D. Cheyette, Benjamin N. R. Simon, Melvin I. Lester, Henry A. Schwarz, Johannes |
| description | Regulator of G-protein signaling 9-2 (RGS9-2), a member of the RGS family of Gα GTPase accelerating proteins, is expressed specifically in the striatum, which participates in antipsychotic-induced tardive dyskinesia and in levodopa-induced dyskinesia. We report that RGS9 knock-out mice develop abnormal involuntary movements when inhibition of dopaminergic transmission is followed by activation of D
2
-like dopamine receptors (DRs). These abnormal movements resemble drug-induced dyskinesia more closely than other rodent models. Recordings from striatal neurons of these mice establish that activation of D
2
-like DRs abnormally inhibits glutamate-elicited currents. We show that RGS9-2, via its DEP domain (for Disheveled, EGL-10, Pleckstrin homology), colocalizes with D
2
DRs when coexpressed in mammalian cells. Recordings from oocytes coexpressing D
2
DR or the m2 muscarinic receptor and G-protein-gated inward rectifier potassium channels show that RGS9-2, via its DEP domain, preferentially accelerates the termination of D
2
DR signals. Thus, alterations in RGS9-2 may be a key factor in the pathway leading from D
2
DRs to the side effects associated with the treatment both of psychoses and Parkinson's disease. |
| doi_str_mv | 10.1523/JNEUROSCI.2840-04.2005 |
| format | article |
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2
-like dopamine receptors (DRs). These abnormal movements resemble drug-induced dyskinesia more closely than other rodent models. Recordings from striatal neurons of these mice establish that activation of D
2
-like DRs abnormally inhibits glutamate-elicited currents. We show that RGS9-2, via its DEP domain (for Disheveled, EGL-10, Pleckstrin homology), colocalizes with D
2
DRs when coexpressed in mammalian cells. Recordings from oocytes coexpressing D
2
DR or the m2 muscarinic receptor and G-protein-gated inward rectifier potassium channels show that RGS9-2, via its DEP domain, preferentially accelerates the termination of D
2
DR signals. Thus, alterations in RGS9-2 may be a key factor in the pathway leading from D
2
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2
-like dopamine receptors (DRs). These abnormal movements resemble drug-induced dyskinesia more closely than other rodent models. Recordings from striatal neurons of these mice establish that activation of D
2
-like DRs abnormally inhibits glutamate-elicited currents. We show that RGS9-2, via its DEP domain (for Disheveled, EGL-10, Pleckstrin homology), colocalizes with D
2
DRs when coexpressed in mammalian cells. Recordings from oocytes coexpressing D
2
DR or the m2 muscarinic receptor and G-protein-gated inward rectifier potassium channels show that RGS9-2, via its DEP domain, preferentially accelerates the termination of D
2
DR signals. Thus, alterations in RGS9-2 may be a key factor in the pathway leading from D
2
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2
-like dopamine receptors (DRs). These abnormal movements resemble drug-induced dyskinesia more closely than other rodent models. Recordings from striatal neurons of these mice establish that activation of D
2
-like DRs abnormally inhibits glutamate-elicited currents. We show that RGS9-2, via its DEP domain (for Disheveled, EGL-10, Pleckstrin homology), colocalizes with D
2
DRs when coexpressed in mammalian cells. Recordings from oocytes coexpressing D
2
DR or the m2 muscarinic receptor and G-protein-gated inward rectifier potassium channels show that RGS9-2, via its DEP domain, preferentially accelerates the termination of D
2
DR signals. Thus, alterations in RGS9-2 may be a key factor in the pathway leading from D
2
DRs to the side effects associated with the treatment both of psychoses and Parkinson's disease.</abstract><doi>10.1523/JNEUROSCI.2840-04.2005</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record> |
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| title | D 2 Dopamine Receptors Colocalize Regulator of G-Protein Signaling 9-2 (RGS9-2) via the RGS9 DEP Domain, and RGS9 Knock-Out Mice Develop Dyskinesias Associated with Dopamine Pathways |
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