Τόμος 22 (2008) – Τεύχος 2 – Άρθρο 66 – Επιθεώρηση Κλινικής Φαρμακολογίας και Φαρμακοκινητικής-Διεθνής Έκδοση – Volume 22 (2008) – Issue 2 – Article 66 – Epitheorese Klinikes Farmakologias και Farmakokinetikes-International Edition

By | | Άντα Μητσάκου - Ada Mitsacos, Άρθρο επισκόπησης - Review Article, Γεωργία Μαντά - Georgia Manta, Ηλίας Κουβέλας - Elias Kouvelas, Πλήρες Κείμενο στα Αγγλικά - Full Text in English, Σταύρος Ταραβήρας - Stavros Taraviras
Title Developmental heterogeneity in splicing of the postnatal rat retinal N-methyl-D-aspartate glutamate receptor 1 
Authors G. Manta1, S. Taraviras2, E. Kouvelasand A. Mitsacos1

1. Department of Physiology, and 2. Department of Pharmacology, Faculty of Medicine, University of Patras, Patra, Greece
Citation Manta, G., Taraviras, S., Kouvelas, E., Mitsacos, A.: Developmental heterogeneity in splicing of the postnatal rat retinal N-methyl-D-aspartate glutamate receptor 1, Epitheorese Klin. Farmakol. Farmakokinet. 22(2): 235-237 (2008)
Publication Date 23-25 May 2008
Full Text Language English
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Keywords NMDA receptor, NR1, development, alternative splicing, visual system.
Other Terms Review article
Summary The N-methyl-D-aspartate (NMDA) type of glutamate ionotropic receptor is considered to have important roles in neuronal differentiation and synapse consolidation in developing CNS. NMDA receptors assemble as tetramers containing NR1 and NR2A-2D, and occasionally NR3A-3B subunits. The gene encoding the NR1 subunit contains three exons that are alternatively spliced to form eight distinct subunit variants. Knowing that alternative splicing of the NR1subunit offers molecular diversity to the NMDA receptor, we have addressed in the present study the question of whether the alternative splicing of NR1 subunit of the NMDA receptor is regulated during retinal development.  We have examined the splice variants of the NR1 subunit (NR1-1, NR1-2, NR1-3 NR1-4, NR1a and NR1b isoforms) in the mammalian rat retina by semi-quantitative PCR during postnatal development. Our results showed that NR1-1 isoform increased gradually from P3 to P35 and then decreased to the initial levels at P60. NR1-2 isoform was expressed at low levels at P3 and P9, increased at P14 with no significant changes thereafter. NR1-3 isoform was expressed at low levels from P3 to P14, increased at P21, remained increased at P35 and decreased at P60. NR1-4 was expressed at low levels at P3 and gradually increased from P9 to P35 and decreased almost to the initial levels at P60. Finally, NR1a and NR1b following a parallel developmental profile showed a significant peak of expression at P35. These results suggest that the NR1 subunit isoforms are differentially regulated and that molecular changes in the NMDA receptor are taking place in rat retina during development.
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