Nuclear-cytoplasmic translocation of the transporter regulator RS1
Details
The RS1 protein participates in regulation of Na+-D-glucose cotransporter SGLT1 and other solute carriers. In the present study, the mechanism and regulation of confluence-dependent nuclear location of RS1 was investigated. Nuclear location of RS1 was found to be regulated by the cell cycle. A nuclear shuttling signal (NS) in pRS1 was identified that mediates translocation of RS1 into and out of the nucleus via importin ß1 and CRM1, respectively. The adjacent protein kinase C (PKC) phosphorylation site was shown to control nuclear localization driven by NS during confluence. According to the proposed model, in subconfluent cells, RS1 is actively imported into the nucleus whereas nuclear export of RS1 is not active. After confluence, phosphorylation of serine 370 of pRS1 by PKC takes place leading to enhancement of RS1 nuclear export and predominantly cytoplasmic distribution of the protein. Gene expression profiling of mouse embryonic fibroblasts with RS1-/- genotype suggests that transcriptional regulation by RS1 might be important for the cell cycle and cell division. Thus, RS1 might play a role in the regulation of the solute carriers during specific phases of the cell cycle.
Autorentext
Alina Filatova, PhD, born in 1983, studied Biochemistry at MoscowState University. She accomplished her PhD in the field ofnuclear transport regulation at University of Würzburg. Shecurrently works in Institute of Neuropathology in Giessen. Herresearch interests include molecular bases of altered cellfunctioning in higher vertebrates.
Weitere Informationen
- Allgemeine Informationen
- GTIN 09783838111612
- Sprache Deutsch
- Genre Ökologie
- Größe H220mm x B150mm x T8mm
- Jahr 2015
- EAN 9783838111612
- Format Kartonierter Einband
- ISBN 978-3-8381-1161-2
- Veröffentlichung 14.10.2015
- Titel Nuclear-cytoplasmic translocation of the transporter regulator RS1
- Autor Alina Filatova
- Untertitel Mechanism and control
- Gewicht 185g
- Herausgeber Südwestdeutscher Verlag für Hochschulschriften AG Co. KG
- Anzahl Seiten 112