Canonical and noncanonical transducers for calcium signaling : role of Na,K-ATPase and angiotensin receptor
Author: Khorshidi, Zuzana
Date: 2014-01-13
Location: Föreläsningssalen Jacob Berzelius (Adam), Berzelius väg3, Karolinska Institutet, Stockholm
Time: 09.00
Department: Inst för kvinnors och barns hälsa / Dept of Women's and Children's Health
Abstract
Calcium (Ca2+) is the most universal and versatile signal in the cell. This versatility is based on the speed, amplitude and spatio-temporal patterning of the Ca2+ events. The inositol 1,4,5-trisphosphate receptor (IP3R) is one of the main Ca2+ channels responsible for the Ca2+ release from the intracellular stores. In a response to various stimuli, IP3R is able to generate variety of Ca2+ signals, ranging from Ca2+ transients to Ca2+ oscillations of different frequencies.
In this thesis we studied regulation of canonical and non-canonical signaling pathways that activate IP3R-mediated Ca2+ signaling. The canonical pathway is represented in this thesis by angiotensin II type 1 receptor (AT1R) Gαq/11 protein-coupled signaling, which triggers IP3R-mediated Ca2+ signals by stimulation of IP3 production. The non-canonical pathway is represented by Na,K-ATPase, which activates IP3R independently on the presence of IP3 through allosteric effect.
AT1R, together with dopamine D1-like receptor (D1R), represent a counter- regulatory system that controls sodium uptake in renal proximal tubules. We have shown that AT1R and D1R form a heterodimer. We have demonstrated that the stimulation of either of the receptors induce heterologous desensitization of the other receptor. Activation of D1R resulted in rapid and reversible uncoupling of AT1R from its G protein-coupled signaling pathway followed by internalization of the receptor and vice versa; stimulation of AT1R abolished D1R mediated cAMP production and triggered D1R internalization.
Na,K-ATPase, in addition to its function as an ion pump, serves also as a signal transducer. Ouabain, a highly specific Na,K-ATPase ligand, was shown to trigger slow Ca2+ oscillations through the Na,K-ATPase/IP3R signaling complex. We have described that the cytoskeleton associated protein, ankyrin B, stabilizes the Na,K-ATPase and IP3R interaction. Down-regulation of ankyrin B in COS7 cells using siRNA, resulted in reduction and dysregulation of ouabain-triggered Ca2+ oscillations, and abolishment of NF-kB activation.
In 2006, Hilgenberg et al. (Cell 2006 Apr 125:359) reported that 20-kD C-terminal fragment of agrin (agrin C20) is a new ligand of Na,K-ATPase α3 that inhibits its pumping activity. The original purpose of our study was to examine whether agrin C20 has also capacity to induce signaling function of Na,K-ATPase α3. We have shown that the solubilized agrin C20, which we received from the authors of the Cell paper, is not selective for Na,K-ATPase α3, but has a capacity to trigger slow Ca2+ oscillations in COS7 cells via Na,K-ATPase α1 and also to inhibit the pumping activity of the Na,K-ATPase α1. These effects were dependent on the intact ouabain binding site. Solubilized agrin C20 was also found to trigger slow Ca2+ oscillations superimposed on the spontaneous fast frequency Ca2+ oscillations in rat primary hippocampal neurons. The naturally occurring 22-kD C-terminal fragment of agrin did not trigger Ca2+ signal in COS7 cells. Mass- spectrometry analysis revealed presence of 5-7 mM ouabain in the solubilized agrin C20 sample. Ouabain-free agrin C20 was not found to have any effect on the Na,K-ATPase activity in the mouse brain lysate.
In conclusion we have described new mechanisms regulating canonical and non- canonical activators of IP3R Ca2+ signaling through protein-protein interaction and allosteric modulation.
In this thesis we studied regulation of canonical and non-canonical signaling pathways that activate IP3R-mediated Ca2+ signaling. The canonical pathway is represented in this thesis by angiotensin II type 1 receptor (AT1R) Gαq/11 protein-coupled signaling, which triggers IP3R-mediated Ca2+ signals by stimulation of IP3 production. The non-canonical pathway is represented by Na,K-ATPase, which activates IP3R independently on the presence of IP3 through allosteric effect.
AT1R, together with dopamine D1-like receptor (D1R), represent a counter- regulatory system that controls sodium uptake in renal proximal tubules. We have shown that AT1R and D1R form a heterodimer. We have demonstrated that the stimulation of either of the receptors induce heterologous desensitization of the other receptor. Activation of D1R resulted in rapid and reversible uncoupling of AT1R from its G protein-coupled signaling pathway followed by internalization of the receptor and vice versa; stimulation of AT1R abolished D1R mediated cAMP production and triggered D1R internalization.
Na,K-ATPase, in addition to its function as an ion pump, serves also as a signal transducer. Ouabain, a highly specific Na,K-ATPase ligand, was shown to trigger slow Ca2+ oscillations through the Na,K-ATPase/IP3R signaling complex. We have described that the cytoskeleton associated protein, ankyrin B, stabilizes the Na,K-ATPase and IP3R interaction. Down-regulation of ankyrin B in COS7 cells using siRNA, resulted in reduction and dysregulation of ouabain-triggered Ca2+ oscillations, and abolishment of NF-kB activation.
In 2006, Hilgenberg et al. (Cell 2006 Apr 125:359) reported that 20-kD C-terminal fragment of agrin (agrin C20) is a new ligand of Na,K-ATPase α3 that inhibits its pumping activity. The original purpose of our study was to examine whether agrin C20 has also capacity to induce signaling function of Na,K-ATPase α3. We have shown that the solubilized agrin C20, which we received from the authors of the Cell paper, is not selective for Na,K-ATPase α3, but has a capacity to trigger slow Ca2+ oscillations in COS7 cells via Na,K-ATPase α1 and also to inhibit the pumping activity of the Na,K-ATPase α1. These effects were dependent on the intact ouabain binding site. Solubilized agrin C20 was also found to trigger slow Ca2+ oscillations superimposed on the spontaneous fast frequency Ca2+ oscillations in rat primary hippocampal neurons. The naturally occurring 22-kD C-terminal fragment of agrin did not trigger Ca2+ signal in COS7 cells. Mass- spectrometry analysis revealed presence of 5-7 mM ouabain in the solubilized agrin C20 sample. Ouabain-free agrin C20 was not found to have any effect on the Na,K-ATPase activity in the mouse brain lysate.
In conclusion we have described new mechanisms regulating canonical and non- canonical activators of IP3R Ca2+ signaling through protein-protein interaction and allosteric modulation.
List of papers:
I. Xiao Liu, Zuzana Špicarová, Susanna Rydholm, Juan Li, Hjalmar Brismar, Anita Aperia. Ankyrin B modulates the function of Na,K-ATPase/Inositol 1,4,5- trisphosphate receptor signaling microdomain. J Biol Chem. 283:11461-11468, 2008
Fulltext (DOI)
Pubmed
View record in Web of Science®
II. Farah Khan, Zuzana Špicarová, Sergey Zelenin, Ulla Holtbäck, Lena Scott, Anita Aperia. Negative reciprocity between angiotensin II type 1 and dopamine D1 receptors in rat renal proximal tubule cells. Am J Physiol Renal Physiol. 295: F1110–F1116, 2008.
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Zuzana Khorshidi, Xiao Liu, Alexander Bondar, Hjalmar Brismar, Anita Aperia. Reported effects of agrin on the function of Na,K-ATPase may be explained by a contamination. [Manuscript]
I. Xiao Liu, Zuzana Špicarová, Susanna Rydholm, Juan Li, Hjalmar Brismar, Anita Aperia. Ankyrin B modulates the function of Na,K-ATPase/Inositol 1,4,5- trisphosphate receptor signaling microdomain. J Biol Chem. 283:11461-11468, 2008
Fulltext (DOI)
Pubmed
View record in Web of Science®
II. Farah Khan, Zuzana Špicarová, Sergey Zelenin, Ulla Holtbäck, Lena Scott, Anita Aperia. Negative reciprocity between angiotensin II type 1 and dopamine D1 receptors in rat renal proximal tubule cells. Am J Physiol Renal Physiol. 295: F1110–F1116, 2008.
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Zuzana Khorshidi, Xiao Liu, Alexander Bondar, Hjalmar Brismar, Anita Aperia. Reported effects of agrin on the function of Na,K-ATPase may be explained by a contamination. [Manuscript]
Institution: Karolinska Institutet
Supervisor: Aperia, Anita
Issue date: 2013-12-02
Rights:
Publication year: 2013
ISBN: 978-91-7549-398-5
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