Substrate preference and phosphatidylinositol monophosphate inhibition of the catalytic domain of the Per-Arnt-Sim domain kinase PASKIN

The Per-Arnt-Sim (PAS) domain serine/threonine kinase PASKIN, or PAS kinase, links energy flux and protein synthesis in yeast, regulates glycogen synthesis and protein translation in mammals, and might be involved in insulin regulation in the pancreas. According to the current model, binding of a pu...

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Veröffentlicht in:	The FEBS journal 2011-05, Vol.278 (10), p.1757-1768
Hauptverfasser:	Schläfli, Philipp, Tröger, Juliane, Eckhardt, Katrin, Borter, Emanuela, Spielmann, Patrick, Wenger, Roland H
Format:	Artikel
Sprache:	eng
Schlagworte:	active sites Amino Acid Sequence Catalysis Catalytic Domain energy flow glycogen insulin Insulin - metabolism Kinases ligands Lipids mammals metabolism pancreas Peptides phosphates Phosphatidylinositol Phosphates - pharmacology phosphatidylinositols phospholipid Phosphorylation protein synthesis protein translation protein-serine-threonine kinases Protein-Serine-Threonine Kinases - antagonists & inhibitors Protein-Serine-Threonine Kinases - metabolism Proteins ribosomal protein S6 Ribosomal Protein S6 - metabolism sensory kinase serine Substrate Specificity Substrates threonine yeasts
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creator	Schläfli, Philipp Tröger, Juliane Eckhardt, Katrin Borter, Emanuela Spielmann, Patrick Wenger, Roland H
description	The Per-Arnt-Sim (PAS) domain serine/threonine kinase PASKIN, or PAS kinase, links energy flux and protein synthesis in yeast, regulates glycogen synthesis and protein translation in mammals, and might be involved in insulin regulation in the pancreas. According to the current model, binding of a putative ligand to the PAS domain disinhibits the kinase domain, leading to PASKIN autophosphorylation and increased kinase activity. To date, only synthetic but no endogenous PASKIN ligands have been reported. In the present study, we identified a number of novel PASKIN kinase targets, including ribosomal protein S6. Together with our previous identification of eukaryotic elongation factor 1A1, this suggests a role for PASKIN in the regulation of mammalian protein translation. When searching for endogenous PASKIN ligands, we found that various phospholipids can bind PASKIN and stimulate its autophosphorylation. Interestingly, the strongest binding and autophosphorylation was achieved with monophosphorylated phosphatidylinositols. However, stimulated PASKIN autophosphorylation did not correlate with ribosomal protein S6 and eukaryotic elongation factor 1A1 target phosphorylation. Although autophosphorylation was enhanced by monophosphorylated phosphatidylinositols, di- and tri-phosphorylated phosphatidylinositols inhibited autophosphorylation. By contrast, target phosphorylation was always inhibited, with the highest efficiency for di- and tri-phosphorylated phosphatidylinositols. Because phosphatidylinositol monophosphates were found to interact with the kinase rather than with the PAS domain, these data suggest a multiligand regulation of PASKIN activity, including a still unknown PAS domain binding/activating ligand and kinase domain binding modulatory phosphatidylinositol phosphates.
doi_str_mv	10.1111/j.1742-4658.2011.08100.x
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According to the current model, binding of a putative ligand to the PAS domain disinhibits the kinase domain, leading to PASKIN autophosphorylation and increased kinase activity. To date, only synthetic but no endogenous PASKIN ligands have been reported. In the present study, we identified a number of novel PASKIN kinase targets, including ribosomal protein S6. Together with our previous identification of eukaryotic elongation factor 1A1, this suggests a role for PASKIN in the regulation of mammalian protein translation. When searching for endogenous PASKIN ligands, we found that various phospholipids can bind PASKIN and stimulate its autophosphorylation. Interestingly, the strongest binding and autophosphorylation was achieved with monophosphorylated phosphatidylinositols. However, stimulated PASKIN autophosphorylation did not correlate with ribosomal protein S6 and eukaryotic elongation factor 1A1 target phosphorylation. Although autophosphorylation was enhanced by monophosphorylated phosphatidylinositols, di- and tri-phosphorylated phosphatidylinositols inhibited autophosphorylation. By contrast, target phosphorylation was always inhibited, with the highest efficiency for di- and tri-phosphorylated phosphatidylinositols. Because phosphatidylinositol monophosphates were found to interact with the kinase rather than with the PAS domain, these data suggest a multiligand regulation of PASKIN activity, including a still unknown PAS domain binding/activating ligand and kinase domain binding modulatory phosphatidylinositol phosphates.</abstract><cop>Oxford, UK</cop><pub>Blackwell Publishing Ltd</pub><pmid>21418524</pmid><doi>10.1111/j.1742-4658.2011.08100.x</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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subjects	active sites Amino Acid Sequence Catalysis Catalytic Domain energy flow glycogen insulin Insulin - metabolism Kinases ligands Lipids mammals metabolism pancreas Peptides phosphates Phosphatidylinositol Phosphates - pharmacology phosphatidylinositols phospholipid Phosphorylation protein synthesis protein translation protein-serine-threonine kinases Protein-Serine-Threonine Kinases - antagonists & inhibitors Protein-Serine-Threonine Kinases - metabolism Proteins ribosomal protein S6 Ribosomal Protein S6 - metabolism sensory kinase serine Substrate Specificity Substrates threonine yeasts
title	Substrate preference and phosphatidylinositol monophosphate inhibition of the catalytic domain of the Per-Arnt-Sim domain kinase PASKIN
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