Abstract
Phosphatidylinositol 4-kinases (PI4K) catalyze the first step in the synthesis of phosphatidylinositol 4,5-bisphosphate, an important lipid regulator of several cellular functions. Here we show that the Ca(2+)-binding protein, neuronal calcium sensor-1 (NCS-1), can physically associate with the type III PI4Kbeta with functional consequences affecting the kinase. Recombinant PI4Kbeta, but not its glutathione S-transferase-fused form, showed enhanced PI kinase activity when incubated with recombinant NCS-1, but only if the latter was myristoylated. Similarly, in vitro translated NCS-1, but not its myristoylation-defective mutant, was found associated with recombinant- or in vitro translated PI4Kbeta in PI4Kbeta-immunoprecipitates. When expressed in COS-7 cells, PI4Kbeta and NCS-1 formed a complex that could be immunoprecipitated with antibodies against either proteins, and PI 4-kinase activity was present in anti-NCS-1 immunoprecipitates. Expressed NCS-1-YFP showed co-localization with endogenous PI4Kbeta primarily in the Golgi, but it was also present in the walls of numerous large perinuclear vesicles. Co-expression of a catalytically inactive PI4Kbeta inhibited the development of this vesicular phenotype. Transfection of PI4Kbeta and NCS-1 had no effect on basal PIP synthesis in permeabilized COS-7 cells, but it increased the wortmannin-sensitive [(32)P]phosphate incorporation into phosphatidylinositol 4-phosphate during Ca(2+)-induced phospholipase C activation. These results together indicate that NCS-1 is able to interact with PI4Kbeta also in mammalian cells and may play a role in the regulation of this enzyme in specific cellular compartments affecting vesicular trafficking.
Highlights
Inositol lipid kinases are increasingly recognized as regulators of membrane remodeling events whether in Golgi-related transport, endocytosis, or exocytosis [1]
Stimulation of Recombinant PI4K Lipid Kinase Activity by Recombinant NCS-1—We have previously shown that bacterially expressed bovine PI4K is functional with properties that are indistinguishable from those of the purified bovine enzyme
To investigate whether NCS-1 is able to alter the activity of PI4K, we used the recombinant protein either in its GSTfused or native form after cleavage of the glutathione S-transferase (GST) moiety
Summary
Vol 276, No 43, Issue of October 26, pp. 40183–40189, 2001 Printed in U.S.A. Interaction of Neuronal Calcium Sensor-1 (NCS-1) with Phosphatidylinositol 4-Kinase  Stimulates Lipid Kinase Activity and Affects Membrane Trafficking in COS-7 Cells*. Transfection of PI4K and NCS-1 had no effect on basal PIP synthesis in permeabilized COS-7 cells, but it increased the wortmannin-sensitive [32P]phosphate incorporation into phosphatidylinositol 4-phosphate during Ca2؉-induced phospholipase C activation These results together indicate that NCS-1 is able to interact with PI4K in mammalian cells and may play a role in the regulation of this enzyme in specific cellular compartments affecting vesicular trafficking. Analysis of the synthesis of endogenous PI[4]P in permeabilized COS-7 cells indicate that overexpression of PI4K and NCS-1 has detectable effects on PI[4]P synthesis during Ca2ϩ-activated PI[4,5]P2 hydrolysis, these effects are relatively minor compared with the amounts of the expressed proteins These data suggest that PI4K interacts with NCS-1, but this complex probably requires additional factor(s) to access the endogenous substrate PI and, regulate PI[4]P synthesis in a specific cellular compartment
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