Abstract
Yeast frequenin (Frq1), a small N-myristoylated EF-hand protein, activates phosphatidylinositol 4-kinase Pik1. The NMR structure of Ca2+-bound Frq1 complexed to an N-terminal Pik1 fragment (residues 121-174) was determined. The Frq1 main chain is similar to that in free Frq1 and related proteins in the same branch of the calmodulin superfamily. The myristoyl group and first eight residues of Frq1 are solvent-exposed, and Ca2+ binds the second, third, and fourth EF-hands, which associate to create a groove with two pockets. The Pik1 peptide forms two helices (125-135 and 156-169) connected by a 20-residue loop. Side chains in the Pik1 N-terminal helix (Val-127, Ala-128, Val-131, Leu-132, and Leu-135) interact with solvent-exposed residues in the Frq1 C-terminal pocket (Leu-101, Trp-103, Val-125, Leu-138, Ile-152, and Leu-155); side chains in the Pik1 C-terminal helix (Ala-157, Ala-159, Leu-160, Val-161, Met-165, and Met-167) contact solvent-exposed residues in the Frq1 N-terminal pocket (Trp-30, Phe-34, Phe-48, Ile-51, Tyr-52, Phe-55, Phe-85, and Leu-89). This defined complex confirms that residues in Pik1 pinpointed as necessary for Frq1 binding by site-directed mutagenesis are indeed sufficient for binding. Removal of the Pik1 N-terminal region (residues 8-760) from its catalytic domain (residues 792-1066) abolishes lipid kinase activity, inconsistent with Frq1 binding simply relieving an autoinhibitory constraint. Deletion of the lipid kinase unique motif (residues 35-110) also eliminates Pik1 activity. In the complex, binding of Ca2+-bound Frq1 forces the Pik1 chain into a U-turn. Frq1 may activate Pik1 by facilitating membrane targeting via the exposed N-myristoyl group and by imposing a structural transition that promotes association of the lipid kinase unique motif with the kinase domain.
Highlights
Serve as precursors for intracellular second messengers [7,8,9]
Frq1, which is itself essential for the viability of yeast cells [20], associates with membranes in a manner that depends on both the N-myristoyl group and conformational changes induced upon Ca2ϩ binding, suggesting that Frq1, like other neuronal calcium sensor (NCS) proteins, may possess a Ca2ϩ-myristoyl switch [32]
These results indicate that the lipid kinase unique (LKU) motif and the catalytic domain are both essential for functional lipid kinase activity
Summary
Protein Preparation—To prepare recombinant Frq uniformly labeled with nitrogen-15 and/or carbon-13, Frq tagged with a. We report here the NMR-derived structure of Frq in solution bound to a fragment (residues 121–174) corresponding to the Frq1-docking site in Pik1 [21], hereafter referred to as Pik1(121–174). A total of 2300 interproton distance constraints were obtained as described [55] by analysis of 13Cedited and 15N-edited NOESY-HSQC spectra (100 ms mixing time) of 13C,15N-labeled Frq bound to unlabeled Pik1-(121– 174) and 13C,15N-labeled Pik1-(121–174) bound to unlabeled Frq. In vitro lipidkinase assays and immunoblot analysis of proteins were done essentially as described before [17]
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