Dual kinase-mediated regulation of PITK by CaMKII and GSK3.

Phosphatase Interactor Targeting K protein (PITK) was previously identified as a novel PP1 targeting subunit implicated in modulating the phosphorylation of the transcriptional regulator heterogeneous nuclear ribonucleoprotein K (hnRNP K) [Kwiek NC, Thacker DF, Datto MB, Megosh HB, Haystead TA. Cell Signal 18 (10) (2006) 1769.]. Through the phosphorylation of PITK at S1013 and S1017 (residues that flank or reside within a PP1C-binding motif), the binding of the PP1 catalytic subunit to PITK, and subsequently the activity of the holoenzyme, are discretely controlled. Herein, we demonstrate that PITK phosphorylation at S1013 and S1017 also dictates the subcellular localization of the holoenzyme. Whereas both wildtype-and an S1013,1017D-PITK mutant displayed a speckled nuclear localization, a constitutively dephosphorylated form of PITK (S1013,1017A-PITK) resulted in a diffuse localization throughout the cell including the cytoplasm. Additionally, through the use of unbiased proteomics techniques, we provide evidence for a dual kinase-mediated regulation of the PITK holoenzyme whereby PITK phosphorylation at S1017 is catalyzed by calcium/calmodulin-dependent kinase II-delta (CaMKIIdelta), promoting the subsequent phosphorylation of S1013 by glycogen synthase kinase-3 (GSK3) in vitro. Taken together, our findings provide further insight into the regulation of PITK, PP1, and hnRNP K by reversible phosphorylation.

PITK, a PP1 targeting subunit that modulates the phosphorylation of the transcriptional regulator hnRNP K.

Protein phosphatase-1 (PP1), through interactions with substrate targeting subunits, plays critical roles in the regulation of numerous cellular processes. Herein, we describe a newly identified regulatory subunit (PITK; Phosphatase Interactor Targeting K protein) that specifically targets the catalytic subunit of PP1 to nuclear foci to selectively bind and dephosphorylate the transcriptional regulator heterogeneous nuclear ribonucleoprotein K (hnRNP K) at a regulatory S284 site. Additionally, PITK is phosphorylated in vivo at S1013 and S1017, residues that flank or reside within the PP1C-binding motif, and this phosphorylation negatively regulates the binding of the phosphatase to PITK. A mutant variant, S1013,1017A-PITK, when expressed in intact cells, exhibited an increase in native PP1 binding and elicited a more profound dephosphorylation of hnRNPK at S284. A global analysis of transcription by Affymetrix microarray revealed that the expression of PITK resulted in the altered expression of 47 genes, including a marked induction of MEK5 (>14-fold, p<0.007). Additionally, the effects of PITK and S1013,1017A-PITK on transcription could be modulated by the co-expression of hnRNP K. Taken together, our findings provide a putative mechanism by which transcriptional activity of hnRNP K can be discretely controlled through the regulation of PP1 activity.