Characterization of protein kinase C beta I in embryonic stem cell nucleus

The Protein kinase C (PKC) family of serine/treonine kinases, are being described as important enzymes for proliferation and diferentiation of embryonic stem cells (ESC), however, the exact function of the different isoenzymes of this family still is unclear. Previous data from our laboratory indicates that amongst the PKCs expressed in ESC, catalytically active forms of PKCβI are highly expressed in nucleus of murine ESC. When these cells differentiate this kinase can be found in the cytoplasm or not expressed at all, and that the majority of PKCβI targets in undifferentiated ESC are involved in the regulation of proteins involved in transcription of proteins involved in proliferation/ diferentiation. Continuing our previous work herewith using proteomics and phosphoproteomics techniques we identified other nuclear PKCβI targets in undifferentiated ESC. We indeed saw that inhibiting PKCβI decreased the phosphorylation of factors involved with maintainance of the undifferentiated state of ESC. Amongst the targets of PKCβI we found the adaptor protein, TIF1βI, that recruits cromatin remodeling proteins. This protein is essential for the maintenance of the undifferentiated state of ESC. In vitro PKCβI phosphorylated TIF1β and inhibiting PKCβI with RNAi decreased the expression of TIF1β and of the undifferentiation factor Nanog whose expression has been shown to be regulated by TIF1β. We also saw that inhibiting PKCβI with a peptide inhibitor increased the expression of proteins regulated by c-Myc, and that RNAi for PKCβI increased the expression of proteins that regulate the expression of c-Myc. We did not see any effect on the phosphorylation or expression of c-Myc after inhibition of PKCβI suggesting that PKCβI activates c-Myc repressor proteins. Our studies sugest that PKCβI regulates the maintenance of the undiferentiated state of ESC regulating the expression and activity of Tif1β a possibly a direct target of PKCβI, leading to chromatin modifications and regulation of genes that maintain ESC undiferentiated. Another form of regulation of PKCβI seems to be by inhibiting the activity of c-Myc which is importante to maintain ESC undifferentiated since c-Myc is na an amplifyer of signaling patheways that maintain ESC proliferating. Together PKCβI has a central role in the regulation of the gene expression of ESC at the level of epigenetic modifications and transcriptional regulation (AU)