Abstract
Abstract The protein kinase D (PKD) family of kinases belongs to the CAMK group and consists of three highly homologous enzymes. They play a versatile role in cancer cell signaling, primarily downstream of PKC isoforms. Classically PKDs are activated upon co-localization with PKC at DAG containing membranes, where PKC phosphorylates the PKD activation loop, generating active PKD. Besides this, PKDs are also activated in oxidative stress conditions, where PKD1 protects against cellular damage via signaling to NF-kB. While the three isoforms are highly homologous, they are not redundant in their biological function and oncogenic potential. A picture has emerged which associates PKD1 expression and activity with decreased migration and inhibition of epithelial mesenchymal transition (EMT). PKD2 and PKD3 on the other hand are upregulated in various cancers, and show oncogenic potential e.g. via enhanced ECM breakdown and potentiation of angiogenesis. While non-redundant biological roles continue to surface, the biochemical mechanisms behind these discrepant functions remain mostly elusive. Here, we identify an isoform specific regulation of PKD2 in oxidative stress conditions via the phosphorylation of a key Tyrosine residue in the substrate binding loop of the activation segment which is highly conserved in most Ser/Thr kinases. Phosphorylation of this residue selectively occurs in PKD2 (and not in PKD1). While wild-type PKD1 signals to NF-kB in oxidative stress, we could show that wild-type PKD2 signaling to NF-kB is impeded in these conditions. Substitution of the activation segment Tyr-717 in PKD2 with a non-phosphorylatable Phe restores signaling to NF-kB, indicating that Tyr-717 phosphorylation is a key determinant for the signaling outcome of PKDs in oxidative stress. Note: This abstract was not presented at the conference. Citation Format: Mathias Cobbaut, Rita Derua, Etienne Waelkens, Peter Störz, Veerle Janssens, Johan Van Lint. Differential regulation of Protein Kinase D isoforms in oxidative stress conditions via tyrosine phosphorylation in the activation segment [abstract]. In: Proceedings of the AACR International Conference: New Frontiers in Cancer Research; 2017 Jan 18-22; Cape Town, South Africa. Philadelphia (PA): AACR; Cancer Res 2017;77(22 Suppl):Abstract nr B08.
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