-
[show abstract]
[hide abstract]
ABSTRACT: Protein kinase C (PKC) is a family of at least 10 isozymes involved in the activation of different signal transduction pathways. The exact function of these isozymes is not known at present. Isozyme-selective inhibitors would be important to explain the function of the different PKCs and are anticipated to have pharmaceutical potential. Here we report that the small organic molecule BAS 02104951 [5-(1,3-benzodioxol-5-ylmethylene)-1-(phenylmethyl)-2,4,6(1H,3H,5H)-pyrimidinetrion], a barbituric acid derivative, inhibited PKCη and PKCε in vitro (IC(50) 18 and 36 µM, respectively). BAS 02104951 also inhibited the interaction of PKCε with its adaptor protein receptor for activated C-kinase 2 (RACK2) (IC(50) 28.5 µM). BAS 02104951 also inhibited 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced Elk-1 phosphorylation in HeLa cells, translocation of PKCε and PKCη to the membrane following treatment of PC3 cells with TPA. The compound did not inhibit the proliferation of PC3 and HeLa cells. BAS 02104951 can be used as selective inhibitor of PKCε in cells not expressing PKCη and may serve as a basis for the rational development of a selective inhibitor of PKCε or PKCη, or for an inhibitor of the PKCε/RACK2 interaction.
Journal of biochemistry 03/2011; 149(3):331-6. · 1.95 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Protein kinase C (PKC) isoenzymes are expressed and activated in a cell type-specific manner, and play an essential role in tissue-specific signal transduction. The presence of butyrate at millimolar concentrations in the colon raises the question of whether it affects the expression of PKC isoenzymes in the different cell types of the colonic epithelium. We investigated the protein expression levels of PKCgamma, Thr(514)-phosphorylated PKCgamma (pPKCgamma-Thr(514)), and their subcellular distribution as affected by butyrate in a set of colon cancer cell lines. Thr(514)-phosphorylation of de novo synthesized PKCgamma is the first step in priming of the inactive PKCgamma before its release into the cytoplasm. For immunoblot analysis, we employed three antibodies, one against an unmodified sequence, mapping within 50 amino acids at its C-terminus, a second against pPKCgamma-Thr(514), and a third against pPKCgamma-pan-Thr(514). The antibody against an unmodified C-terminal peptide epitope did not recognize pPKCgamma-Thr(514), suggesting that phosphorylation at this site interferes with the binding of the antibody to the C-terminus. Marked butyrate-induced upregulation of PKCgamma occurred in HT29 cells (model for colonocyte stem cells) and HT29-derived cell lines. However, in Caco2 and IEC-18 cells (models for differentiated intestinal epithelial cells), PKCgamma was insensitive to upregulation, and present exclusively as pPKCgamma-Thr(514). Lovo and SW480 expressed higher levels of PKCgamma. In HT29 cells, butyrate-induced upregulation of the non-phosphorylated PKCgamma was observed in both the membrane and the cytosolic fraction. In Caco2 cells, the Thr(514)-phosphorylated form was present at high levels in both fractions. The presence of unphosphorylated PKCgamma in HT29 cells, and its complete absence in Caco2 cells demonstrates a cell type-dependent differential coupling of Thr(514)-phosphorylation with de novo synthesis of PKCgamma in colon cancer cells.
Chemico-biological interactions 02/2010; 185(1):25-32. · 2.46 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The protein kinase C (PKC) family is the most prominent target of tumor-promoting phorbol esters. For the PKCepsilon isozyme, different intracellular localizations and oncogenic potential in several but not all experimental systems have been reported. To obtain information about PKCepsilon-signaling, we investigated the effects of constitutively active rat PKCepsilon (PKCepsilonA/E, alanine 159 is replaced by glutamic acid) in HeLa cells in a doxycycline-inducible vector. Upon induction of PKCepsilonA/E expression by doxycycline, the major part of PKCepsilonA/E was localized to the Golgi. This led (i) to phosphorylations of PKCepsilon(S729), Elk-1(S383), PDK1(S241) and Rb(S807/S811), (ii) to elevated expression of receptor of activated C kinase 2 (RACK2) after 12 h, and (iii) increased colony formation in soft agar, increased cell migration and invasion, but not to decreased doubling time. Following induction of PKCepsilonA/E-expression by doxycycline for 24 h and additional short-term treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA), PKCepsilonA/E translocated to the plasma membrane and increased phosphorylation of MARCKS(S152/156). Treatment with doxycycline/TPA or TPA alone increased phosphorylations of Elk-1(S383), PDK1(S241), Rb(S807/S811), PKCdelta(T505), p38MAPK(T180/Y182), MEK1/2(S217/S221) and ERK2(T185/T187). MARCKS was not phosphorylated after treatment with TPA alone, demonstrating that in this system it is phosphorylated only by PKCepsilon localized to the plasma membrane but not by PKCalpha or delta, the other TPA-responsive PKC isozymes in HeLa cells. These results demonstrate that PKCepsilon can induce distinctly different signaling from the Golgi and from the plasma membrane.
Cellular signalling 02/2009; 21(5):745-52. · 4.09 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The aims of the study were to meet the demand of new tubulin antagonists with fewer side effects by characterizing the antiangiogenic properties of the experimental compound spongistatin 1, and to elucidate nonmitotic mechanisms by which tubulin antagonists inhibit angiogenesis. Although tubulin-inhibiting drugs and their antiangiogenic properties have been investigated for a long time, surprisingly little is known about their underlying mechanisms of action. Antiangiogenic effects of spongistatin 1 were investigated in endothelial cells in vitro, including functional cell-based assays, live-cell imaging, and a kinome array, and in the mouse cornea pocket assay in vivo. Spongistatin 1 inhibited angiogenesis at nanomolar concentrations (IC(50): cytotoxicity>50 nM, proliferation 100 pM, migration 1.0 nM, tube formation 1.0 nM, chemotaxis 1.0 nM, aortic ring sprouting 500 pM, neovascularization in vivo 10 microg/kg). Further, a kinome array and validating data showed that spongistatin 1 inhibits the phosphorylation activity of protein kinase Calpha (PKCalpha), an essential kinase in angiogenesis, and its translocation to the membrane. Thus, we conclude that PKCalpha might be an important target for the antiangiogenic effects of tubulin antagonism. In addition, the data from the kinase array suggest that different tubulin antagonists might have individual intracellular actions.
The FASEB Journal 01/2009; 23(4):1127-37. · 5.71 Impact Factor
