Roles of protein kinase C isotypes during seawater‐versus cAMP‐induced oocyte maturation in a marine worm

Based on immunoblotting analyses using phospho‐specific antibodies, follicle‐free oocytes of the marine nemertean worm Cerebratulus sp. activate protein kinase C (PKC) when induced to mature by either seawater (SW) or cAMP‐elevating drugs. In SW‐stimulated oocytes, the onset of maturation (=germinal vesicle breakdown, “GVBD”) can be inhibited by broadly acting PKC antagonists such as bisindoylmaleimide (BIM)‐I or BIM‐IX. Conversely, co‐treatment with SW solutions of BIM‐I or BIM‐IX plus a cAMP elevator (forskolin, serotonin, or a phosphodiesterase inhibitor) restores GVBD, indicating that the blockage of SW‐induced GVBD by PKC antagonists is not simply due to oocyte morbidity and that such inhibition is somehow reversible by cAMP signaling. In tests to determine which specific PKC may be involved in regulating GVBD, immunoblots fail to provide strong evidence for the presence of conventional or novel PKCs, which are characteristically activated by 12‐O‐tetradecanoylphorbol‐13‐acetate (TPA). Moreover, inhibitors of TPA‐sensitive PKCs do not prevent SW‐induced GVBD, and TPA itself serves to downregulate, rather than stimulate, GVBD. Alternatively, maturing oocytes apparently possess phosphorylated forms of TPA‐insensitive isotypes, including an ∼67‐kDa atypical PKC and an ∼130‐kDa PKC‐related kinase (PRK). Accordingly, inhibitors of atypical PKC signaling block SW‐but not cAMP‐induced GVBD, collectively suggesting that instead of depending on a conventional or novel isotype, SW‐induced GVBD may require atypical PKC and/or PRK. In addition, such findings provide further support for the view that GVBD in nemertean oocytes can be achieved via multiple mechanisms, with SW triggering different signaling pathways than are stimulated in the presence of cAMP‐elevating drugs. Mol. Reprod. Dev. 76: 693–707, 2009. © 2008 Wiley‐Liss, Inc.

[1]  J. Chen,et al.  EGF‐like peptides mediate FSH‐induced maturation of cumulus cell‐enclosed mouse oocytes , 2008, Molecular reproduction and development.

[2]  A. Denys,et al.  The PKC pathway and in particular its β1 isoform is clearly involved in meiotic arrest maintenance but poorly in FSH‐induced meiosis resumption of the mouse cumulus cell enclosed oocyte , 2007, Molecular reproduction and development.

[3]  A. Toker Inhibiting the uninhibited: on the specificity of protein kinase inhibitors , 2007 .

[4]  S. Chun,et al.  Activation of protein kinase Cζ mediates luteinizing hormone- or forskolin-induced NGFI-B expression in preovulatory granulosa cells of rat ovary , 2007, Molecular and Cellular Endocrinology.

[5]  S. A. Stricker,et al.  Differing mechanisms of cAMP‐ versus seawater‐induced oocyte maturation in marine nemertean worms I. The roles of serine/threonine kinases and phosphatases , 2006, Molecular reproduction and development.

[6]  S. A. Stricker,et al.  Differing mechanisms of cAMP‐ versus seawater‐induced oocyte maturation in marine nemertean worms II. The roles of tyrosine kinases and phosphatases , 2006, Molecular reproduction and development.

[7]  A. Dorner,et al.  Protein Kinase Cζ Is Up-regulated in Osteoarthritic Cartilage and Is Required for Activation of NF-κB by Tumor Necrosis Factor and Interleukin-1 in Articular Chondrocytes* , 2006, Journal of Biological Chemistry.

[8]  A. Nagler,et al.  cAMP-induced PKC activation increases functional CXCR4 expression on human CD34 hematopoietic progenitors , 2005 .

[9]  A. Fields,et al.  A novel small-molecule inhibitor of protein kinase Ciota blocks transformed growth of non-small-cell lung cancer cells. , 2006, Cancer research.

[10]  Qing-zhang Li,et al.  Translocation of phospho-protein kinase Cs implies their roles in meiotic-spindle organization, polar-body emission and nuclear activity in mouse eggs. , 2005, Reproduction.

[11]  S. A. Stricker,et al.  Germinal vesicle breakdown is not fully dependent on MAPK activation in maturing oocytes of marine nemertean worms , 2005, Molecular reproduction and development.

[12]  Kenneth M. Halanych,et al.  The New View of Animal Phylogeny , 2004 .

[13]  J. Eppig,et al.  Protein Kinase C Activity Regulates the Onset of Anaphase I in Mouse Oocytes1 , 2004, Biology of reproduction.

[14]  Dazhi Yang,et al.  Regulation of cleavage by protein kinase C in Chaetopterus , 2004, Molecular reproduction and development.

[15]  B. Lefèvre,et al.  Regulation of spontaneous meiosis resumption in mouse oocytes by various conventional PKC isozymes depends on cellular compartmentalization , 2004, Journal of Cell Science.

[16]  Brian A. Koeneman,et al.  PKC isotypes in post-activated and fertilized mouse eggs: association with the meiotic spindle. , 2004, Developmental biology.

[17]  Y. Liu,et al.  Effects of protein kinase C on M‐phase promoting factor in early development of fertilized mouse eggs , 2004, Cell biochemistry and function.

[18]  J. Feramisco,et al.  Targeted Deletion of Protein Kinase C λ Reveals a Distribution of Functions between the Two Atypical Protein Kinase C Isoforms1 , 2004, The Journal of Immunology.

[19]  L. Costa,et al.  Role of phospholipase D signaling in ethanol‐induced inhibition of carbachol‐stimulated DNA synthesis of 1321N1 astrocytoma cells , 2004, Journal of neurochemistry.

[20]  C. Webster,et al.  Cross-talk between Protein Kinases Cζ and B in Cyclic AMP-mediated Sodium Taurocholate Co-transporting Polypeptide Translocation in Hepatocytes* , 2004, Journal of Biological Chemistry.

[21]  F. Brennan,et al.  Conventional protein kinase C and atypical protein kinase Cζ differentially regulate macrophage production of tumour necrosis factor‐α and interleukin‐10 , 2004 .

[22]  H. Schatten,et al.  Protein Kinase C and Mitogen-Activated Protein Kinase Cascade in Mouse Cumulus Cells: Cross Talk and Effect on Meiotic Resumption of Oocyte1 , 2004, Biology of reproduction.

[23]  Peter J Parker,et al.  PKC at a glance , 2004, Journal of Cell Science.

[24]  T. Kishimoto Cell-cycle control during meiotic maturation. , 2003, Current opinion in cell biology.

[25]  H. Schatten,et al.  Effects of PKC activation on the meiotic maturation, fertilization and early embryonic development of mouse oocytes , 2003, Zygote.

[26]  K. Wigglesworth,et al.  Characterization of Protein Kinase C-δ in Mouse Oocytes Throughout Meiotic Maturation and Following Egg Activation1 , 2003, Biology of reproduction.

[27]  S. A. Stricker,et al.  Endoplasmic reticulum reorganizations and Ca2+ signaling in maturing and fertilized oocytes of marine protostome worms: the roles of MAPKs and MPF , 2003, Development.

[28]  P. Cohen,et al.  The specificities of protein kinase inhibitors: an update. , 2003, The Biochemical journal.

[29]  A. Newton,et al.  Regulation of the ABC kinases by phosphorylation: protein kinase C as a paradigm. , 2003, The Biochemical journal.

[30]  G. Laurent,et al.  Protein kinase Czeta mediated Raf-1/extracellular-regulated kinase activation by daunorubicin. , 2003, Blood.

[31]  Y. Shirai,et al.  Activation mechanisms of protein kinase C: maturation, catalytic activation, and targeting. , 2002, Journal of biochemistry.

[32]  P. Parker,et al.  AGC protein kinase phosphorylation and protein kinase C. , 2001, Biochemical Society transactions.

[33]  A. Newton,et al.  Protein kinase C: structural and spatial regulation by phosphorylation, cofactors, and macromolecular interactions. , 2001, Chemical reviews.

[34]  H. Schatten,et al.  Phosphorylation of Mitogen-Activated Protein Kinase Is Regulated by Protein Kinase C, Cyclic 3′,5′-Adenosine Monophosphate, and Protein Phosphatase Modulators During Meiosis Resumption in Rat Oocytes1 , 2001, Biology of reproduction.

[35]  S. A. Stricker,et al.  5-HT causes an increase in cAMP that stimulates, rather than inhibits, oocyte maturation in marine nemertean worms. , 2001, Development.

[36]  M. Hunzicker-Dunn,et al.  Protein kinase C and meiotic regulation in isolated mouse oocytes , 2001, Molecular reproduction and development.

[37]  S. A. Stricker,et al.  Comparative biology of oogenesis in nemertean worms , 2000 .

[38]  M. Diaz-Meco,et al.  The atypical protein kinase Cs , 2000, EMBO reports.

[39]  B. Webb,et al.  Protein kinase C isoenzymes: a review of their structure, regulation and role in regulating airways smooth muscle tone and mitogenesis , 2000, British journal of pharmacology.

[40]  T. Pawson,et al.  A mammalian PAR-3–PAR-6 complex implicated in Cdc42/Rac1 and aPKC signalling and cell polarity , 2000, Nature Cell Biology.

[41]  S. A. Stricker,et al.  Multiple triggers of oocyte maturation in nemertean worms: the roles of calcium and serotonin. , 2000, The Journal of experimental zoology.

[42]  D. Capco,et al.  The expression and stage-specific localization of protein kinase C isotypes during mouse preimplantation development. , 2000, Developmental biology.

[43]  S. Rubinstein,et al.  Differential Localization of Conventional Protein Kinase C Isoforms During Mouse Oocyte Development1 , 2000, Biology of reproduction.

[44]  Wolfgang Ziegler,et al.  Multiple pathways control protein kinase C phosphorylation , 2000, The EMBO journal.

[45]  Huili Chen,et al.  Effects of phosphatidylinositol 4,5-bisphosphate and neomycin on phospholipase D: Kinetic studies , 1999, Molecular and Cellular Biochemistry.

[46]  T. Saito,et al.  PKCnu, a new member of the protein kinase C family, composes a fourth subfamily with PKCmu. , 1999, Biochimica et biophysica acta.

[47]  Philip R. Cohen,et al.  Protein kinase C isotypes controlled by phosphoinositide 3-kinase through the protein kinase PDK1. , 1998, Science.

[48]  P. Parker,et al.  The extended protein kinase C superfamily. , 1998, The Biochemical journal.

[49]  R. Farese,et al.  Comparative Effects of GTPγS and Insulin on the Activation of Rho, Phosphatidylinositol 3-Kinase, and Protein Kinase N in Rat Adipocytes , 1998, The Journal of Biological Chemistry.

[50]  W. Eckberg MAP and cdc2 kinase activities at germinal vesicle breakdown in Chaetopterus. , 1997, Developmental biology.

[51]  Keith Jones,et al.  Unique protein kinase C profile in mouse oocytes: lack of calcium‐dependent conventional isoforms suggested by rtPCR and Western blotting , 1997, FEBS letters.

[52]  W. V. van Blitterswijk,et al.  Platelet-derived growth factor activation of mitogen-activated protein kinase depends on the sequential activation of phosphatidylcholine-specific phospholipase C, protein kinase C-zeta and Raf-1. , 1997, The Biochemical journal.

[53]  W. V. van Blitterswijk,et al.  Involvement of Phosphatidylcholine-specific Phospholipase C in Platelet-derived Growth Factor-induced Activation of the Mitogen-activated Protein Kinase Pathway in Rat-1 Fibroblasts* , 1997, The Journal of Biological Chemistry.

[54]  G. Morrill,et al.  Progesterone triggers the rapid activation of phospholipase D in the amphibian oocyte plasma membrane when initiating the G2/M transition. , 1996, Biochimica et biophysica acta.

[55]  R. Palazzo,et al.  Regulation of maturation-promoting factor by protein kinase C in Chaetopterus oocytes , 1996 .

[56]  J. N. Dholakia,et al.  The signal cascade for the activation of protein synthesis during the maturation of starfish oocytes: a role for protein kinase C and homologies with maturation in Xenopus and mammatian oocytes , 1996 .

[57]  M. Diaz-Meco,et al.  Lambda-interacting protein, a novel protein that specifically interacts with the zinc finger domain of the atypical protein kinase C isotype lambda/iota and stimulates its kinase activity in vitro and in vivo , 1996, Molecular and cellular biology.

[58]  A. Newton,et al.  Protein kinase C is regulated in vivo by three functionally distinct phosphorylations , 1995, Current Biology.

[59]  Z. Kiss,et al.  Compound D609 inhibits phorbol ester-stimulated phospholipase D activity and phospholipase C-mediated phosphatidylethanolamine hydrolysis. , 1995, Biochimica et biophysica acta.

[60]  A. Carnero,et al.  Evidence for different signalling pathways of PKC zeta and ras-p21 in Xenopus oocytes. , 1995, Oncogene.

[61]  M. Diaz-Meco,et al.  Evidence for a Bifurcation of the Mitogenic Signaling Pathway Activated by Ras and Phosphatidylcholine-hydrolyzing Phospholipase C (*) , 1995, The Journal of Biological Chemistry.

[62]  C. Limatola,et al.  Phosphatidic acid activation of protein kinase C-zeta overexpressed in COS cells: comparison with other protein kinase C isotypes and other acidic lipids. , 1994, The Biochemical journal.

[63]  J. Prestle,et al.  PKCu is a novel, atypical member of the protein kinase C family. , 1994, The Journal of biological chemistry.

[64]  C. Schmitz‐Peiffer,et al.  Molecular cloning and characterization of PKC iota, an atypical isoform of protein kinase C derived from insulin-secreting cells. , 1993, The Journal of biological chemistry.

[65]  E. Hui,et al.  Differential regulation of protein kinase C isoenzymes during sphinganine potentiation of retinoic acid-induced granulocytic differentiation in human leukemia HL-60 cells. , 1993, Biochemical and biophysical research communications.

[66]  G. Martiny-Baron,et al.  Selective inhibition of protein kinase C isozymes by the indolocarbazole Gö 6976. , 1993, The Journal of biological chemistry.

[67]  P. Blackshear The MARCKS family of cellular protein kinase C substrates. , 1993, The Journal of biological chemistry.

[68]  M. Krönke,et al.  TNF activates NF-κB by phosphatidylcholine-specific phospholipase C-induced “Acidic” sphingomyelin breakdown , 1992, Cell.

[69]  J. Testart,et al.  Protein kinase C modulators influence meiosis kinetics but not fertilizability of mouse oocytes. , 1992, The Journal of experimental zoology.

[70]  M. Diaz-Meco,et al.  Evidence for a role of protein kinase C zeta subspecies in maturation of Xenopus laevis oocytes , 1992, Molecular and cellular biology.

[71]  M. Pincus,et al.  Evidence that the ras oncogene-encoded p21 protein induces oocyte maturation via activation of protein kinase C. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[72]  H. Coste,et al.  The bisindolylmaleimide GF 109203X is a potent and selective inhibitor of protein kinase C. , 1991, The Journal of biological chemistry.

[73]  L. D. Smith,et al.  Protein kinase C and progesterone-induced maturation in Xenopus oocytes. , 1990, Development.

[74]  R. Smith,et al.  Receptor-coupled signal transduction in human polymorphonuclear neutrophils: effects of a novel inhibitor of phospholipase C-dependent processes on cell responsiveness. , 1990, The Journal of pharmacology and experimental therapeutics.

[75]  G. Cooper,et al.  Role of phosphatidylinositide metabolism in ras-induced Xenopus oocyte maturation , 1990, Molecular and cellular biology.

[76]  S. A. Stricker,et al.  Nuclear envelope disassembly and nuclear lamina depolymerization during germinal vesicle breakdown in starfish. , 1989, Developmental biology.

[77]  L. Meijer,et al.  Starfish oocyte maturation: evidence for a cyclic AMP-dependent inhibitory pathway. , 1989, Developmental biology.

[78]  Y. Hannun,et al.  Structural requirements for long-chain (sphingoid) base inhibition of protein kinase C in vitro and for the cellular effects of these compounds. , 1989, Biochemistry.

[79]  D. Capco,et al.  Activators of protein kinase C trigger cortical granule exocytosis, cortical contraction, and cleavage furrow formation in Xenopus laevis oocytes and eggs , 1989, The Journal of cell biology.

[80]  H. Alexandre,et al.  Time-lapse cinematography study of the germinal vesicle behaviour in mouse primary oocytes treated with activators of protein kinases A and C. , 1988, Gamete research.

[81]  C. Piantadosi,et al.  Alkyl-linked diglycerides inhibit protein kinase C activation by diacylglycerols. , 1988, Biochemical and biophysical research communications.

[82]  E. Z. Szuts,et al.  Protein kinase C activity, protein phosphorylation and germinal vesicle breakdown in Spisula oocytes. , 1987, Developmental biology.

[83]  W. Eckberg,et al.  Evidence for Involvement of Protein Kinase C in Germinal Vesicle Breakdown in Chaetopterus , 1987, Development, growth & differentiation.

[84]  J. Maller,et al.  Induction of meiotic maturation in Xenopus oocytes by 12-O-tetradecanoylphorbol 13-acetate. , 1987, Experimental cell research.

[85]  R. Schultz,et al.  Effects of protein kinase C activators on germinal vesicle breakdown and polar body emission of mouse oocytes. , 1986, Experimental cell research.

[86]  T. Tanaka,et al.  N-(6-phenylhexyl)-5-chloro-1-naphthalenesulfonamide, a novel activator of protein kinase C. , 1986, Biochemistry.

[87]  S. A. Stricker,et al.  Morphological changes during maturation of starfish oocytes: surface ultrastructure and cortical actin. , 1983, Developmental biology.

[88]  C. Poirot,et al.  The phosphoinositide-phospholipase C (PI-PLC) pathway in the mouse oocyte. , 2007, Critical reviews in eukaryotic gene expression.

[89]  M. Leitges,et al.  Expression of the atypical protein kinase C (aPKC) isoforms iota/lambda and zeta during mouse embryogenesis. , 2007, Gene expression patterns : GEP.

[90]  M. Diaz-Meco,et al.  PKCzeta at the crossroad of NF-kappaB and Jak1/Stat6 signaling pathways. , 2006, Cell death and differentiation.

[91]  Y. Ono,et al.  Purification and kinase assay of PKN. , 2006, Methods in enzymology.

[92]  A. Fields,et al.  A novel small-molecule inhibitor of protein kinase Ciota blocks transformed growth of non-small-cell lung cancer cells. , 2006, Cancer research.

[93]  G. Gilbert,et al.  THE NEW VIEW OF ANIMAL PHYLOGENY , 2005 .

[94]  K. Akimoto,et al.  Protein kinase C lambda/iota (PKClambda/iota): a PKC isotype essential for the development of multicellular organisms. , 2003, Journal of biochemistry.

[95]  H. Mukai The structure and function of PKN, a protein kinase having a catalytic domain homologous to that of PKC. , 2003, Journal of biochemistry.

[96]  K. Okumura,et al.  Changes in distinct species of 1,2-diacylglycerol in cardiac hypertrophy due to energy metabolic disorder. , 2003, Cardiovascular research.

[97]  K. Akimoto,et al.  Protein Kinase C λ/ι (PKCλ/ι): A PKC Isotype Essential for the Development of Multicellular Organisms , 2003 .

[98]  P. Cohen,et al.  Specificity and mechanism of action of some commonly used protein kinase inhibitors. , 2000, The Biochemical journal.

[99]  K. Lease,et al.  Phosphorylation of protein kinase C-related kinase PRK2 during meiotic maturation of starfish oocytes. , 1998, Developmental biology.

[100]  Hueng-Sik Choi,et al.  Requirement of Protein Kinase C Pathway during progesterone-induced Oocyte Maturation in Amphibian, Rana dybowskii , 1998 .

[101]  M. Diaz-Meco,et al.  Protein kinase C zeta isoform is critical for mitogenic signal transduction. , 1993, Cell.

[102]  T. Kishimoto,et al.  Inhibition of Starfish Oocyte Maturation by Tumor‐Promoting Phorbol Esters * , 1985 .

[103]  Gail M. Cavanaugh Formulae and methods IV [i.e., 4th ed.] of the Marine Biological Laboratory Chemical Room. Gail M. Cavanaugh, editor. , 1956 .