Harry LeVine scite author profile

The aim of this study was to test the possible modification of beta-adrenergic receptor kinase (beta ARK) activity by second messengers and/or their downstream components. Using human mononuclear leukocytes (MNL), we found that calcium ionophores could elevate beta ARK activity by about 80% in a protein kinase C (PKC)-dependent manner. This was confirmed by the ability of the PKC activator phorbol 12-myristate 13-acetate (PMA) to produce a similar effect, suggesting a PKC-dependent modulation of beta ARK activity. In vitro experiments with purified proteins showed that PKC could directly phosphorylate beta ARK1 with an apparent Km for beta ARK1 of 6 nM. The ability of beta ARK1 to phosphorylate rhodopsin was 61% greater when it was phosphorylated by PKC. The level of phosphorylation of beta ARK1 immunoprecipitated from MNL and Sf9 cells overexpressing this kinase was enhanced by about 2-3-fold after PMA treatment. Functional significance of PKC-dependent increase in beta ARK activity ws demonstrated by beta-adrenergic receptor (beta AR) homologous desensitization experiments in MNL. beta AR desensitization, as induced by exposure to 10 microM isoproterenol (5 min at 37 degrees C), was increased from 42 +/- 10% in control to 68 +/- 8% in PMA-pretreated MNL. beta ARK inhibitor heparin (160 micrograms/ml) prevented the augmenting effect of PMA on beta AR desensitization. These results show that beta ARK activity can be increased through phosphorylation by PKC, thus indicating that beta ARK can be preconditioned to modulate the subsequent cellular responsiveness to receptor activation, providing the cell with a mechanism by which specific homologous desensitization can be regulated heterologously.

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A model for intracellular translocation of protein kinase C involving synergism between Ca2+ and phorbol esters

Wolf

LeVine

May

et al. 1985

Nature

444

126

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The activation of protein kinase C by diacylglycerol and by tumour promoters has implicated this enzyme in transmembrane signalling and in the regulation of the cell cycle. In vitro studies revealed that catalytic activity requires the presence of calcium and phospholipids with a preference for phosphatidylserine. Diacylglycerol and tumour promoters such as phorbol esters bind to the enzyme, leading to its activation while sharply increasing its affinity for Ca2+ and phospholipid. Addition of diacylglycerol analogues or phorbol esters to intact cells results in the phosphorylation of specific polypeptides. Several cellular processes, including hormone and neurotransmitter release and receptor down-regulation, are modulated by the activation of protein kinase C, while phorbol ester-induced stimulation of the enzyme in whole cells has been associated with its translocation from the cytoplasm to the plasma membrane. Moreover, the use of Ca2+ ionophores has revealed an apparent synergism between Ca2+ mobilization and protein kinase C activation. This synergism has recently also been found to apply to receptor down-regulation (ref. 23 and accompanying paper). Here we describe a reconstitution system in which intracellular translocation of protein kinase C and the synergism between Ca2+ and enzyme activators can be studied. The results suggest a rationale for concomitant Ca2+ mobilization and diacylglycerol formation in response to some hormones, neurotransmitters and growth factors.

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Protein kinase C phosphorylates topoisomerase II: topoisomerase activation and its possible role in phorbol ester-induced differentiation of HL-60 cells.

Sahyoun¹,

Wolf²,

Besterman³

et al. 1986

Proc. Natl. Acad. Sci. U.S.A.

197

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DNA topoisomerase II from Drosophila was phosphorylated effectively by protein kinase C. With a Km of about 100 nM, the reaction was rapid, occurring at 40C as well as at 30'C and requiring as little as 0.6 ng of the protein kinase per 170 ng of topoisomerase. About 0.85 mol of phosphate could be incorporated per mol of topoisomerase II, with phosphoserine as the only phospho amino acid produced. The reaction was dependent on Ca2+ and phosphatidylserine and was stimulated by phorbol esters. Calmodulin-dependent protein kinase I, but not cyclic AMP-dependent protein kinase, was also able to phosphorylate the topoisomerase. Phosphorylation of topoisomerase U by protein kinase C resulted in appreciable activation of the topoisomerase, suggesting that it may represent a possible target for the regulation of nuclear events by protein kinase C. This possibility is supported by the finding that the phorbol ester-induced differentiation of HL-60 cells was blocked by the topoisomerase II inhibitors novobiocin and 4'-(9-acridinylamino)methanesulfon-m-anisidide(m-AMSA), but not by the inactive analog o-AMSA.Phorbol esters influence cellular functions at various levels (1, 2), presumably by activating protein kinase C (3, 4). Some cellular effects can be detected rapidly after the addition of phorbol esters. These effects include the regulation of ionic transport, release of bioactive substances, and receptor down-regulation (1,2,5). Other effects of phorbol esters target the genome, resulting in the regulation of DNA replication or in the modulation of gene expression. Examples of genes that appear to be induced by phorbol esters include ornithine decarboxylase in epidermal cells (6,7), interleukin 2 and IL-2 receptor in mouse T cells and Tlymphoma cells (8-10), c-fos in U937 monocytes and in HL-60 cells (11), actin and vimentin in K562 erythroleukemia cells (12), and calcitonin in thyroid medullary carcinoma cells (13). Genes that seem to be repressed by phorbol esters include globin in Friend erythroleukemia cells (14), glycophorin in K562 erythroleukemia cells (15), and c-myc in thyroid medullary carcinoma cells (13). Moreover, phorbol esters increase the frequency of initiation of DNA replication for bacteriophage X injected into Xenopus eggs (16).The effects of phorbol esters on gene transcription generally require more time to become manifest than the effects on ionic fluxes or receptors. Thus, the regulation of c-fos mRNA in U937 monocytes is maximal after 30 min (11) and that of glycophorin and actin genes becomes evident after about 1 hr (12, 15), whereas the effect on c-myc mRNA is observed 4 hr after exposure of the cells to the tumor promoter (13). The relative delay in these responses may reflect an indirect effect ofphorbol esters on gene transcription, requiring one or more intermediary steps or a cascade of reactions; alternatively, phorbol esters may alter gene transcription more directly by stimulating protein kinase C, which then may phosphorylate a polypeptide(s) involved in transcriptional regu...

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The Solution Structure and Dynamics of the Pleckstrin Homology Domain of G Protein-coupled Receptor Kinase 2 (β-Adrenergic Receptor Kinase 1)

Fushman

Najmabadi-Haske

Cahill

et al. 1998

Journal of Biological Chemistry

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The solution structure of an extended pleckstrin homology (PH) domain from the beta-adrenergic receptor kinase is obtained by high resolution NMR. The structure establishes that the beta-adrenergic receptor kinase extended PH domain has the same fold and topology as other PH domains, and there are several unique features, most notably an extended C-terminal alpha-helix that behaves as a molten helix, and a surface charge polarity that is extensively modified by positive residues in the extended alpha-helix and the C terminus. These observations complement biochemical evidence that the C-terminal portion of this PH domain participates in protein-protein interactions with Gbetagamma subunits. This suggests that the C-terminal segment of the PH domain may function to mediate protein-protein interactions with the targets of PH domains.

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Structural Studies on the PH Domains of Dbl, Sos1, IRS-1, and .beta.ARK1 and Their Differential Binding to G.beta..gamma. Subunits

Mahadevan

Thanki²,

Singh³

et al. 1995

Biochemistry

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Pleckstrin homology (PH) domains are approximately 110 amino acid residues in length and are structurally conserved in a number of intracellular signaling proteins. A role for these domains has been postulated for beta ARK, which binds to G beta gamma subunits. We have quantified the binding of individual (His)6-tag PH domains of human Db1, human Sos1, rat IRS-1, human beta ARK, and human beta ARK with an extra 33-residue C-terminal extension (beta ARK + C) to G beta gamma subunits. Our in vitro binding studies show that all of the PH domains (apart from Sos1), bind G beta gamma subunits in a dose-dependent manner, but beta ARK + C binds 4 times as much G beta gamma at saturation as the others. The IRS-1 PH domain has a similar half-maximal concentration of G beta gamma binding (18 nM) to beta ARK + C (30 nM), suggesting that the IRS-1 PH domain has sufficient determinants for G beta gamma binding. The beta ARK PH domain alone has a half-maximal value of 45 nM but a drastically reduced extent of G beta gamma binding, suggesting that both the PH domain and the C-terminal 33 residues are necessary for maximal binding. Db1 has a half-maximum concentration of G beta gamma binding of 45 nM and a maximal extent of binding similar to that of beta ARK, but it is difficult to demonstrate saturable binding of G beta gamma to Sos1. Since it was previously predicted that the C-terminal PH domain of Pleckstrin [Tyers, M., et al. (1988) Nature 333, 470-473] contains a potential calcium binding site, we have tested the different PH domains for calcium binding. Only the PH domain of Db1 bound 45Ca2+ with a Kd of 10 microM. CD spectroscopy of the purified recombinant PH domains indicated that they are predominantly beta-sheet structures.(ABSTRACT TRUNCATED AT 250 WORDS)

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Harry LeVine

Phosphorylation and Activation of β-Adrenergic Receptor Kinase by Protein Kinase C

A model for intracellular translocation of protein kinase C involving synergism between Ca2+ and phorbol esters

Protein kinase C phosphorylates topoisomerase II: topoisomerase activation and its possible role in phorbol ester-induced differentiation of HL-60 cells.

The Solution Structure and Dynamics of the Pleckstrin Homology Domain of G Protein-coupled Receptor Kinase 2 (β-Adrenergic Receptor Kinase 1)

Structural Studies on the PH Domains of Dbl, Sos1, IRS-1, and .beta.ARK1 and Their Differential Binding to G.beta..gamma. Subunits

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