Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.11 (AMPK)
12,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The present studies examine the effects of in vivo and in situ progesterone treatment in the regulation of site-specific phosphorylation of the chicken oviduct progesterone receptor (PR). By gas-phase protein sequencing we have identified three hormonally regulated phosphorylation sites: Ser-211, Ser-260, and Ser-530. We determined phosphorylation stoichiometries by analyzing the amounts of phosphorylated and dephosphorylated serine at each site. Stoichiometries of sites 211 and 260 were about 20% under basal conditions and increased 1.5-2-fold by in situ progesterone treatment. Site 530 was virtually absent under basal conditions and induced to greater than 33% by in situ progesterone treatment. We tested several protein kinases for phosphorylation of the PR in vitro on these sites or peptides containing these sites. We found that the catalytic subunit of cAMP-dependent protein kinase mimicked the in vivo, hormone-induced altered mobility of PRs in sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Both the in vivo and in vitro alterations were reversed by alkaline phosphatase. Finally, we showed that cAMP-dependent protein kinase phosphorylated Ser-528.
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PMID:Hormonal regulation and identification of chicken progesterone receptor phosphorylation sites. 239 63

A mechanism of mitosis-specific enhancement of histone H3 phosphorylation was analyzed in vitro in terms of nucleosome structure. The incorporation of [32P]phosphate into DNA-bound H3 was approximately 5-7 times higher than in DNA-free H3 using the catalytic subunit of cAMP-dependent protein kinase. The two major N-terminal serine sites, including the mitosis-specific site (Ser10) and Ser28, were extensively phosphorylated in the DNA-bound forms. These phosphorylation patterns were identical to those of nucleosomal H3. In contrast, the H3 in DNA-free octamers was very slightly phosphorylated. The major site of H3 phosphorylation in DNA-free H3 was Thr118 in the C-terminus. Results indicate that DNA-binding is essential for the high level of mitosis-specific H3 phosphorylation, and that the nucleosome structure promotes H3 N-terminal phosphorylation in vitro. It also suggests the possibility that H1 prevents H3 phosphorylation during interphase of the cell cycle.
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PMID:Mitosis-specific histone H3 phosphorylation in vitro in nucleosome structures. 240 Dec 99

Phosphorylation of the insulin-regulatable glucose transporter (IRGT) is increased by incubating rat adipocytes with isoproterenol or by incubating microsomal membranes with cAMP-dependent protein kinase. To attempt to locate the sites of phosphorylation, the IRGT (apparent Mr = 46,000) was immunoprecipitated from 32P-labeled adipocytes and cleaved with CNBr or trypsin. Essentially all of the 32P could be recovered in a single CNBr fragment, denoted CB-T (Mr = 8,000), which bound a polyclonal antibody (R820) against a peptide having the sequence of the last 12 amino acids in the COOH terminus of the IRGT. 32P-Labeling of the IRGT was also confined to CB-T when membranes were incubated with [gamma-32P]ATP and cAMP-dependent protein kinase. Isoproterenol increased phosphorylation of CB-T, but insulin was without effect. To resolve phosphorylation sites further, IRGT from 32P-labeled cells was subjected to exhaustive proteolysis with trypsin. Samples were applied to a C-18 column, and 32P-labeled fragments were resolved into three peak fractions by elution with an increasing gradient of acetonitrile. [32P]Phosphoserine was the only phosphoamino acid detected in any of the peaks. Peak III contained approximately 80% of the 32P and was increased by isoproterenol. Almost all of the 32P introduced by cAMP-dependent protein kinase in vitro eluted in Peak III. In all cases, the 32P-labeled species in Peak III were quantitatively immunoprecipitated by R820. Digesting the peptide(s) in Peak III with V8 protease generated a single peak of 32P which eluted at lower acetonitrile than Peak III and contained 32P-labeled species that did not interact with R820. Automated Edman degradation indicated that the serine residue in Peak III phosphorylated by cAMP-dependent protein kinase was the 3rd or 4th residue from the NH2 terminus of the peptide. These findings indicate that phosphorylation of the IRGT is restricted to the presumed intracellular domain at the COOH terminus and that Ser488 is a major site phosphorylated both by cAMP-dependent protein kinase in vitro and in response to isoproterenol in vivo.
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PMID:Phosphorylation of the glucose transporter in rat adipocytes. Identification of the intracellular domain at the carboxyl terminus as a target for phosphorylation in intact-cells and in vitro. 240 83

Calmodulin-dependent protein phosphatase from bovine brain and heart was assayed for phosphotyrosine and phosphoserine phosphatase activity using several substrates: 1) smooth muscle myosin light chain (LC20) phosphorylated on tyrosine or serine residues, 2) angiotensin I phosphorylated on tyrosine, and 3) synthetic phosphotyrosine- or phosphoserine-containing peptides with amino acid sequences patterned after the autophosphorylation site in Type II regulatory subunit of the cAMP-dependent protein kinase. The phosphatase was activated by Ni2+ and Mn2+, and stimulated further by calmodulin. In the presence of Ni2+ and calmodulin, it exhibited similar kinetic constants for the dephosphorylation of phosphotyrosyl LC20 (Km = 0.9 microM, and Vmax = 350 nmol/min/mg) and phosphoseryl LC20 (Km = 2.6 microM, Vmax = 690 nmol/min/mg). Dephosphorylation of phosphotyrosyl LC20 was inhibited by phosphoseryl LC20 with an apparent Ki of 2 microM. Compared to the reactions with phosphotyrosyl LC20 as the substrate, reactions with phosphotyrosine-containing oligopeptides exhibited slightly higher Km and lower Vmax values. The reaction with the phosphoseryl peptide based on the Type II regulatory subunit sequence exhibited a slightly higher Km (23 microM), but a much higher Vmax (4400 nmol/min/mg) than that with its phosphotyrosine-containing counterpart. Micromolar concentrations of Zn2+ inhibited the phosphatase activity; vanadate was less potent, and 25 mM NaF was ineffective. The study provides quantitative data to serve as a basis for comparing the ability of the calmodulin-dependent protein phosphatase to act on phosphotyrosine- and phosphoserine-containing substrates.
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PMID:Characterization of the phosphotyrosyl protein phosphatase activity of calmodulin-dependent protein phosphatase. 242 55

Cyclic AMP-dependent protein kinase catalyzes the incorporation of 3-4 mol of phosphate into the alpha subunit of rat brain sodium channels in vitro or in situ. Digestion of phosphorylated sodium channels with CNBr yielded three major phosphorylated fragments of 25, 31, and 33 kDa. These fragments were specifically immunoprecipitated with site-directed antisera establishing their location within an intracellular loop between the first and second homologous domains containing residues 448 to 630 of sodium channel RI or residues 450-639 of sodium channel RII. Five of the seven major tryptic phosphopeptides generated from intact sodium channel alpha subunits were contained in each of the 25-, 31-, and 33-kDa CNBr fragments, indicating that most cAMP-dependent phosphorylation sites are in this domain. Since CNBr digestion of sodium channels which had been metabolically labeled with 32P in intact neurons yielded the same phosphorylated fragments, the phosphorylated region we have identified is the major location of phosphorylation in situ. Only serine residues were phosphorylated by cAMP-dependent protein kinase in vitro, while approximately 16% of the phosphorylation in intact neurons was on threonine residues that must lie outside the domain we have identified. Since this domain is phosphorylated in intact neurons, our results show that it is located on the intracellular side of the plasma membrane. These results are considered with respect to models for the transmembrane orientation of the alpha subunit.
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PMID:Identification of an intracellular domain of the sodium channel having multiple cAMP-dependent phosphorylation sites. 244 73

1. Recent discoveries have implicated regulation of an apical membrane chloride channel as site of a defect in cystic fibrosis (CF). The channel fails to respond to stimuli that elevate intracellular cAMP. 2. This paper describes properties of reversible cycles of protein phosphorylation and considers substrate specificity, reactions with model peptides, and space-filling structural models. 3. Mutation of a channel regulatory protein is proposed to involve either: (a) change of phosphorylated serine residue to an unreactive residue, (b) change in a nearby residue that does not affect phosphorylation by cAMP-dependent kinase, but results in dephosphorylation by a different phosphatase, or (c) change in a nearby residue that produces a structure unreactive with cAMP-dependent protein kinase. 4. Perhaps in CF sidechains with branched structures at the beta carbons occur on either side of the phosphorylated serine, like in glycogen phosphorylase, and prohibit reaction of a regulatory protein with cAMP-dependent protein kinase.
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PMID:Molecular defects in ion channel regulation in cystic fibrosis predicted from analysis of protein phosphorylation/dephosphorylation. 245 79

The purified receptor for calcium channel blockers (CaCB-receptor) from rabbit skeletal muscle contains three polypeptides within a molecular mass of 165, 55, and 32 kDa. cAMP-dependent protein kinase was shown to phosphorylate preferentially the 165-kDa protein. The major phosphorylation site was identified and compared with the recently published primary sequence of the CaCB-receptor. It is concluded that serine 687 is the phosphorylation site. Phosphorylation of serine 687 may regulate the open-state probability of the CaCB-receptor.
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PMID:Phosphorylation of the purified CaCB-receptor. 246 77

Following incubation of HPV 1-induced warts in the presence of [32P] phosphate several of the E4-encoded proteins were found to be radiolabeled. Two-dimensional isoelectric focusing sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated that the 17K E4 polypeptides had incorporated [32P]phosphate whereas those of 16K were unlabeled. Purified E4 gene products were separated by ion exchange chromatography into a large number of different species, which were of similar size but of different charge due to varying extents of phosphorylated peptides have been isolated and identified. Phosphoserine and phosphothreonine were identified in all 16/17K E4 fractions but not phosphotyrosine. Both HPV 1 E4 16K and 17K fractions were phosphorylated in vitro by cAMP-dependent protein kinase but not by myosin light chain kinase or by phosphorylase kinase. Incubation with cAMP PK gave incorporation of approx. 0.5 mole phosphate/mol of protein indicating that the cAMP-dependent protein kinase site(s) was partially phosphorylated in vivo. This view was supported by the fact that species which were more heavily phosphorylated in vivo incorporated less phosphate after cAMP-dependent protein kinase phosphorylation. HPV 1 E4 was also phosphorylated at serine and threonine residues by a crude cytoplasmic extract prepared from cultured human keratinocytes and cultured human retinoblasts. These results are discussed in the light of the known effects of phosphorylation on the interactions of other keratinocyte-specific proteins.
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PMID:Phosphorylation of the human papillomavirus type 1 E4 proteins in vivo and in vitro. 247 Jan 93

Several forms of protein kinase C with molecular masses of 74-, 77-, and 80-kDa were detected in subcellular fractions of human breast cancer MDA-MB-231 cells which express the alpha-type protein kinase C. Several lines of evidence indicated that the 74-kDa is the precursor of the 77- and 80-kDa protein kinase C forms. (i) Pulse-labeling experiments revealed that protein kinase C is synthesized on membranes as a 74-kDa protein that can be chased into the 77- and the 80-kDa protein kinase C forms. (ii) The primary translation product of protein kinase C displayed an apparent molecular size of 74-kDa as determined by in vitro translation of poly(A)+ RNA from MDA-MB-231 cells. (iii) Incubation with serine/threonine-specific protein phosphatases (potato acid phosphatase and phosphatase 1 or 2A) resulted in the complete dephosphorylation of the 77-kDa to the 74-kDa protein kinase C form. Protein kinase C appears to be synthesized in membranes as an unphosphorylated and presumably inactive 74-kDa form that is converted into the active 77- and 80-kDa protein kinase C by post-translational modification involving at least two phosphorylation steps. The first phosphorylation is probably achieved by a specific, yet unidentified, "protein kinase C kinase" since the 74-kDa protein kinase C species did not undergo autophosphorylation and was neither a substrate for the purified protein kinase C, S6 kinase, phosphorylase kinase, casein kinase II, nor for the catalytic subunit of cAMP-dependent protein kinase. Except for phosphorylase kinase and the catalytic subunit of the cAMP-dependent protein kinase, phosphorylation of the 77-kDa protein kinase C form with purified protein kinase C (autophosphorylation), S6 kinase or casein kinase II shifted the molecular mass of the 77-kDa protein kinase C to 80-kDa. Prolonged exposure of MDA-MB-231 cells to phorbol 12-myristate 13-acetate not only leads to a complete down-regulation of protein kinase C activity but also to an accumulation of 74-kDa protein kinase C due to a retarded conversion of the 74-kDa into the 77- and 80-kDa protein kinase C forms in these cells. Our data indicate that tumor promoters additionally interfere with the posttranslational processing that converts the 74-kDa protein kinase C precursor into the 77- and 80-kDa forms of the enzyme.
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PMID:Biosynthesis and posttranslational modifications of protein kinase C in human breast cancer cells. 247 38

The mechanism by which cAMP modulates the activity of phosphoinositide-specific phospholipase C (PLC) was studied. Elevation of cAMP inhibited both basal and norepinephrine-stimulated phosphoinositide breakdown in C6Bu1 cells which contain at least three PLC isozymes, PLC-beta, PLC-gamma, and PLC-delta. Treatment of C6Bu1 cells with cAMP-elevating agents (cholera toxin, isobutylmethylxanthine, forskolin, and 8-bromo-cAMP) increased serine phosphate in PLC-gamma, but the phosphate contents in PLC-beta and PLC-delta were not changed. In addition, cAMP-dependent protein kinase selectively phosphorylated purified PLC-gamma among the three isozymes and added a single phosphate at serine. The serine phosphorylation, nevertheless, did not affect the activity of PLC-gamma in vitro. We propose, therefore, that the phosphorylation of PLC-gamma by cAMP-dependent protein kinase alters its interaction with putative modulatory proteins and leads to its inhibition.
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PMID:Phosphorylation of phospholipase C-gamma by cAMP-dependent protein kinase. 247 46


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