EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tumor-promoting phorbol esters are believed to affect cell functions by activating a Ca+2- and lipid-dependent protein kinase (protein kinase C). Since such protein kinases may be involved in ovarian granulosa cell metabolism, the effects of phorbol esters on prostaglandin (PG) and progesterone (P) accumulation were investigated. Cells were obtained from immature (28-29 days old) rats 48 h after injection of 20 IU PMSG and incubated for up to 5 h. A tumor-promoting phorbol ester, 12-O-tetradecanoyl-phorbol 13-acetate (TPA), at a concentration of 25 ng/ml, caused 4-fold increases in PGE and 6-keto-PGF1 alpha accumulation at 5 h. LH (10 ng/ml) caused 7- and 4-fold increases in PGE and 6-keto-PGF1 alpha accumulation, respectively. When tested in combination, the increases in PGE and 6-keto PGF1 alpha due to TPA and LH were additive. Like the effect of LH, the TPA stimulation of PG synthesis occurred after a delay of 2-3 h. By 5 h of incubation, cells exposed to TPA exhibited increased PG synthase activity in whole homogenates. TPA caused a smaller (2-fold) increase in P accumulation than was observed with LH (10-fold). When tested in combination, however, TPA decreased the P response to LH by approximately 25%. These effects of TPA on basal and LH-stimulated PG and P accumulation were very similar to the actions of GnRH. We, therefore, investigated the effect of exposure to the combination of GnRH and TPA. A GnRH agonist, [D-Ala6,des-Gly-NH2(10)] GnRH ethylamide (GnRHa; 10 ng/ml) caused a 4-fold increase in PGE accumulation. The effect of TPA on PGE accumulation was also additive to that of GnRHa. TPA, on the other hand, did not affect the 2.5-fold P response to GnRHa. Neither stimulation or inhibition of PGE or P accumulation was observed in the presence of a nontumor-promoting phorbol ester. Furthermore, TPA did not affect basal or LH-stimulated cAMP accumulation or basal or LH-stimulated protein kinase A activity. These data indicate that protein kinase C activation can influence granulosa cell PG and P accumulation.
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PMID:Phorbol ester regulation of rat granulosa cell prostaglandin and progesterone accumulation. 298 45

cGMP-dependent protein kinase (G-kinase) and the regulatory subunit of type I (RI) cAMP-dependent protein kinase (A-kinase) both contain a phosphorylation site located near the NH2 terminus of each enzyme. These sites can be utilized as convenient markers for the determination of the position of an amino acid residue susceptible to either chemical or enzymatic digestion. Using the tryptophan-specific reagent, N-chlorosuccinimide, the approximate location along the polypeptide chain of six reactive tryptophans in G-kinase and three reactive residues in RI were identified. Similarly, cleavage with cyanide was used to locate free and disulfide-bonded cysteines in both proteins. The approximate positions of nine cysteines in G-kinase were determined along with the location of the interchain disulfide bond and an intrachain disulfide bond. RI was found to contain three cyanide-reactive cysteines, two of which are involved in interchain disulfide bonding. A comparison of the positions of the cysteines and tryptophans determined by chemical cleavage in G-kinase and RI, with the positions of cysteine and tryptophan in the known sequence of the type II A-kinase, support the structural relationships between these enzymes. Comparison with subsequently reported primary sequences of all three enzymes indicates the limits of precision of this chemical cleavage procedure.
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PMID:A comparison of the cyclic nucleotide-dependent protein kinases using chemical cleavage at tryptophan and cysteine. 299 85

The ADP-ribosylation site of histone H1 from calf thymus by purified hen liver nuclear ADP-ribosyltransferase was determined and effects of the ADP-ribose X histone-H1 adduct on cAMP-dependent phosphorylation of the histone H1 were investigated. ADP-ribosylated histone H1 was prepared by incubation of histone H1, 1 mM [adenylate-32P]NAD and the purified ADP-ribosyltransferase. N-Bromosuccinimide-directed bisection of ADP-ribosylated histone H1 showed that the NH2-terminal fragment (Mr = 6000) was modified and contained serine residue 38, the site of phosphorylation by cAMP-dependent protein kinase. Digestion of the NH2-terminal fragment with cathepsin D and trypsin, and purification of this fragment, using high-performance liquid chromatography, yielded a radiolabelled single peptide corresponding to residues 29-34 of histone H1, containing the arginine residue as the ADP-ribosylation site. These results indicate that ADP-ribosylation of histone H1 occurs at the arginine residue 34, sequenced at the NH2-terminal side of the phosphate-accepting serine residue 38. Phosphorylation of histone H1 from calf thymus by cAMP-dependent protein kinase was markedly reduced when histone H1 was ADP-ribosylated. Kinetic studies of phosphorylation revealed that ADP-ribosylated histone H1 was a linear competitive inhibitor of histone H1 and a linear non-competitive inhibitor of ATP.
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PMID:Amino acid sequence of histone H1 at the ADP-ribose-accepting site and ADP-ribose X histone-H1 adduct as an inhibitor of cyclic-AMP-dependent phosphorylation. 299 55

Fructose-1,6-bisphosphatase from the yeast Saccharomyces cerevisiae has properties similar to other gluconeogenic fructose-1,6-bisphosphatases, but an unusual characteristic of the yeast enzyme is that it can be phosphorylated in vitro by cAMP-dependent protein kinase. Phosphorylation also occurs in vivo, presumably as part of a signalling mechanism for the enzyme's degradation. To probe the structural basis for the phosphorylation of yeast fructose-1,6-bisphosphatase, we have developed an improved procedure for the purification of the enzyme and then performed sequence studies with the in vitro-phosphorylated protein as well as with tryptic and chymotryptic peptides containing the phosphorylation site. As a result of these studies, we have determined that yeast fructose-1,6-bisphosphatase has the following 24-residue NH2-terminal amino acid sequence: Pro-Thr-Leu-Val-Asn-Gly-Pro-Arg-Arg-Asp-Ser-Thr-Glu-Gly- Phe-Asp-Thr-Asp-Ile-Ile-Thr-Leu-Pro-Arg. The site of phosphorylation is located at Ser-11 in the above sequence. The amino acid sequence around the site of phosphorylation contains the sequence - Arg-Arg-X-Ser- associated with many of the better substrates of cAMP-dependent protein kinase. The sequence of residues 15-24 above is highly homologous with the sequence of residues 6-15 of pig kidney fructose-1,6-bisphosphatase, showing 7 out of 10 residues in identical positions. The yeast enzyme, however, has a dissimilar NH2-terminal region which extends beyond the NH2 terminus of mammalian fructose-1,6-bisphosphatases and contains a unique phosphorylation site.
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PMID:Amino acid sequence of the phosphorylation site of yeast (Saccharomyces cerevisiae) fructose-1,6-bisphosphatase. 300 13

Synthetic peptides corresponding to the active domain of the heat-stable inhibitor protein of cAMP-dependent protein kinase (Cheng, H.-C., Kemp, B. E., Pearson, R. B., Smith, A. J., Misconi, L., Van Patten, S. M., and Walsh, D. A. (1986) J. Biol. Chem. 261, 989-992) were tested as inhibitors of cGMP-dependent protein kinase. The peptides themselves were not substrates. cGMP-dependent protein kinase activity was assayed using histone H2B and two synthetic peptide substrates. Consistent with previous observations of other peptide inhibitors of this enzyme (Glass, D. B. (1983) Biochem. J. 213, 159-164), the inhibitory peptides had no effect on the phosphorylation of histone H2B, but they competitively inhibited cGMP-dependent phosphorylation of the two peptide substrates. The parent inhibitor peptide, PKI(5-24)amide, and a series of analogs had Ki (or IC50) values for cGMP-dependent protein kinase in the range of 15-190 microM. In contrast to their effects on the cAMP-dependent protein kinase, the inhibitory peptides were substantially less potent with cGMP-dependent protein kinase, and potency was reduced by the presence of the NH2-terminal residues (residues 5-13). We conclude that the two protein kinases share a recognition of the basic amino acid cluster within the pseudosubstrate region of the peptide, but that the cGMP-dependent protein kinase does not recognize additional NH2-terminal determinants that make the inhibitor protein extremely potent toward the cAMP-dependent enzyme. Even- when tested at high concentrations and with peptide substrates, the native inhibitor protein did not inhibit cGMP-dependent protein kinase under assay conditions in which the peptides derived from it were inhibitory. Thus, the native inhibitor protein appears to have structural features which block interaction with the cGMP-dependent enzyme and enhance its selectivity for cAMP-dependent protein kinase.
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PMID:Differential and common recognition of the catalytic sites of the cGMP-dependent and cAMP-dependent protein kinases by inhibitory peptides derived from the heat-stable inhibitor protein. 301 64

An overview of the work on polyamine effects on certain protein kinase reactions is presented. In general, the reactions catalyzed by the messenger-independent protein kinases but not by cyclic nucleotide-, Ca2+-, Ca2+-calmodulin-, and Ca2+-anionic lipid-dependent protein kinases, are markedly enhanced by polyamines. The extent of this stimulation depends critically on the nature of the protein substrate and several other factors. A variety of other polycationic compounds including Co3+(NH3)6, polybrene, and certain aminoglycoside antibiotics exert polyamine-like effects in the same reactions. These observations suggest that the charge properties rather than any strict chemical structure play a role in the action of polyamines. Available data do not support a specific "cofactor" function of these amines for the protein kinases involved in the polyamine-stimulable reactions. It appears that the action of polyamines is mediated via their influence on the conformational status of the protein substrates thereby altering the availability of the phosphorylatable sites to the active sites on the protein kinases. Although this notion is supported by several lines of evidence, at present a role of the influence of polyamines on both the substrate and enzyme cannot be ruled out. Possible physiological relevance of the polyamine-stimulable protein kinase reactions observed in the in vitro experiments remains problematic in the absence of precise knowledge on the "effective" or free concentrations of intracellular polyamines.
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PMID:Mechanisms and significance of polyamine stimulation of various protein kinase reactions. 302 52

Reversible calcium-dependent association with a particulate fraction from human placenta was used as the first step in the purification of substrates for the epidermal growth factor-stimulated protein kinase. A protein with apparent Mr of 35,000 was purified to homogeneity, and the sequence was determined for approximately one-fourth of the protein. These residues could be aligned exactly with the previously published sequence of lipocortin I derived from the cDNA from a human lymphoma. Two other proteins that appear to be formed by proteolytic removal of 12 or 26 of the amino acids from the NH2 terminus of the protein also were isolated. Placental lipocortin I was phosphorylated in Tyr-21 in an epidermal growth factor-dependent manner by the kinase activity in a particulate fraction from A431 cells; half-maximal phosphorylation occurred at 50 nM lipocortin I. Lipocortin I phosphorylated on Tyr-21 was approximately 10-fold more sensitive to tryptic cleavage at Lys-26 than was the native protein. Placental lipocortin I and its two truncated forms were potent inhibitors of pancreatic phospholipase A2 activity. Another 33-kDa protein that was not related immunologically to lipocortin I or lipocortin II (calpactin I) also was purified from the EGTA extract of placenta. The unidentified protein inhibited phospholipase A2 but was not a substrate for the epidermal growth factor-stimulated kinase. The mechanism by which these proteins inhibit phospholipase A2 activity was investigated. Attempts to detect direct interaction between these proteins and the enzyme were unsuccessful. However, both the unidentified protein, lipocortin I, and 32P-labeled lipocortin I bound in a Ca2+-dependent manner to the [3H]oleic acid-labeled Escherichia coli membranes used as substrate in the phospholipase A2 assay. Heparin, which is known to block lipocortin I inhibition of phospholipase A2, also blocked binding of lipocortin I to E. coli membranes. The results of these and other experiments raise the possibility that placental lipocortin I inhibits phospholipase A2 activity in this assay by coating the phospholipid and thereby blocking interaction of enzyme and substrate.
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PMID:Characterization of lipocortin I and an immunologically unrelated 33-kDa protein as epidermal growth factor receptor/kinase substrates and phospholipase A2 inhibitors. 303 81

NH2-terminal myristyl peptides in mixtures of other peptides having the NH2-terminal blocked with acetyl, formyl or pyroglutamyl groups were selectively determined by high-performance liquid chromatography using a poly(vinyl alcohol) resin column eluted with 50 mM sodium hydrogen carbonate, pH 8.3, and a linear gradient of acetonitrile. This method was applied to the analysis of an NH2-terminal blocked peptide from a peptic digest of the catalytic subunit of adenosine 3':5'-phosphate-dependent protein kinase type II from bovine heart, showing that the peptide has a sequence myristyl-Gly-Asn-Ala.
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PMID:Rapid identification of NH2-terminal myristyl peptides by reversed-phase high-performance liquid chromatography. 308 48

Glycogen synthase, the rate-limiting enzyme in glycogen biosynthesis, has been postulated to exist as isozymes in rabbit liver and muscle (Camici, M., Ahmad, Z., DePaoli-Roach, A. A., and Roach, P. J. (1984) J. Biol. Chem. 259, 2466-2473). Both isozymes share a number of properties including multiple phosphorylation of the enzyme subunit. In the present study, we determined the amino acid sequences surrounding phosphorylation sites in the rabbit liver isozyme recognized by cyclic AMP-dependent protein kinase. Two dominant phosphopeptides (P-1 and P-2) were generated from tryptic digestion. Amino acid sequences of the purified peptides were determined by automated Edman degradation using a gas-phase sequenator. The locations of phosphorylated residues were identified by measuring 32Pi release during Edman degradation cycles. The NH2-terminal sequence of peptide P-1 is S-L-S(P)-V-T-S-L-G-G-L-P-Q-W-E-V-E-E-L-P-V-D-D-L-L-L-P-E-V. This sequence exhibits a strong homology to the site 2 region in the NH2 terminus of the muscle isozyme. The NH2-terminal sequence of peptide P-2 is M-Y-P-R-P-S(P)-S(P)-V-P-P-S-P-L-G-S-Q-A. This sequence shows strong homology to the site 3 region in the COOH terminus of the muscle isozyme. However, some interesting sequence differences were revealed in this region. For example, substitution of serine for alanine at position 6 of peptide P-2 created a new phosphorylation site for cyclic AMP-dependent protein kinase. Phosphorylation of the proline/serine-rich site 3 region correlated with inactivation of the liver isozyme and suggests an important role for this segment of the molecule in the regulation of glycogen synthase. No phosphorylation sites corresponding to sites 1a and 1b of the muscle isozyme were detected. In addition, the results provide definitive chemical proof that glycogen synthase from rabbit liver and muscle are isozymes encoded by distinct messages.
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PMID:Liver isozyme of rabbit glycogen synthase. Amino acid sequences surrounding phosphorylation sites recognized by cyclic AMP-dependent protein kinase. 309 16

The substrate specificity of protein kinase C has been examined using a series of synthetic peptide analogs of glycogen synthase, ribosomal protein S6, and the epidermal growth factor receptor. The glycogen synthase analog peptide Pro1-Leu-Ser-Arg-Thr-Leu-Ser-Val-Ala-Ala10 was phosphorylated at Ser7 with a Km of 40.3 microM. Peptide phosphorylation was strongly dependent on Arg4. When lysine was substituted for Arg4 the Km was increased approximately 20-fold. Addition of basic residues on either the NH2-terminal or COOH-terminal side of the phosphorylation site of the glycogen synthase peptide improved the kinetics of peptide phosphorylation. The analog Pro-Leu-Ser-Arg-Thr-Leu-Ser-Val-Ala-Ala-Lys-Lys was phosphorylated with a Km of 4.1 microM. Substitution of Ser7 with threonine increased the apparent Km to 151 microM. The truncated peptide Pro1-Leu-Ser-Arg-Thr-Leu-Ser-Val8 was phosphorylated with similar kinetic constants to the parent peptide, however, deletion of Val8 increased the apparent Km to 761 microM. The ribosomal peptide S6-(229-239) was phosphorylated with a Km of approximately 0.5 microM predominantly on Ser236 and is one of the most potent synthetic peptide substrates reported for a protein kinase. The apparent Km for S6 peptide phosphorylation was increased by either deletion of the NH2-terminal 3 residues Ala229-Arg-231 or by substitution of Arg238 on the COOH-terminal side of the phosphorylation site with alanine. This analog peptide, [Ala238]S6-(229-239) was phosphorylated with an approximate 6-fold reduction in Vmax and a switch in the preferred site of phosphorylation from Ser236 to Ser235. These results support the concept that basic residues on both sides of the phosphorylation site can have an important influence on the kinetics of phosphorylation and site specificity of protein kinase C.
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PMID:The influence of basic residues on the substrate specificity of protein kinase C. 310 May 20

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