Cytoplasmic and nuclear protein kinases during the cell cycle.

Nuclear and cytoplasmic protein kinases were measured during the traverse of synchronous CHO cultures through G1 into S phase. Cells were synchronized by selective detachment of cells blocked in metaphase using colcemid. Nuclei were isolated and the protein kinases extracted from the nuclear preparation with 0.6 M NaCl. This procedure solubilized greater than 90% of the total protein kinase activity present in the nuclear preparation. DEAE chromatography of this extract showed 5 apparently different ionic forms of nuclear protein kinases. The nuclear protein kinases preferred casein and phosvitin to histone as substrates and were cyclic AMP-independent. Nuclear protein kinase activities increased greater than two-fold, when expressed as units of activity per cell nucleus, during G1 phase traverse, concomitant with a 70% increase in nuclear non-histone proteins (those soluble in 0.6 M NaCl). This resulted in only a 40% increase in the specific activities (units/microgram protein in 0.6 M NaCl extractable nuclear fraction) of these enzymes as cells progressed through G1 into S phase. This was in contrast to cytoplasmic cyclic AMP-dependent protein kinase activities which also increased two-fold during progression through G1 phase while total cellular protein increased less than 20%. Activation of, as well as synthesis of, cyclic AMP-dependent cytoplasmic protein kinases during G1 phase suggests a regulatory mechanism for precise temporal phosphorylation, whereas the constant specific activity in nuclear kinases during cell cycle is more compatible with the maintenance of bulk phosphorylation processes in the nucleus.     

Purification and properties of a cyclic AMP-independent protein kinase from calf thymus nuclei.

A phosphoprotein kinase (ATP : protein phosphotransferase, EC 2.7.1.37) from calf thymus nuclei was purified by DEAE-cellulose chromatography, hydroxyapatite, and Sepharose 6B gel filtration. The enzyme is a cyclic AMP-independent protein kinase by the following criteria: (a) the protein kinase did not bind cyclic AMP; (b) no inhibition of activity was obtained with the heat-stable protein kinase inhibitor from rabbit skeletal muscle; (c) the regulatory subunit of cyclic AMP-dependent protein kinase had no effect on activity; and (d) no inhibition was obtained with antibody to cyclic AMP-dependent protein kinase. The nuclear cyclic AMP-independent protein kinase readily phosphorylated protamine on serine and to a lesser extent on threonine. Homologous nucleoplasmic RNA polymerase (EC 2.7.7.6) is a better substrate than arginine-rich histone, phosvitin or casein. Physical characteristics of the enzyme are described.     

Purification and characterization of two cyclic AMP-independent casein/glycogen synthase kinases from rat liver cytosol

Two cyclic AMP-independent protein kinases (ATP: protein phosphotransferase, EC 2.7.1.37) (casein kinase 1 and 2) have been purified from rat liver cytosol by a method involving chromatography on phosphocellulose and casein-Sepharose 4B. Both kinases were essentially free of endogeneous protein substrates and capable of phosphorylating casein, phosvitin and I-form glycogen synthase, but were inactive on histone IIA, protamine and phosphorylase b. They were neither stimulated by cyclic AMP, Ca2+ and calmodulin, nor inhibited by the cyclic AMP-dependent protein kinase inhibitor protein. The casein and glycogen synthase kinase activities of each enzyme decreased at the same rate when incubated at 50 degrees C. Casein kinase 1 and casein kinase 2 showed differences in molecular weight, sensitivity to KCl, Km for casein and phosvitin and Ka for Mg2+, whereas their Km values for ATP and I-form glycogen synthase were similar. The phosphorylation of glycogen synthase by these kinases correlated with a decrease in the +/- glucose 6-phosphate activity ratio (independence ratio). However, casein kinase 1 catalyzed the incorporation of about 3.6 mol of 32P/85000 dalton subunit, decreasing the independence ratio from 83 to about 15, whereas the phosphorylation achieved by casein kinase 2 was only about 1.9 mol of 32P/850000 dalton subunit, decreasing the independence ratio to about 23. The independence ratio decrease was prevented by the presence of casein but was unaffected by phosphorylase b. These data indicate that casein/glycogen synthase kinases 1 and 2 are different from cyclic AMP-dependent protein kinase and phosphorylase kinase.     

Adenosine 3′:5′-cyclic phosphate-dependent and -independent protein kinases of renal brush border membranes: Solubilization,separation, and characterization of multiple forms

Multiple protein kinase activities were found in the luminal segment of the renal proximal tubule cell plasma membrane (brush border membrane). Membranes were extracted with Lubrol, with no loss in activity, and the extract was chromatographed on diethylaminoethyl cellulose with a salt gradient. With protamine as substrate, activity eluted in two peaks, designated I and IIb, and was cyclic AMP independent. With histone VII-S, one peak, designated IIa, appeared, which eluted slightly ahead of IIb and was cyclic AMP dependent. The three activities eluted in their original patterns following rechromatography. Histone kinase activity in the combined IIa+b fraction was stimulated threefold by cyclic nucleotides (K_a = 0.013 and 0.94 μM for cyclic AMP and cyclic GMP, respectively) by increasing V. Cyclic AMP binding activity eluted with histone kinase activity. Rechromatography of IIa+b on diethylaminoethyl cellulose containing 1 μm cyclic AMP resulted in passage through the column of most of the histone kinase activity (IIa) prior to the salt gradient, but retention of kinase IIb, which again eluted in its original position. Characterization of the separated enzymes revealed that kinase I was highly specific for protamine and totally insensitive to cyclic AMP and a specific protein inhibitor of cyclic AMP-dependent kinases. Kinase IIa was relatively specific for histones and was completely inhibited by the protein inhibitor. Kinase IIb was nonspecific, catalyzing phosphorylation of protamine, casein, histones, and phosvitin in decreasing order of activity, and was insensitive to cyclic AMP and the protein inhibitor. Exposure of intact brush border membranes to elevated temperatures revealed that phosphorylation of intrinsic membrane proteins and protamine was thermolabile, whereas cyclic AMP-dependent histone kinase activity was relatively thermostable. These findings implicate cyclic AMP-independent protamine kinases in the cyclic AMP-independent autophosphorylation of the brush border membrane.     

Effect of polyamines on cyclic AMP-dependent and independent protein kinases from mouse epidermis.

Soluble extracts from mouse epidermis contained both cyclic AMP-dependent and independent protein kinases which could be separated by DEAE-Sephadex chromatography. The cyclic AMP-dependent histone kinase activity was inhibited by millimolar concentrations of the polyamines putrescine, spermidine and spermine. Similar concentrations of polyamines stimulated the cyclic AMP-independent phosphorylation of casein. The polyamines did not inhibit cyclic AMP binding by soluble epidermal extracts.     

Beryllium toxicity. The selective inhibition of casein kinase 1.

1. Cyclic AMP-independent casein kinase 1 in liver cytoplasm and nuclei was inhibited by Be2+ in vitro (Ki 2.5 microM and 29 microM respectively). Casein kinase 2 (phosvitin kinase) and cyclic AMP-dependent protein kinase were unaffected. 2. The inhibition of casein kinase 1 by Be2+ was competitive with respect to the protein substrate; at non-saturating concentrations of casein, inhibition was non-competitive with respect to ATP. 3. In rats given LD50 doses of Be2+ 24 h before death, the activities of cytoplasmic and nuclear casein kinase 1 in livers from partially hepatectomized animals were diminished approx. 50%; with intact rats, nuclear casein kinase 1 was inhibited at concentrations of casein less than the Km.     

Rat liver nuclerar protein kinases.

We have shown that nuclei isolated by two methods contain grossly different amounts of cyclic AMP-dependent histone kinase activity. Repeated washing of the isolated nuclei with a low ionic strength buffer removed the majority of the cyclic AMP-dependent histone kinase and cyclic AMP binding activity. Nuclear cyclic AMP-dependent histone kinase activity accounted for only 0.42% of the total cytoplasmic enzyme activity. Similarly, the lactate dehydrogenase activity associated with liver nuclei represented only 0.07% of the total cytoplasmic activity. The isolated liver nuclei contained only 0.27% of the total homogenate glutamate dehydrogenase activity and 1.7%of the total homogenate glucose-6-phosphatase activity. The cyclic AMP-dependent histone kinase behaves as a cytoplasmic rather than a nuclear enzyme. We have also shown that using crude extracts, one can achieve separation of the two nuclear casein kinases, NI and NII, on sucrose density gradients in the presence of 0.5M NaCl. Nuclear casein kinases NI and NII had sedimentation coefficients of 3.0 and 593 S, respectively, in the presence of 0.5 M NaCl. Under conditions of low ionic strength, all of the casein kinase activity in the crude nuclear extract sedimented as one peak with a seminentation coefficient of 7.3 S. The aggregation-disaggregation which occurred in the crude extract was reversible and was mainly due to the aggregative and disaggregative properties of casein kinase NII. The two nuclear casein kinases have different affinities for chromatin. When nuclei were disrupted in a hypotonic solution and extracted with a buffercontaining 0.14 M NaCl, casein kinase NII could be completely extracted from the viscous nuclear material. Although a significant amount of casein kinase NI was extracted by the buffer containing 0.14 M NaCl, re-extraction of the nuclear material with a buffer containing 0.5 M NaCl yielded substantial amounts of casein kinase NI, and a final extraction with a buffer containing 1.0 M NaCl yielded measurable amounts of casein kinase NI. No casein kinase NII activity could be detected in the 0.5 M and 1.0M NaCl extracts.     

Multiple forms of glycogen synthase kinase: isolation of forms which are independent of cyclic AMP.

Rabbit renal cortex was found to contain three types of glycogen synthase kinase (GSK). Cylic AMP-dependent protein kinase (GSK-C) accounted for only a small fraction of the total GSK activity. The predominant type of GSK (GSK-P) could be adsorbed to phosphocellulose, but not to DEAE cellulose. The other major type (GSK-D) could be adsorbed to DEAE cellulose and exhibited several peaks when eluted with a linear NaC1 gradient. GSK-P and GSK-D were not affected by cyclic AMP or by the heat-stable protein inhibitor of cyclic AMP-dependent protein kinase. This suggests that cyclic AMP-independent mechanisms may play a major role in regulation of GSK. Neither GSK-P nor GSK-D were associated with the major peak of histone, kinase, casein kinase, protamine kinase or phosvitin kinase. Therefore it cannot be assumed that these protein kinase activities can be used to monitor GSK activity.     

Purification and characterization of a phosvitin kinase from the thyroid gland

1. Two cyclic AMP independent protein kinases phosphorylating preferentially acidic substrates have been identified in soluble extract from human, rat and pig thyroid glands. Both enzymes were retained on DEAE-cellulose. The first enzyme activity eluted between 60 and 100 mM phosphate (depending on the species), phosphorylated both casein and phosvitin and was retained on phosphocellulose; this enzyme likely corresponds to a casein kinase already described in many tissues. The second enzyme activity eluted from DEAE-cellulose at phosphate concentrations higher than 300 mM, phosphorylated only phosvitin and was not retained on phosphocellulose. These enzymes were neither stimulated by cyclic AMP, cyclic GMP and calcium, nor inhibited by the inhibitor of the cyclic AMP dependent protein kinases. 2. The second enzyme activity was purified from pig thyroid gland by the association of affinity chromatography on insolubilized phosvitin and DEAE-cellulose chromatography. Its specific activity was increased by 8400. 3. The purified enzyme (phosvitin kinase) was analyzed for biochemical and enzymatic properties. Phosvitin kinase phosphorylated phosvitin with an apparent Km of 100 micrograms/ml; casein, histone, protamine and bovine serum albumin were not phosphorylated. The enzyme utilized ATP as well as GTP as phosphate donor with an apparent Km of 25 and 28 microM, respectively. It had an absolute requirement for Mg2+ with a maximal activity at 4 mM and exhibited an optimal activity at pH 7.0. The molecular weight of the native enzyme was 110 000 as determined by Sephacryl S300 gel filtration. The analysis by SDS-polyacrylamide gel electrophoresis revealed a major band with a molecular weight of 35000 suggesting a polymeric structure of the enzyme.     

Purification and characterization fo a phosvitin kinase from the thyroid gland

1. Two cyclic AMP independent protein kinases phosphorylating preferentially acidic substrates have been identified in soluble extract from human, rat and pig thyroid glands/ Both enzymes were retained on DEAE-cellulose. The first enzyme activity eluted between 60 and 100 mM phosphate (depending on the species), phosphorylated both casein and phosvitin and was retained on phosphocellulose; this enzyme likely corresponds to a casein kinase already described in many tissues. The second enzyme activity eluted from DEAE-cellulose at phosphate concentrations higher than 3000 mM, phosphorylated only phosvitin and was not retained on phophocellulose. These enzymes were neither stimulated by cyclic AMP, cyclic GMP and calcium, nor inhbiited by the inhibitor of the cyclic AMP dependent protein kinases. 2. The second enzyme activity was purified from pig thyroid gland by the association of affinity chromatography on insolubilized phosvitin and DEAE-cellulose chromatography. Its specific activity was increased by 8400. 3. The purified enzyme (phosvitin kinase) was analyzed for biochemical and enzymatic properties. Phosvitin kinase phosphorylated phosvitin with an apparent K_m of 100 μg/ml; casein, histone, protamine and bovine serum albumin were not phosphorylated. The enzyme utilized ATP as well as GTP as phosphate donor with an apparent K_m of 25 and 28 μM, respectively. It had an absolute requirement for Mg²⁺ with a maximal activity at 4 mM and exhibited an optimal activity at pH 7.0. The molecular weight of the native enzyme was 110 000 as determined by Sephacryl S300 gel filtration. The analysis by SDS-polyacrylamide gel electrophoresis revealed a major band with a molecualr weight of 35 000 suggesting a polymeric structure of the enzyme.     

Casein kinase in cytosol of rat and mouse mammary epithelial cells isolated from histone kinase by MgCl2 treatment and influence of pregnancy and lactation on the enzyme activity

Rat mammary glands contain cyclic AMP-independent casein kinase and cyclic AMP-dependent histone kinase. The former was easily isolated from cyclic AMP-dependent histone kinase by MgCl2 treatment. Mammary casein kinase was not activated by cyclic nucleotides, and Mg++ and ATP were required for activation. The specific activity of casein kinase in cytosol of rat mammary epithelial cells increased 2 to 3-fold during pregnancy and lactation. Cytosol of mouse mammary epithelial cells also contained cyclic AMP-independent casein kinase, and the activity of this enzyme was about three times that of the Golgi fraction.     

Protein kinase activities in mammalian blood fluid

Two protein kinase activities, one specific for phosvitin and another specific for histone, were detected in serum and plasma of calf as well as of human blood after precipitation with ammonium sulfate (40%) and chromatography on DEAE-Sephacel. The enzymes were separated by chromatography on phosphocellulose. The histone kinase is not related to the cyclic AMP-dependent protein kinase; it may derive at least partly from damaged cells. The phosvitin kinase activity carries characteristics of the so called casein kinase type II similar to that present at the surface of cells including blood cells.     

Purification and properties of a distinct protamine kinase from the cytosol of bovine kidney cortex

A protamine kinase has been purified to apparent homogeneity from extracts of the cytosol of bovine kidney cortex. This protamine kinase exhibited an apparent Mr = 43,000 as estimated by gel permeation chromatography on Sephacryl S-200 and an apparent Mr = 45,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The purified protamine kinase exhibited about 5% activity with casein, 8% with histone H2B, and less than 0.1% with histone H1, histone H4, glycogen synthase a from rabbit skeletal muscle, ovalbumin, bovine serum albumin, and phosvitin. The activity of the highly purified protamine kinase was unaffected by cyclic AMP (up to 0.1 mM), cyclic GMP (up to 0.1 mM), the heat-stable protein inhibitor of cyclic AMP-dependent protein kinase (up to 100 micrograms/ml), heparin (up to 100 micrograms/ml), EGTA (up to 1 mM), Ca2+ (up to 1 mM), calmodulin (up to 0.5 microM) in the absence or presence of Ca2+ (0.05 mM), and phosphatidylserine (up to 40 micrograms/ml) and/or diolein (up to 1 microgram/ml) in the absence or presence of Ca2+ (up to 0.5 mM). Experiments in which extracts of kidney cytosol were incubated with [gamma-32P]ATP and MgCl2 revealed that the phosphorylation of numerous polypeptides was markedly increased in the presence of the purified protamine kinase. The results indicate that this protamine kinase of kidney cytosol is a novel protein kinase.     

Protein kinase activities in rat pancreatic islets of Langerhans.

1. Protein kinase activities in homogenates of rat islets of Langerhans were studied. 2. On incubation of homogenates with [gamma-32P]ATP, incorporation of 32P into protein occurred: this phosphorylation was neither increased by cyclic AMP nor decreased by the cyclic AMP-dependent protein kinase inhibitor described by Ashby & Walsh [(1972) J. Biol. Chem. 247, 6637--6642]. 3. On incubation of homogenates with [gamma-32P]ATP and histone as exogenous substrate for phosphorylation, incorporation of 32P into protein was stimulated by cyclic AMP (approx. 2.5-fold) and was inhibited by the cyclic AMP-dependent protein kinase inhibitor. In contrast, when casein was used as exogenous substrate, incorporation of 32P into protein was not stimulated by cyclic AMP, nor was it inhibited by the cyclic AMP-dependent protein kinase inhibitor. 4. DEAE-cellulose ion-exchange chromatography resolved four peaks of protein kinase activity. One species was the free catalytic subunit of cyclic AMP-dependent protein kinase, two species corresponded to 'Type I' and 'Type II' cyclic AMP-dependent protein kinase holoenzymes [see Corbin, Keely & Park (1975) J. Biol. Chem. 250, 218--225], and the fourth species was a cyclic AMP-independent protein kinase. 5. Determination of physical and kinetic properties of the protein kinases showed that the properties of the cyclic AMP-dependent activities were similar to those described in other tissues and were clearly distinct from those of the cyclic AMP-independent protein kinase. 6. The cyclic AMP-independent protein kinase had an s20.w of 5.2S, phosphorylated a serine residue(s) in casein and was not inhibited by the cyclic AMP-dependent protein kinase inhibitor. 7. These studies demonstrate the existence in rat islets of Langerhans of multiple forms of cyclic AMP-dependent protein kinase and also the presence of a cyclic AMP-independent protein kinase distinct from the free catalytic subunit of cyclic AMP-dependent protein kinase. The presence of the cyclic AMP-independent protein kinase may account for the observed characteristics of 32P incorporation into endogenous protein in homogenates of rat islets.     

Protein kinases and their substrates in brown adipose tissue from newborn rats.

The 10000 X g supernatant fraction of brown fat from newborn rats catalyzed the cyclic AMP-dependent phosphorylation of both histone and a preparation of proteins from the same subcellular fraction (endogenous proteins). The apparent affinity for ATP was lower for the phosphorylation of the endogenous proteins than for the phosphorylation of histone. In order to discover whether the phosphorylation of histone and the endogenous proteins were catalyzed by different enzymes, the 100000 X g supernatant was fractionated by ion-exchange and adsorption chromatography. Three different cyclic AMP-dependent protein kinases and one cyclic AMP-independent protein kinase were separated and partially purified. Each of these enzymes catalyzed the phosphorylation of both substrates, and the difference in apparent Km for ATP remained. Neither affinity chromatography on histone-Sepharose, nor electrophoresis on polyacrylamide gels resulted in the separation of the phosphorylation of histone from that of the endogenous proteins of any of the partially purified kinases. Moreover, experiments in which the phosphorylated substrates were separated by differential precipitation with trichloroacetic acid showed that the endogenous proteins competitively inhibited the phosphorylation of lysine-rich histone. It is concluded that each of the partially purified kinase preparations contains protein kinase, which catalyzes the phosphorylation of both substrates. The difference in apparent Km for ATP was found to be due to the presence in the endogenous protein preparation of a low molecular weight compound which competes with ATP. This was not ATP nor the modulator protein. The ratio of the phosphorylation of endogenous proteins to that of histone was much higher for the cyclic AMP-independent kinase preparation than for the other enzymes. Electrophoresis of the endogenous substrates in the presence of sodium dodecyl sulphate showed that the enzyme phosphorylated a greater number of proteins than did the cyclic AMP-dependent kinases. The phosphorylation of endogenous proteins relative to that of histone was significantly lower for one of the cyclic AMP-dependent kinases than for the other two. This difference was not reflected in a different pattern of phosphorylation of the individual proteins of the endogenous mixture.     

Multiple forms of cytosol and membrane-bound protein kinase activity in human erythrocytes.

Both cytosol and membranes of human erythrocytes display protein kinase activity towards exogenous protein substrates such as casein, phosvitin and histones. The histone kinase activity, unlike casein kinase, of both cytosol and membranes is increased by cyclic AMP. The protein kinase forms removed from the membranes with 0.7 M NaCl, phosphorylate only serine residues of both casein and histones through a mechanism cyclic AMP-independent. The protein kinase activity located in the cytosol (hemolysate) is due also to enzyme forms phosphorylating both serine and threonine residues of casein, in addition to forms phosphorylating only serine residues of casein and histones. Also the cytosol kinase forms, once partially purified by Sepharose 6B filtration, appear to be cyclic AMP-independent.     

Multiple forms of cytosol and membrane-bound protein kinase activity in human erythrocytes

Both cytosol and membranes of human erythrocytes display protein kinase activity towards exogenous protein substrates such as casein, phosvitin andhistones. The histone kinase activity, unlike casein kinase, of both cytosol and membranes is increased by cyclic AMP. The protein kinase forms removed from the membranes with 0.7 M NaCl, phosphorylate only serine residues of both casein and histones through a mechanism cyclic AMP-independent.The protein kinase activity located in the cytosol (hemolysate) is due also to enzyme forms phosphorylating both serine and threonine residues of casein, in addition to forms phosphorylating only serine residues of casein and histones.Also the cytosol kinase forms, once partially purified by Sepharose 6B filtration, appear to be cyclic AMP-independent.     

Purification and properties of cyclic AMP-dependent protein kinase from rat epididymis

Two protein kinases (I and II: EC 2.7.1.37) that show a high degree of substrate specificity for protamine rather than histones, phosvitin and casein were partly purified from rat epididymal tissue. The enzymes were present in the cytosol because greater than 80% of the enzymic activity was recovered in the soluble fraction. The kinases required Mg2+ for activity although Co2+ and Mn2+ were partial substitutes. Zn2+ (1 mM) inhibited nearly completely the activity of the enzymes. Both the kinases showed high affinity for activation with cyclic AMP compared to other cyclic nucleotides. Amino acid analysis of 32P-labelled protamine product revealed that the kinases transfer the terminal phosphate of ATP to serine residues of the protein. The isoenzymes I and II showed certain differences in relation to their hydroxyapatite-chromatography profiles, pH activation profiles, heat sensitivity and Km for ATP and cyclic AMP.     

Changes in cyclic AMP binding and protein kinase activities during growth and differentiation of Blastocladiella emersonii.

Multiple protein kinases in the water mould Blastocladiella emersonii are described. A cyclic AMP-independent protein kinase which prefentially phosphorylates casein remains unchanged during vegetative growth of the cells and in the two phases of differentiation: germination and sporulation. In contrast, cyclic AMP-dependent protein kinase activity and cyclic AMP binding components are induced during the sporulation.