Expression and regulation of casein kinase 2 during heat shock in Verticillium dahliae.

A homogeneous preparation of casein kinase 2 has been isolated from the phytopathogenic fungus Verticillium dahliae (the parasite of cotton). The enzyme consists of three subunits with molecular masses of 53, 41, and 38 kDa. Highly specific immune serum against casein kinase 2 has been obtained. By means of immunoblotting, enzyme-linked immunosorbent assay (ELISA), and immunochemical isolation on protein A-Sepharose, it is shown that the amount of casein kinase 2 increases under heat shock conditions (at least in part due to the synthesis de novo), while the synthesis of the majority of other proteins falls. The activity of casein kinase 2 is supressed during heat shock and so does not correlate with its content. The results give an evidence for the two-step model of casein kinase 2 regulation during heat shock.     

Organization of genes of ribosomal RNA from the mushroom Verticillium dahliae

Using yeast probe, a complete ribosomal DNA unit from a plant pathogenic fungus, Verticillium dahliae, was cloned into a plasmid vector pTZ19R. Partial DNA sequence of the clones, when compared to the yeast ribosomal DNA sequence, allowed to establish the physical map of the fungal rDNA. The overall organization was shown to be similar to other fungal rDNAs previously known.     

Purification and properties of a protamine kinase and a type II casein kinase from bovine kidney mitochondria

Bovine kidney mitochondrial extracts contain an inactive protamine kinase and an inactive casein kinase. The protamine kinase was activated by chromatography on poly(L-lysine)-agarose. Two forms of this soluble mitochondrial protamine kinase were separated by chromatography on protamine-agarose. Both forms were purified about 80,000-fold to apparent homogeneity. Both forms of the protamine kinase consist of a single polypeptide chain with an apparent Mr approximately 45,000. Both enzyme forms underwent autophosphorylation without significant effect on activity, and both forms exhibited identical substrate specificities. The protamine kinase showed little activity toward branched-chain alpha-keto acid dehydrogenase (less than 3%), and it was essentially inactive (less than 0.1%) with pyruvate dehydrogenase, casein, and ovalbumin. The enzyme was active with histone H1 and with bovine serum albumin. Protamine kinase activity was unaffected by heparin (up to 100 micrograms/ml), by the protein inhibitor of cyclic AMP-dependent protein kinase, by Ca2+ and calmodulin, and by monoclonal antibody to the catalytic domain of protein kinase C from rat brain. The casein kinase was activated in the presence of spermine or by chromatography of the extract on DEAE-cellulose or poly(L-lysine)-agarose. The enzyme was purified about 80,000-fold to apparent homogeneity. It exhibited an apparent Mr 130,000 as determined by gel-permeation chromatography on Sephacryl S-300 in the presence of 0.5 M NaCl. Two subunits, with apparent Mr's 36,000 (alpha) and 28,000 (beta) were detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The kinase underwent autophosphorylation of its beta-subunit, without significant effect on activity. Casein kinase activity was inhibited 50% by 1.5 micrograms/ml of heparin. Spermine (1.0 mM) stimulated activity of the purified kinase two- to three-fold at 1.5 mM Mg2+. Half-maximal stimulation occurred at 0.1 mM spermine. The kinase utilized both ATP and GTP as substrates. The casein kinase showed little activity (less than 1%) toward pyruvate dehydrogenase and branched-chain alpha-keto acid dehydrogenase from kidney mitochondria, and the kinase was essentially inactive with glycogen synthase a. The properties of this soluble mitochondrial kinase indicate that it is a type II casein kinase.     

Catalytic and molecular properties of a highly purified G type casein kinase from bovine lung tissue

We have determined, using polyacrylamide gel electrophoresis, that endothelial cell cultures derived from rabbit aorta synthesize a wide spectrum of heparan sulfate proteoglycans. The electrophoretically slower-moving heparan sulfate proteoglycans have been isolated from the endothelial cell culture medium. Antibodies to these proteoglycan species have been raised in the goat. The goat antiserum binds selectively the heparan sulfate proteoglycans that were used for the immunization and does not cross-react with the other (faster moving) species. Only a moderate level of cross-reactivity was observed with the heparan sulfate proteoglycans synthesized by another cell line (presumably smooth muscle cells) of vascular derivation. These results support the suggestion that structural differences in the heparan sulfate proteoglycans are responsible for certain differences in function between the various cell types of the vessel wall.     

Comparison of some physicochemical and kinetic properties of S-adenosylhomocysteine hydrolase from bovine liver, bovine adrenal cortex and mouse liver

S-Adenosyl-L-homocysteine hydrolase (EC 3.3.1.1) was purified to apparent homogeneity from bovine liver, bovine adrenal cortex and mouse liver. All enzymes were tetramers, composed of two types of subunit present in the proportion 1:1, as judged by SDS-polyacrylamide gel electrophoresis. The partition coefficient was exactly the same for these enzymes on high-performance gel permeation chromatography, and they co-sedimented in density gradients, suggesting the same molecular size and form of S-adenosylhomocysteine hydrolase from these sources. The bovine enzymes differed from the mouse liver enzyme with respect to isoelectric point (pI = 5.35, versus pI = 5.7), affinity for DEAE-cellulose, and migration of subunits on SDS-polyacrylamide gel electrophoresis with SDS from some commercial sources. The enzymes were not substrates for cAMP-dependent protein kinase. The apparent Km values for adenosine (0.2 microM) and S-adenosylhomocysteine (0.75 microM) were the same for all three enzymes. The ratio between Vmax for the synthesis and hydrolysis of S-adenosylhomocysteine was about 4 for the mouse liver enzyme, and about 6 for the bovine enzymes. It is concluded that only subtle kinetic and physicochemical differences exist between S-adenosylhomocysteine hydrolase from these bovine and mouse tissues. This suggests that differences in experimental procedures rather than species- and organ-differences of S-adenosylhomocysteine hydrolase are responsible for the variability in kinetic and physicochemical parameters reported for the mammalian hydrolase.     

Ca2+-phospholipid-dependent protein kinase from the rat liver: physico-chemical properties and kinetic parameters

Ca2+, a phospholipid-dependent protein kinase, was isolated from the rat liver and the dependence of this enzyme on different conditions of the phosphotransferase reaction and substrate specificity was studied. The amino acid analysis was performed using "Aminochrom-2" (Hungary).     

Purification, assay, and kinetic properties of sheep liver pyridoxal kinase

Pyridoxal kinase from sheep liver has been purified 1100-fold by ammonium sulfate precipitation and chromatography on DEAE-cellulose, Sephadex G-150, and ADP-Sepharose. Polyacrylamide gel electrophoresis indicated the enzyme to be nearly homogeneous. Initial velocity studies were consistent with a sequential mechanism. The Michaelis constants for pyridoxal and ZnATP²⁻ complex are 160 and 31 μ, respectively. A new assay was developed in which [³H]pyridoxine was used as substrate. The product, [³H]pyridoxine 5′-P, was separated from the substrate with DEAE-cellulose disks. Determination of the Michaelis constants for pyridoxine and the ZnATP²⁻ complex by this new method gave values of 110 and 32 μ, respectively.     

A newly synthesized selective casein kinase I inhibitor, N-(2-aminoethyl)-5-chloroisoquinoline-8-sulfonamide, and affinity purification of casein kinase I from bovine testis

When screening various isoquinolinesulfonamide compounds which we synthesized, CKI-7, N-(2-amino-ethyl)-5-chloroisoquinoline-8-sulfonamide, was found to have a potent inhibitory action against casein kinase I and a much weaker effect on casein kinase II and other protein kinases. Kinetic analysis indicated that CKI-7 inhibited casein kinase I competitively with respect to ATP and that the Ki values were 8.5 microM for casein kinase I and 70 microM for casein kinase II. An affinity chromatography absorbent was synthesized by coupling CKI-8 (1-(5-chloroisoquinoline-8-sulfonyl], a derivative of CKI-7, to cyanogen bromide-activated Sepharose 4B. Partially purified casein kinase I from bovine testis was subjected to affinity chromatography. Analysis of the purified casein kinase I by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate revealed a single band with molecular weight 37,000. These newly synthesized compounds, CKI-7 and CKI-8, should serve as useful tools for elucidating the biological significance of casein kinase I-mediated reactions.     

Physical and kinetic properties of sheep liver pyridoxine kinase

Pyridoxine kinase purified from sheep liver was found to consist of a single polypeptide chain with a molecular weight of 60,000 as determined by gel filtration, sedimentation equilibrium ultracentrifugation, and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The isoelectric pH of the enzyme was 5.1, and the pH optimum was between 5.5 and 6.0. The enzyme required divalent cations for activity. At cation concentrations of 80 μm, the enzyme activity with each cation was in the order of Zn²⁺ > Mn²⁺ > Mg²⁺. At cation concentrations of 400 μm, the enzyme activity with each cation was in the order of Mn²⁺ > Zn²⁺ > Mg²⁺. Excess free divalent cation inhibited the enzyme. Pyridoxine kinase also required monovalent cations. The enzyme activation was greatest with K⁺, then Rb⁺ and NH₄⁺, whereas the enzyme had very little activity with Na⁺, Li⁺, or Cs⁺. Na⁺ did not interfere with the activation by K⁺. The activation of the kinase by K⁺, NH₄⁺, and Rb⁺ followed Michaelis-Menten kinetics, and the apparent K_m values for the cations were 8.9, 3.7, and 5.3 mm, respectively. Increasing the potassium concentration lowered the apparent K_m value of the enzyme for pyridoxine and had little or no effect on the K_m for ZnATP^2? or the V of the kinase-catalyzed reaction.     

Effect of starvation, diabetes and insulin on the casein kinase 2 from rat liver cytosol.

Starvation, diabetes and insulin did not alter the concentration of casein kinases in rat liver cytosol. However, the Km for casein of casein kinase 2 from diabetic rats was about 2-fold lower than that from control animals. Administration of insulin to control rats did not alter this parameter, but increased the Km for casein of casein kinase 2 in diabetic rats. Starvation did not affect the kinetic constants of casein kinases. The effect of diabetes on casein kinase 2 persisted after partial purification of the enzyme by glycerol-density-gradient centrifugation and affected also its activity on other protein substrates such as phosvitin, high-mobility-group protein 14 and glycogen synthase. The results indicate that rat liver cytosol casein kinase 2 is under physiological control.     

Isoenzyme spectrum and kinetic properties of pyruvate kinase from the liver of thiamine-deficient rats

Thiamine-deficiency in animals induced by everyday subcutaneous administration of oxythiamine in a dose of 4, 40 and 100 mg/kg of weight for 10 days results in a decrease of the total activity of pyruvate kinase in the liver tissue and does not affect the mentioned index in the kidney and heart tissues. It is shown that as a result of the enzyme fractionation in the column with DEAE-cellulose the total activity of pyruvate kinase in the liver tissue of rats with thiamine-deficiency decreases due to L-isoform while the content of M-isoform remains unchanged. Thiamine deficiency does not affect kinetic characteristics of the L-isoform, extracted from the liver and this shows the absence of changes in the degree of phosphorylation of pyruvate kinase L-isoform under these conditions.     

Further analysis of the polysomal casein kinase activity of rat liver

Membrane-free polyribosomes isolated from rat liver cells harbor a casein kinase activity which differentially phosphorylates the various subfractions of total bovine casein. This activity is, in fact, a mixture of two distinct enzyme components which can be separated from each other by molecular filtration. The major component is a S-type enzyme, active exclusively on serine residues of protein substrate, while the other is a TS-type enzyme, active on both threonine and serine residues.     

Structure and properties of casein kinase-2 from Saccharomyces cerevisiae. A comparison with the liver enzyme

A type-2 casein kinase (YCK-2), lacking the 25-kDa autophosphorylatable beta subunit characteristic of animal casein kinases-2, has been obtained in a nearly pure form from Saccharomyces cerevisiae and was compared with liver casein kinase-2 (LCK-2). A 22-kDa phosphorylatable protein, copurifying with YCK-2, can be removed by ultracentrifugation at low ionic strength and is shown by several criteria to be unrelated to the beta subunit of LCK-2. The native Mr of YCK-2, deprived of the 22-kDa phosphoprotein, is about 150 000. Limited proteolysis experiments show that YCK-2 included 37-kDa catalytic subunits, which can be converted into still active 35-kDa proteolytic derivatives. These data are consistent with a homotetrameric quaternary structure as opposed to the heterotetrameric subunit composition alpha 2 beta 2 of LCK-2 and other animal casein kinases-2. Although many properties of YCK-2 and LCK-2, including substrate specificity, inhibition by heparin, polyglutamic acid and quercetin and stimulation by polyamines, are similar; their stability under denaturing and dissociating conditions and their response to polybasic peptides are quite different. In particular YCK-2 is more readily denatured than LCK-2 by heating and exposure to urea, sodium dodecylsulphate and deoxycholate while its activity is inhibited by 100-150 mM NaCl, which conversely stimulates LCK-2 activity 2-3-fold. The Km value of the synthetic peptide substrate Ser-(Glu)5 for YCK-2 is not significantly changed by the addition of polylysine. On the contrary the Km value of the same peptide substrate for LCK-2 decreases approximately tenfold upon addition of polylysine, which also prevents the fast autophosphorylation of the kinase at its beta subunit. These data suggest that the beta subunit of animal CK-2 may play a role in determining both the stability of the enzyme and its regulation and that, consequently, the different properties of YCK-2 may be at least in part accounted for by its lack of beta subunits.     

Purification and kinetic properties of a membrane-bound phosphatidylinositol kinase of the bovine adrenal medulla

Phosphatidylinositol (PI) kinase (EC 2.7.1.67), an integral membrane protein of chromaffin granule ghosts of the bovine adrenal medulla, was found to phosphorylate PI in the 4-position of the inositol ring. The PI kinase was purified about 200-fold from a membrane fraction containing chromaffin granules and microsomes by extraction with Triton X-114, followed by phase partition (clouding) and heparin Sepharose chromatography. The PI kinase preparation (specific activity of 5.1 nmol PIP/mg protein per min) was free from other enzymatic activities that metabolize polyphosphoinositides. Km values of 55 microM and 40 microM for ATP and PI, respectively, were estimated for the purified enzyme. Concentrations of Triton X-100 above the critical micellar concentration (0.01%, w/v) were necessary to support significant enzyme activity, which was optimal at about 0.1% (w/v). Its dependence of pH was similar to that of the membrane-bound enzyme, with a broad optimum around pH 7. Mes in the millimolar concentration range was found to strongly inhibit the activity of the purified PI kinase (I50 at about 4 mM). The enzyme was almost totally inhibited by low micromolar concentrations of free calcium, and stimulated by hydrophilic cations, e.g., Mg2+ and poly(L-lysine), with the same potencies as for the membrane-bound enzyme. The amphiphilic cation trifluoperazine, however, stimulated the activity of purified PI kinase less effectively than the membrane-bound enzyme (Husebye, E.S. and Flatmark, T. (1988) Biochem. Pharmacol. 37, 449-456), whereas the inhibitory effect of near millimolar concentrations of trifluoperazine was the same for the two forms of the enzyme. It is concluded that the membrane-bound PI kinase of this tissue is of type II according to the classification of Cantley and co-workers (Whitman et al. (1987) Biochem. J. 247, 165-174).     

Resolution of conflicting assignments for the bovine casein kinase II alpha (CSNK2A2) gene

The casein kinase II alpha' gene (CSNK2A2), which physically maps to human chromosome 16 (HSA16), has previously been mapped to bovine chromosome 5 (BTA5). Based on these results, a new segment of homology between the human and bovine genomes was suggested. In this paper we demonstrate linkage between CSNK2A2 and several markers on BTA18. Our result is supported by the extensive conservation of synteny between HSA16q and BTA18. Bovine chromosome 18 markers used in this study included several microsatellites, as well as the MC1R gene previously mapped to HSA16q24.3. Sequencing of the PCR-fragment mapped to BTA5 reveals that a CSNK-like retroposon was responsible for the conflicting assignments. The present results further extend the observed conservation of synteny between HSA16q and BTA18.