Ca2+-dependent stimulation of muscle and liver phosphorylase kinase by heparin

• 1.1. Heparin stimulates the activity of nonactivated and activated skeletal muscle phosphorylase kinase in a Ca²⁺-dependent manner.
• 2.2. The stimulatory effect of heparin on the activity of nonactivated phosphorylase kinase is also expressed in the presence of calmodulin and glycogen. Heparin acted in synergism with glycogen.
• 3.3. Heparin increases the affinity of phosphorylase kinase to Ca²⁺ 5–12 fold depending upon the activation conditions.
• 4.4. Ca²⁺ influences the stimulation of liver phosphorylase kinase by heparin in a similar way.

     

Biomines-stimulated phosphorylation and (Na+, K+-ATPase in the gills of the chinese crab,Eriocheir sinensis

• 1.1. Subcellular distribution of (NA⁺, K⁺-ATPase and ouabain-insensitive ATPase (Mg²⁺-ATPase) are compared in branchial tissues of the euryhaline crab, Eriocheir sinensis, acclimated to fresh water.
• 2.2. Both the anterior and posterior gills contain cAMP-dependent protein kinase and endogenous protein substrate for phosphorylation.
• 3.3. Phosphorylation occurs in both “particulate” and “soluble” subcellular fractions but its stimulation by cAMP is restricted to the “soluble” fraction.
• 4.4. serotonin (5-HT) and dopamine receptors are present only in the “light particulate” fraction isolated from the posterior gills.

• 1.(a) Serotonin and dopamine have no effect on the phosphorylation observed in a subcellular fraction alone.
• 2.(b) Activation of the phosphorylation by serotonin and dopamine is found when the soluble fraction (source of cAMP-dependent protein kinase) is added to the fraction P₃ from the posterior gills.
• 3.(c) No activation occurs with the fractions P₃ as well as P₁ or P₂ (not shown) from anterior gills of fresh water crab.
• 4.(d) Cyproheptadine, a serotonin receptor antagonist, inhibits the 5-HT dependent increase in phosphorylation.
• 5.(e) The dopamine receptor antagonist, chlorpromazine, inhibits dopamine-stimulated phosphorylation.
• 6.5. Ouabain mimics the effect of cyproheptadine on the serotonin-stimulated phosphorylation found in the posterior gills.

     

Modulation of gastric mucosal calcium channel activity by mucus glycoprotein

• 1.1. The effect of gastric mucus glycoprotein on the activity of calcium channel isolated from gastric epithelial cell membrane was investigated. The ⁴⁵Ca²⁺ uptake into the vesicle-reconstituted channels, while only moderately (14%) affected by the intact mucus glycoprotein, was found significantly inhibited (59%) by the acidic glycoprotein fraction. This effect was associated with the sialic acid and sulfate ester groups of the glycoprotein, as their removal caused a loss in the inhibition.
• 2.2. The channel complex in the presence of epidermal growth factor (EGF) and ATP responded by an increase in protein tyrosine phosphorylation of 55 and 170 kDa proteins, and the vesicles containing the phosphorylated channels showed a 50% increase in ⁴⁵Ca²⁺ uptake. The phosphorylation and the calcium uptake were susceptible to inhibition by a specific tyrosine kinase inhibitor, genistein.
• 3.3. The channel protein phosphorylation was inhibited by the acidic mucus glycoprotein, which also interfered with the binding of EGF to the channel protein. The inhibitory effect was dependent upon the presence of sulfate ester and sialic acid groups, as evidenced by the loss of the glycoprotein inhibitory capacity following their removal.
• 4.4. The results suggest that the acidic gastric mucus glycoproteins, by modulating the EGF-controlled calcium channel phosphorylation, play a major role in gastric mucosal calcium homeostasis.

     

Regulation in vitro of rat liver pyruvate kinase by phosphorylation-dephosphorylation reactions,catalyzed by cyclic-AMP dependent protein kinases and a histone phosphatase

• 1.1.Cyclic-AMP dependent protein kinases, resolved by chromatography on DEAE-cellulose and hydroxylapatite, catalysed the phosphorylation of rat liver pyruvate kinase and calf thymus histones by [γ^{3 2}P]ATP. [^{3 2} P]phosphopeptides, from acid hydrolysates of pyruvate kinase phosphorylated by the different protein kinase fractions, displayed identical electrophoretic patterns. Phosphorylation inhibited pyruvate kinase activity.
• 2.2.Full activity was restored when phosphorylated pyruvate kinase was dephosphorylated by a histone phosphatase from the soluble fraction of rat liver. These results are consistent with the hypothesis that pyruvate kinase is regulated by phosphorylation-dephosphorylation reactions.

     

Properties and distribution of Mg2+-HCO−3-ATPase in brush border membranes isolated from rat small intestine

• 1.1. The small intestine was cut into seven segments and properties and distribution of brush border Mg²⁺-HCO⁻₃-ATPase activity in each segment were examined.
• 2.2. The optimal Mg²⁺ concentration was 1.0 mM.
• 3.3. The optimal HCO⁻₃ concentration was 100 mM in the first (duodenal), 50 mM in the 3rd and 40 mM in the 5th segment, respectively.
• 4.4. The optimal pH value was about 9.0.
• 5.5. l-phenylalanine (above 1 mM) and SCN⁻ (above 50 mM) significantly inhibited both Mg²⁺- and Mg²⁺-HCO⁻₃-ATPase activity.
• 6.6. The enzyme activity was found to be highest in the duodenal segment and then gradually decreased in consecutive segments as well as β-glycerophosphatase, Na⁺-K⁺-ATPase and supernatant carbonic anhydrase.
• 7.7. The functional significance of this ATPase and the relationship with carbonic anhydrase was discussed.

     

Phosphofructokinase from the anterior byssus retractor muscle of Mytilvs edulis: Modification of the enzyme in anoxia and by endogenous protein kinases

• 1.1. Anoxia exposure resulted in a stable modification of the kinetic properties of 6-phosphofructo-1-kinase (PFK) from the anterior byssus retractor muscle (ABRM) of the sea mussel Mytilus edulis L.
• 2.2. Compared to the aerobic enzyme, the anoxic form of PFK. showed a reduced affinity for both substrates, fructose-6-phosphate (F6P) and ATP, and an increased sensitivity to inhibition by phosphoenolpyruvate.
• 3.3. To analyze the involvement of protein kinases in the modification of PFK, extracts from aerobic or anoxic muscle were incubated with ATP and Mg²⁺ plus protein kinase second messengers cyclic 3',5'-adenosine monophosphate (cAMP), cyclic 3',5'-guanosine monophosphate (cGMP) or Ca²⁺ plus phorbol 12-myristate 13-acetate (PMA).
• 4.4. Both forms of the enzyme responded to the presence of cAMP with a strong increase in affinity for F6P.
• 5.5. In response to cGMP affinity of the aerobic enzyme for F6P decreased whereas that of the anoxic enzyme form was not affected (at 0.5 mM ATP) or increased (at 3 mM ATP).
• 6.6. Incubation with Ca²⁺ + PMA had only a limited effect on PFK kinetics but appeared to enhance the response to cGMP when the three compounds were given together.
• 7.7. Treatment of PFK-aerobic with alkaline phosphatase resulted in a strong decrease in enzyme activity and affinity for F6P; subsequent treatment with cAMP reversed the effect on S_0.5 F6P.
• 8.8. The data indicate that PFK activity is altered during the aerobic-anaerobic transition by a change in the phosphorylation state of the enzyme and that cAMP and cGMP act oppositely to regulate PFK activity, and thereby alter glycolytic rate, during this transition.

     

Activation of gastric mucosal calcium channels by epidermal growth factor

• 1.1. Gastric mucosal calcium channel complex was isolated from the solubilized epithelial cell membranes by affinity chromatography on wheat germ agglutinin.
• 2.2. The complex following labeling with [³H]PN200-110 was reconstituted into phosphatidylcholine vesicles which exhibited active ⁴⁵Ca²⁺ uptake into intravesicular space as evidenced by La³⁺ displacement and osmolarity measurements. The ⁴⁵Ca²⁺ uptake was independent of sodium and potassium gradients indicating the electroneutral nature of the process.
• 3.3. The gastric mucosal channels on epidermal growth factor binding in the presence of ATP responded by an increase in protein tyrosine phosphorylation of 55 and 170 kDa subunits of calcium channel.
• 4.4. The phosphorylated channels following reconstitution into vesicles displayed at 48% greater ⁴⁵Ca²⁺ uptake, thus indicating the tyrosine kinase involvement in EGF dependent activation of calcium channel.
• 5.5. The results point towards the importance of epidermal growth factor in the maintenance of gastric mucosal calcium homeostasis.

     

Soluble cyclic AMP-dependent protein kinases from chick kidney: Effects of ions and heat-stable modulator

• 1.1. Two cyclic nucleotide-dependent protein kinases have been isolated from chick kidney cytosol on DEAE cellulose.
• 2.2. Both have an apparent K_m ATP of 5 × 10⁻⁶ M, are stimulated half maximally by 1.8 × 10⁻⁸ M cyclic AMP, are inhibited half maximally by 5 × 10⁻³ M inorganic phosphate, and are inhibited slightly by Tris and chloride ions.
• 3.3. The heat-stable modulator of protein kinase inhibited both activities in the presence of cyclic AMP or cyclic GMP and histone, or cyclic AMP and casein, but with cyclic GMP and casein one kinase was stimulated and the other inhibited.

     

Regulation of buccal mucosal calcium channel activity by salivary mucins

• 1.1. The effect salivary mucins on the activity of calcium channel isolated from buccal mucosal cell membranes was investigated. The uptake of ⁴⁵Ca²⁺while only moderately (15%) affected by the intact low and high molecular weight mucin forms, was significantly inhibited, by the acidic low and high molecular weight salivary mucins which evoked 64 and 60% inhibition, respectively.
• 2.2. The inhibitory effect of salivary mucins was associated with the sialic acid and sulfate ester groups of the carbohydrate chains, as the removal of either group caused partial loss in the glycoproteins inhibition, and the complete loss in the inhibitory effect occurred following desialylation and desulfation.
• 3.3. The channel in the presence of epidermal growth factor (EGF) and ATP responded by an increase in tyrosine phosphorylation of 55 and 170 kDa proteins, and the phosphorylated channels showed a 46% increase in ⁴⁵Ca²⁺ uptake. The phosphorylation and the calcium uptake were susceptible to inhibition by a specific tyrosine kinase inhibitor, genistein.
• 4.4. The binding of EGF to calcium channel receptor protein was inhibited by the low and high molecular weight acidic mucins, causing 41.2 and 36.1% reduction, respectively. This reduction in binding was dependent upon the presence of sulfate ester and sialic acid groups, as evidenced by the loss of the glycoproteins' inhibitory capacity following removal of these groups.
• 5.5. The results for the first time demonstrate that salivary mucins actively participate in the modulation of the EGF-controlled buccal mucosal calcium channel activity expression, a process of importance to the preservation of oral tissue integrity.

     

Ca2+-binding and protein-protein interaction domains of the sea urchin extraembryonic coat protein hyalin

• 1.1. As reported previously (Hopper and Robinson, 1990; Int. J. Biochem. 22, 1165–1170) the sea urchin extraembryonic coat protein hyalin undergoes a Ca²⁺-induced self-association into an insoluble gel (gelation) in the presence of Mg²⁺ and/or NaCl.
• 2.2. A 275 kDa peptide fragment, generated by limited tryptic digestion of hyalin, binds Ca²⁺+ but does not undergo gelation in the presence of Ca²⁺, Mg²⁺ and NaCl.
• 3.3. Comparisons between the capacities of hyalin and the 275 kDa peptide fragment to bind Ca²⁺ indicate that the latter binds 88% less Ca²⁺ than hyalin.
• 4.4. However, the presence of Ca²⁺ alone, at a concentration of 5 mM, protects the 275 kDa peptide fragment from further digestion by trypsin mimicking the effect of this cation in protecting hyalin.
• 5.5. Gel exclusion Chromatographie analyses of the 275 kDa peptide fragment, both in the presence and absence of 5 mM Ca²⁺, indicate that this cation does induce self-association of the fragment.
• 6.6. These results provide information on the organization of the functional domains on hyalin which are required for gel formation.

     

Osmolality and electrolyte concentration of hemolymph and the problem of ion and volume regulation of cells in higher insects

• 1.1. The study was carried out on 22 species of insects from 5 orders. The osmolality of their hemolymph varied from 319 to 421 mOsm/kg H₂O, concentration of Na⁺ 4.6 to 118 mM/l, K⁺ 6.3 to 73mM/l, Ca²⁺ 3.6 to 12.9 mM/l, Mg²⁺ 2.3 to 76 mM/l. The most abundant cation in the hemolymph of insects from higher orders is either K⁺ or Mg²⁺.
• 2.2. In the muscles of lower and higher insects K⁺ is usually within 80–120 mM/kg wet wt.
• 3.3. Most Ca²⁺ and Mg²⁺ in hemolymph is bound with protein and low molecular anions, concentration of free Ca²⁺ is 0.9-2.1mM/l Mg²⁺ 3.7–8.0 mM/l.
• 4.4. It is concluded that, in insects, potassium hemolymph, cell volume regulation and accumulation of ions in the cell, are ensured by an increased osmolality of hemolymph due to a high percentage contribution of low molecular organic substances which are retained in the hemolymph due to the absence of filtration apparatus in the Malpighian tubules.

     

Comparative study of mammalian uridine kinases in the soluble and Zn-precipitated form

• 1.1. Uridine kinase partially purified from various tissues of higher organisms can be precipitated by means of Zn²⁺-ions without a substantial loss of enzyme activity.
• 2.2. Using an extract from Escherichia coli a similar procedure resulted in the inactivation of uridine kinase.
• 3.3. Uridine kinases from various tissues of mice and rats differ in their thermal stabilities during incubation as cell-free extracts, partially purified enzymes as well as Zn-insolubilized and freeze-dried enzyme preparations.
• 4.4. The highest thermal stability displays Zn-complexed uridine kinase prepared from the kidney and the lowest stability enzyme precipitated from the liver.

     

Taurine regulation of Ca2+ uptake and (Ca2+ + Mg2+)-ATPase in developing chick B-cells

• 1.1. The objective of the present study was to determine the effect of age and taurine on chick B cell calcium uptake and membrane (Ca²⁺ + Mg²⁺)-ATPase activity in 1–4-week-old chicks.
• 2.2. The calcium uptake rate decreased with age (P < 0.05) and was further decreased by taurine (P < 0.05).
• 3.3. (Ca²⁺ + Mg²⁺)-ATPase activity increased with age (P < 0.05) and was stimulated by taurine (P < 0.05).
• 4.4. The data demonstrate that the flux of calcium across the B-cell membrane changes during early post-hatch development, and that taurine regulates both the influx and efflux of calcium in chick B-cells.

     

Purine nucleoside kinases in mouse tissues and human lymphoid cells in culture

• 1.1. Purine nucleoside kinase activities (adenosine kinase, deoxyadenosine kinase and arabinosyl adenine kinase) in mouse tissues were in the following order: liver > kidney > heart > lung > brain > spleen > intestine.
• 2.2. Ratios of deoxyadenosine or arabinosyl adenine kinase to adenosine kinase were significantly higher (10–200 fold) in human lymphoid cells than in mouse tissues.
• 3.3. Leukocytes from T-cell acute lymphoblastic leukemic patients had 5–20 fold elevated adenosine deaminase as compared to normal T-cells.

     

Biochemical characterization of the plasma membrane Ca2+ pumping ATPase activity present in the gill cells of Mytilus galloprovincialis LAM

• 1.1. In the plasma membrane of mussel gill cells an ouabain insensitive, Ca²⁺-activated ATPase activity is present. The ATPase has high Ca²⁺ affinity (K_ma = 0.3 μM).
• 2.2. The optimum assay conditions to evaluate the enzymatic activity of the Ca²⁺-stimulated ATPase at 19°C are: 120–300 mM KCl ionic strength, pH 7.0 and 2 mM ATP. As for mammalian enzymes, the Ca²⁺ ATPase activity is stimulated by DTT (0.5–1 mM) and it is inhibited by low concentrations of vanadate (10–50 μM) and -SH inhibitors such as PCMB and PCMBS (10 μM); the enzyme appears to be calmodulin insensitive.
• 3.3. Electrophoretic analyses of plasma membrane proteins demonstrate that: (a) Ca²⁺ at n-μM concentrations is necessary to activate ATP hydrolysis with consequent formation of the enzyme-phosphate complex; (b) the steady state concentration of the phosphorylated intermediate is increased in the presence of La³⁺; (c) the mol. wt of Ca²⁺ ATPase is about 140 kDa.
• 4.4. Low Ca²⁺ concentrations (n-μM) are sufficient to stimulate the ATP-dependent Ca²⁺ uptake by plasma membrane inside-out vesicles.
• 5.5. The results indicate that the Ca²⁺ pump present in the gill plasma membranes could be responsible for Ca²⁺ extrusion and therefore involved in maintaining the cytosolic Ca²⁺ concentration within physiological levels.

     

Phosphorylation of Escherichia coli proteins during the SOS response

• 1.1. The phosphorylation of Escherichia coli proteins was analyzed comparatively before and after induction of the SOS response in a temperature-sensitive mutant strain.
• 2.2. The presence of phosphorylated proteins was evidenced by gel electrophoresis and autoradiography after labelling with radioactive orthophosphate in vivo or radioactive adenosine triphosphate in vitro.
• 3.3. Significant changes in the intensity of protein labelling were observed upon induction of the SOS functions: six proteins were found to be more phosphorylated while two others were less phosphorylated. Moreover, five additional proteins appeared to become phosphorylated exclusively during the SOS response. The molecular mass and isoelectric point of these various proteins were determined.
• 4.4. For most proteins, the changes in the pattern of protein phosphorylation were concomitant with variations in the amount of protein synthesized.
• 5.5. The changes in the pattern of phosphoproteins observed during the SOS response were not due to the temperature shift required experimentally for expressing the SOS phenotype.
• 6.6. Phosphorylation was found to be catalyzed by protein kinases that modify amino acid residues at hydroxyl groups in protein substrates.
• 7.7. Both in vivo and in vitro studies brought evidence that neither RecA nor LexA, the two key regulatory proteins of the SOS functions, were capable of undergoing phosphorylation.

     

Influence of deionized water supplemented or not with different ions on prolactin cell activity and osmotic regulation in the goldfish

• 1.1. Goldfish were kept in deionized water (DW), DW + Na⁺ (0.35 mM), DW + K⁺ (0.05 mM), DW + Ca²⁺ (2mM) and DW + Mg²⁺ (0.2 mM). In Ca-free environments, prolactin cells appear unaffected. Stimulated calcium-sensitive cells (pars intermedia) may elaborate a hypercalcemic factor.
• 2.2. Fecal excretion, reduced in all groups, remains noticeable in DW + Ca²⁺
• 3.3. Ionic losses, very low in all groups, are minimal in DW. Supplementation with K⁺ increases Na⁺ loss.
• 4.4. Plasma Na⁺ Ca²⁺, and osmolarity decrease in DW, and still more in DW + K⁺. Ca²⁺' and Mg²⁺ partly suppress hyponatremia.
• 5.5. In goldfish kept in DW and subsequently in DW + Ca²⁺, calcemia increases.

     

Does the inhibition of microvillus protein phosphorylation by lysine explain the activity of the latter on calcium transfer?

• 1.1. Is the activity of l-lysine on calcium absorption related to the fact that its phosphorylation is competitive with that of the microvilli proteins involved in the mineral transfer?
• 2.2. The microvilli proteins phosphorylation is not cyclic GMP-dependent but is actually inhibited by l-lysine, used in general at a 100 mM concentration.
• 3.3. The electrophoresis is followed by an autoradiograph which reveals the existence of a phosphorylated protein with a molecular weight of 140,000 daltons. Another phosphorylable protein, clearly visible in some preparations but only detectable in others, has a molecular weight close to 70,000 daltons.
• 4.4. The inhibition by lysine of the microvilli proteins phosphorylation is not specific to a given protein, but is also observed for phosphorylable cytosolic proteins.
• 5.5. A scheme for calcium transfer is proposed. It involves a protein whose phosphorylation should reduce the membrane permeability to calcium.
• 6.6. The following three attributes of the phosphorylable membrane protein—its molecular weight; the fact that another protein (probably its monomer) is also phosphorylable; its well known capacity for phosphorylation—suggest that this protein might actually be alkaline phosphatase whose correlations in calcium metabolism are well known.

     

The sea urchin extraembryonic hyaline layer: Ionic parameters controlling the hyalin gelation reaction

• 1.1. As reported previously (Robinson, 1988) the Ca²⁺-induced self-association reaction of the protein hyalin, purified from the sea urchin extraembryonic hyaline layer, was modulated by both Mg²⁺ and NaCl.
• 2.2. In the presence of 400 mM NaCl the apparent dissociation constant (Ca²⁺) decreased five-fold from 4.8 ± 1.1 mM in the absence to 0.9 ± 0.5 mM in the presence of 20 mM Mg²⁺.
• 3.3. The potentiating effect of Mg²⁺ occurred with an apparent dissociation constant (Mg²⁺) of 4.6 ± 0.5mM.
• 4.4. In the absence of Ca²⁺ or NaCl hyalin dissociated from isolated hyaline layers indicating that the behavior of hyalin within the layer is predictable from results obtained with the purified protein.

     

A comparative study of nuclear and chloroplast DNA dependent RNA polymerases from wheat leaves

• 1.1. Three DNA dependent RNA polymerases have been purified from chromatin and chloroplast fractions of wheat leaves.
• 2.2. The purified enzymes were completely dependent on exogenous DNA after purification by glycerol gradient, DEAE-Sephadex and phosphocellulose chromatography.
• 3.3. The nuclear enzymes, I and II, showed a strong preference for denatured nuclear DNA, whereas the chloroplast enzyme preferred denatured chloroplast DNA.
• 4.4. The three enzymes require either Mg²⁺ or Mn²⁺ for activity.
• 5.5. α-amanitin specifically inhibited RNA polymerase II but has no effect on polymerase I and chloroplast polymerase.
• 6.6. Enzyme I is most active at very low ionic strength (0.10 mM KC1), whereas enzyme II and chloroplast enzyme show maximum activity at 150mM and 50 mM KC1 respectively.