Reversal of the growth inhibitory effect of α-difluoromethylornithine by putrescine but not by other divalent cations

Summary Treatment with -difluoromethylornithine (DFMO), an enzyme-activated irreversible inhibitor of ornithine decarboxylase (ODC), depletes the putrescine and spermidine content, and reduces the growth rate of Ehrlich ascites tumor cells.The addition of putrescine, which is the immediate precursor of spermidine, promptly replenished the intracellular putrescine and spermidine pools and completely reversed the antiproliferative effect of DFMO. A sequential accumulation of spermine, spermidine and putrescine was observed.1,3-diaminopropane, a lower homolog of putrescine, did not reverse the antiproliferative effect of DFMO, despite its structural similarity and identical positive charge. By inhibiting remaining ODC activity, resistant to 5 mM DFMO, and possibly by inhibiting spermine synthase activity, 1,3-diaminopropane produced a further decrease in total polyamine content by reducing the spermine content.Mg²⁺, which can replace putrescine in many in vitro reactions, completely lacked the capacity to reverse the antiproliferative effect of putrescine and spermidine deficiency.Abbreviations DFMO -difluoromethylornithine - ODC ornithine decarbxylase     

Yeast mitochondrial calcium uptake: Regulation by polyamines and magnesium ions

Spermine, spermidine, and magnesium ions modulate the kinetic parameters of the Ca²⁺ transport system ofEndomyces magnusii mitochondria. Mg²⁺ at concentrations up to 5 mM partially inhibits Ca²⁺ transport with a half-maximal inhibiting concentration of 0.5 mM. In the presence of 2 mM MgCl₂, theS _0.5 value of the Ca²⁺ transport system increases from 220 to 490 µM, which indicates decreased affinity for the system. Spermine and spermidine exert an activating effect, having half-maximal concentrations of 12 and 50 µM, respectively. In the case of spermine, theS _0.5 value falls to 50–65 µM, which implies an increase in the transport system affinity for Ca²⁺. Both Mg²⁺ and spermine cause a decrease of the Hill coefficient, giving evidence for a smaller degree of cooperativity. Spermine and spermidine enable yeast mitochondria to remove Ca²⁺ from the media completely. In contrast, Mg²⁺ lowers the mitochondrial buffer capacity. When both Mg²⁺ and spermine are present in the medium, their effects on theS _0.5 value and the free extramitochondrial Ca²⁺ concentration are additive. The ability of spermine and Mg²⁺ to regulate yeast mitochondrial Ca²⁺ transport is discussed.     

Endogenous γ-l-glutamylglutamate is a partial agonist at the N-methyl-d-aspartate receptors in cultured cerebellar granule cells

-l-Glutamylglutamate (LGG), an endogenous constituent of the brain, reduced the glutamateevoked increase in intracellular Ca²⁺ in cultured cerebellar granule cells. The extent and properties of this inhibition were different at different Mg²⁺ concentrations. The intracellular Ca²⁺ response to NMDA was slightly enhanced by 0.1 mM LGG in normal (1.3 mM) Mg²⁺ medium, but in Mg²⁺-free medium LGG was stimulatory at low (0.1–1 M) NMDA and inhibitory at high (0.1–1 mM) NMDA concentrations. In the absence of Mg²⁺, LGG alone increased cytosolic free Ca²⁺ and depolarized the cells. These effects were potentiated by glycine and blocked by extracellular Mg²⁺, 2-amino-5-phosphonopentanoate (APV), 7-chlorokynurenate, 3-amino-1-hydroxypyrrolidin-2-one (HA-966) and 5,7-dinitroquinoxaline-2,3-dione (MNQX). The results indicate that LGG is a partial NMDA agonist. On the other hand, the non-NMDA antagonists 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) and 6,7-dinitroquinoxaline-2,3-dione (DNQX) also inhibited the effects of LGG. This indicates an involvement of non-NMDA receptors in the actions of LGG. The consequent depolarization may also contribute to the activation of NMDA receptor-governed ionophores.     

Effects of the γ-aminobutyrate transaminase inhibitors gabaculine and γ-vinyl GABA on γ-aminobutyric acid release from slices of rat cerebral cortex

The release of [³H]-aminobutyric acid (GABA) from pre-loaded slices of rat cerebral cortex was investigated in the presence and absence of the GABA-transaminase inhibitors gabaculine and -vinyl GABA. In the experiments carried out without an inhibitor, an ion-exchange column chromatographic technique was used to separate [³H]GABA from tritiated metabolites released with it into the superfusate. The presence of gabaculine (5 M) substantially reduced the Ca²⁺-dependence of the release of [³H]GABA evoked by a 4 min 30 mM K⁺ pulse, whereas this was not appreciably reduced by the presence of -vinyl GABA (2 mM or 10 mM). Nevertheless, the characteristics of [³H]GABA release were not identical in the presence and absence of either inhibitor.     

Polyamine-like effects of cobalt(III) hexaammine on various cyclic nucleotide-independent protein phosphokinase reactions

The chemically inert trivalent ion cobalt(III) hexaammine, Co³⁺(NH₃)₆, was found to exert polyamine-like effects in enhancing certain cyclic nucleotide-independent protein kinase reactions catalyzed by nuclear enzyme preparations from rat ventral prostate or liver. At 1 mM, Co³⁺(NH₃)₆ stimulated chromatin- and also non-histone-protein-associated kinase activities with partially dephosphorylated phosvitin as substrate by 38% and 72% respectively, whereas chromatin-associated kinase-catalyzed phosphorylation of lysine-rich histones was not affected under the same conditions. ³²P incorporation (from γ-³²P-ATP) into endogenous protein substrates of chromatin or non-histone protein fractions catalyzed by their erdogencus kinase activity was increased by 47% and 153%, respectively. These effects of Co³⁺(NH₃)₆ were similar to those produced by 1mM spermine. Autoradiographic analysis of endogenous ³²P-labelled nonhistone proteins revealed similar enhancements of the phosphorylation of several of the same proteins, induced by 1mM spermine or 1 mM Co³⁺(NH₃)₆ or 2mM spermidine. The stimulatory actions of polyamines or Co³⁺(NH₃)₆ were not mimicked by raising the ionic strength by addition of comparable concentrations of NaCl. The effects of 1 mM spermine and of 1 mM Co³⁺(NH₃)₆ tested separately were not additive. Phosphorylation of lysine-rich histones by beef heart cyclic AMP-dependent protein kinase was not affected by polyamines or Co³⁺(NH₃)₆ Various findings hint that the enhancement of cyclic nucleotide-independent kinase-catalyzed phosphorylation of certain protein substrates by spermidine, spermine and Co³⁺(NH₃)₆ is primarily due to interaction of these cations with appropriate protein substrates affecting their conformational status. Further, these effects of polyamines may be a reflection of their cationic charge properties rather than being dependent on any particular conformations assumed by the polyamines.     

Purine Nucleotide- and Sugar Phosphate-Induced Inhibition of the Carboxyl Methylation and Catalysis of Protein Phosphatase-2A in Insulin-Secreting Cells: Protection by Divalent Cations

Recently, we demonstrated that the 36 kDa catalytic subunit of protein phosphatase 2A (PP2Ac) undergoes methylation at its C-terminal leucine in normal rat islets, human islets and isolated cells; this modification increases the catalytic activity of PP2A [Kowluru et al. Endocrinology. 137:2315–2323, 1996]. Previous studies have suggested that adenine and guanine nucleotides or glycolytic intermediates [which are critical mediators in cell function] also modulate phosphatase activity in the pancreatic cell. Therefore, we examined whether these phosphorylated molecules specifically regulate the carboxyl methylation and the catalytic activity of PP2A in cells. Micromolar concentrations of ATP, ADP, GTP or GDP each inhibited the carboxyl methylation of PP2Ac and, to a lesser degree, the catalytic activity of PP2A. Likewise, the carboxyl methylation of PP2Ac and its catalytic activity were inhibited by [mono- or di-] phosphates of glucose or fructose. Additionally, however, the carboxyl methylation of PP2Ac was significantly stimulated by divalent metal ions (Mn²⁺ > Mg²⁺ > Ca²⁺ > control). The nucleotide or sugar phosphate-mediated inhibition of carboxyl methylation of PP2Ac and the catalytic activity of PP2A were completely prevented by Mn²⁺ or Mg²⁺. These data indicate that divalent metal ions protect against the inhibition by purine nucleotides or sugar phosphates of the carboxyl methylation of PP2Ac perhaps permitting PP2A to function under physiologic conditions. Therefore, these data warrant caution in interpretation of extant data on the regulation of phosphatase function by purine nucleotides.     

Partial purification and biochemical characterization of alkaline 5'-phosphodiesterase from barley malt sprouts

An alkaline 5-phosphodiesterase (5-PDE) from barley (Hordeum distichum) malt sprouts was partially purified by thermal treatment and acetone precipitation to diminish phosphomonoesterase (PME) activity. 5-PDE was purified 40-fold to a specific activity of 30 U mg^–1 protein with a final yield of about 32%. With synthetic substrate, the enzyme had an optimum pH of 8.9, maximum activity at 70 °C over 10 min, and a Km of 0.26 mM. The partially purified enzyme was activated by 10 mM Mg²⁺ up to 168% of the original activity, while Zn²⁺, Mn²⁺ and Cu²⁺ ions, chelating agent (EDTA) and NaN₃ (1–10 mM), and 5-ribonucleotides (1–5 mM) were inhibitory. Final enzyme preparation was stable over 8 d at 4 °C), at 70 °C for up to 120 min and without loss of activity over 90 d at –18 °C.     

Synaptosomal non-mitochondrial ATPase activities and drug treatment

Energy-using non-mitochondrial ATPases were assayed in rat cerebral cortex synaptosomes and synaptosomal subfractions, namely synaptosomal plasma membranes and synaptic vesicles. The following enzyme activities were evaluated: Na⁺, K⁺-ATPase; high- and low-affinity Ca²⁺-ATPase; basal Mg²⁺-ATPase; Ca²⁺, Mg²⁺-ATPase. The evaluations were performed after four week-treatment with saline [controls] or -adrenergic agents (-yohimbine, clonidine), energymetabolism interfering compound (theniloxazine), and oxygen-partial pressure increasing agent (almitrine), in order to define the plasticity and the selective changes in individual ATPases. In rat cerebral cortex, the enzyme adaptation to four-week-treatment with -yohimbine or clonidine was characterized by increase in both high- and low-affinity Ca²⁺-ATPase activities. The action involves the enzyme form located in the synaptic plasma membranes. The enzyme adaptation to the subchronic treatments with theniloxazine or almitrine was characterized by increase in Na⁺, K⁺-ATPase or Mg²⁺-ATPase activities, respectively. The action involves the enzymatic forms located in the synaptic plasma membranes. Thus, the pharmacodynamic effects of the agents tested should also be related to the changes induced in the activity of some specific synaptosomal nonmitochondrial ATPases.     

Polyamines block Ca2+-activated K+ channels in pituitary tumor cells (GH3)

The effects of the natural polyamines, putrescine, spermidine and spermine on single calcium-activated potassium channels from clonal rat pituitary tumor cells (GH3) were studied. Applied to inside-out patches, polyamines were found to reduce the current amplitude and open probability of the channels in a dose- and voltage-dependent manner, indicating that polyamines act as fast blockers which sense a fraction of the electrical field in the channel pore. The K _d for spermine was 11.2 mm for the reduction of unitary current amplitude and 0.7 mm for the reduction of the open probability. The order of effectiveness was spermine > spermidine > putrescine. From fitting -functions to current amplitude histograms, blocking and unblocking rates were determined as 11.4 × 10⁴ sec^–1 and 21.9 × 10⁴ sec^–1, respectively. The reduction of the channel open probability was relieved by an increase of the Ca²⁺ concentration of the internal solution, indicating that polyamines compete with Ca²⁺ at the Ca²⁺ sensor of the channel. Putrescine antagonized the effect of spermine on the channel current amplitude. The results suggest that polyamines at intracellular millimolar concentrations suppress ion channel activity and therefore may effect electrical discharge behavior of excitable cells.This work was supported in part by the Austrian Fonds zur Förderung der wissenschaftlichen Forschung, P8587.     

Autoradiographic Characterisation of [35S]GTPγS Binding Sites in Rat Brain

The binding of [³⁵S]GTPS was characterised with autoradiography in rat brain. The binding was saturable, but the rate of dissociation was very slow. Analysis of binding isotherms revealed one class of binding sites with a Kd of 0.8 M. The specific binding was 98%. Different guanine nucleotides were all able to compete with [³⁵S]GTPS binding. However, no displacement was seen by the ATP-analogue App[NH]p, indicating that [³⁵S]GTPS does not bind to ATP-sites. Autoradiograms showed a highly homogenous distribution of [³⁵S]GTPS binding, in grey as well as in white matter. However, the pattern changed dramatically in the presence of GTP, which, unlike the non-hydrolysable GTP-analogues Gpp[NH]p and GTPS, did not displace [³⁵S]GTPS binding throughout the brain. In white matter areas the binding was potently displaced, while in many grey matter areas, e.g., the striatum, the binding was seen to increase. This GTP-induced increase in [³⁵S]GTPS binding was strongly Mg²⁺-dependent, with an optimum at 10 mM. This, together with the finding that the regional effects of GTP correspond well to previously reported distribution of low Km GTPase, suggest that the levels of binding of [³⁵S]GTPS in the presence of GTP may reflect functional G-protein activity.     

Effect of polyamines and divalent cations on histone H1-poly(adenosine diphosphate ribose) complex formation

When the polyamines spermine, spermidine or putrescine at 1 or 2 mM were added to HeLa cell nuclei, there was a 1- to 3-fold differential stimulation of [³H]NAD incorporation into an H1 histone-poly(ADP-ribose) complex with little effect on total poly(ADP-ribose) synthesis. At higher polyamine levels, total polymer synthesis was inhibited, but the fraction of polymer associated with H1 was still differentially increased. A differential stimulation of complex synthesis was also produced by the addition of elevated levels of Mg²⁺ or Ca²⁺. These results were not due to an effect of these agents on recovery or turnover of the H1-poly(ADP-ribose) complex but apparently are related to the chromatin condensing action of these agents since enhanced formation of the H1-poly(ADP-ribose) complex and of chromatin aggregation was closely correlated.     

Modification by hypoxia and drug treatment of cerebral ATPase plasticity

The plasticity of synaptosomal non-mitochondrial ATPases was evaluated in cerebral cortex from 3-month-old normoxic rats and rats subjected to either mild or severe intermittent normobaric hypoxia [12 hr daily exposure to N₂O₂ (9010 or 91.58.5) for four weeks]. The activities of Na⁺, K⁺-ATPase, low- and high-affinity Ca²⁺-ATPase, Mg²⁺-ATPase, and Ca²⁺, Mg²⁺-ATPase were assayed in synaptosomes and synaptosomal subfractions, namely synaptosomal plasma membranes and synaptic vesicles. The evaluations were performed after a 4-week treatment with saline (controls) or -adrenergic agents (-yohimbine, clonidine), a vasodilator compound (papaverine), and an oxygen-partial pressure increasing agent (almitrine). These treatments differently changed the adaptation to chronic intermittent hypoxia characterized by a decrease in the activity of Na⁺, K⁺-ATPase, Ca²⁺,Mg²⁺-ATPase, and high-affinity Ca²⁺-ATPase, concomitant with a modification in the activity of Mg²⁺-ATPase supported in a different way by the enzymatic forms located into the synaptosomal plasma membranes and synaptic vesicles.     

Regulation of Phospholipase C Activity by Calcium Ions and Guanine Nucleotide in the Normoxic Cat Carotid Body

The carotid bodies (CB) are a paired chemoreceptor organ located at the bifurcation of the common carotid arteries. High O₂ tension suppresses while low tension activates afferent carotid chemoreceptor activity and the chemoreflex ventilatory response in the cat. The intracellular mechanism of chemotransduction is till now unknown. Previously we have shown different activities of phospholipase C (PLC) in normoxic, hypoxic and hyperoxic cat carotid body. Now we have addressed the question whether calcium ions and G-protein could be regulators of the formation of lipid derived messenger molecules in the cat carotid body. To answer this question, the PLC acting against [³H] inositol-phosphatidylinositol (PtdIns) and [³H] inositol-phosphatidylinositol-4, 5-bisphosphate [PtdIns(4,5)P₂] in the cat CB were investigated using labelled phospholipids as a source of the substrate. CB homogenate was used as a source of the enzyme. The results indicate that PLC acting on PtdIns is Ca²⁺-dependent, in contrary to that acting on PtdIns(4,5)P₂ which remains active in the presence of 10 mM EGTA. PtdIns(4,5)P₂-PLC is stimulated by GTPS. In the presence of Ca²⁺, GTPS has a synergistic stimulatory effect. PLC acting on PtdIns is not activated by GTPS. In the presence of calcium ions dopamine and a nonhydrozylable analogue of acetylocholine, carbachol, have a small stimulatory effect of about 30 % on PLC acting on PtdIns(4,5)P₂. GTPS enhances this effect. These results allow us to suggest that there are two pathways of phosphoinositides degradation in the CB, one of them is regulated by calcium ions/PtdIns-PLC/, the other one by G-protein/PtdIns(4,5)P₂-PLC/.     

Lipid peroxidation as the mechanism of modification of brain 5′-nucleotidase activity in vitro

The effect of lipid peroxidation on the Mg²⁺-independent and Mg²⁺-dependent activity of brain cell membrane 5-nucleotidase was determined and the affinity of the active sites of Mg²⁺-dependent enzyme for 5-AMP (substrate) and Mg²⁺ (activator) was examined. Brain cell membranes were peroxidized at 37°C in the presence of 100 M ascorbate and 25 M FeCl₂ (resultant) for 10 min. The activity of 5-nucleotidase and lipid peroxidation products (thiobarbituric acid reactive substances) were determined. At 10 min, the level of lipid peroxidation products increased from 0.20±0.10 to 17.5±1.5 nmoles malonaldehyde/mg membrane protein. The activity of Mg²⁺-independent 5-nucleotidase increased from 0.201±0.020 in controls to 0.305±0.028 mol Pi/mg protein/hr in peroxidized membranes. In the presence of 10mM Mg²⁺, the activity increased by 5.8-fold in the peroxidized membrane preparation in comparison to 14-fold in control In peroxidized preparation, the affinity of active site of Mg²⁺-dependent 5-nucleotidase for 5-AMP tripled, as indicated by a significant decrease inK _m (K _m=95±2 M AMP for control;K _m=32±2 MAMP for peroxidized).V _max was significantly reduced from 3.35±0.16 in control to 1.70±.09 moles Pi/mg protein in peroxidized membranes. The affinity of the active site for Mg²⁺ significantly increased (K _m=6.17±0.37 mM Mg²⁺ for control;K _m=4.0±0.31 peroxidized). The data demonstrate that lipid peroxidation modifies the Mg²⁺-dependent 5-nucleotidase function by altering the active sites for both the substrate and the activator. The modification of the 5-nucleotidase activity and the loss of Mg²⁺-dependent activation observed in this in-vitro study are similar to the changes previously observed by us in the hypoxic brain in-vivo. This suggests that lipid peroxidation which specifically alters the active site may be the underlying mechanism of the modification of 5-nucleotidase during hypoxia.     

Effect of spermine on peptide-bond formation,catalyzed by ribosomal peptidyltransferase

The effect of spermine on the binding of AcPhe-tRNA to poly(U)-programmed ribosomes (step 1) and on the puromycin reaction (step 2) has been studied in a cell-free system, derived from E. coli.In the absence of ribosomal wash (FWR fraction) and at suboptimal concentration of Mg⁺⁺ (6 mM), spermine stimulated the binding of AcPhe-tRNA at least five fold, while at 10 mM Mg⁺⁺ there was a three fold stimulation. The above stimulatory effect was decreased at 6 mM Mg⁺⁺, or was abolished at 10 mM Mg⁺⁺ by the presence of FWR during the binding. Beside the stimulatory effect, spermine enhanced the stability of initiation complex AcPhe-tRNA-poly(U)-ribosome.In step 2, spermine affected the final degree of puromycin reaction and the activity status of peptidyltransferase. Both stimulatory and inhibitory effects have been observed, depending on the experimental conditions followed during the binding of the donor and during the peptide bond formation.     

ω-Aga IVA selectively inhibits the calcium-dependent fraction of the evoked release of [3H]GABA from synaptosomes

The effect of -Aga IVA, a P-type Ca²⁺ channel blocker, on the release of the inhibitory neurotransmitter GABA and on the elevation of Ca_i induced by depolarization was investigated in [³H]GABA and fura-2 preloaded mouse brain synaptosomes, respectively. Two strategies (i.e. 20 mM external K⁺ and veratridine) that depolarize by different mechanisms the preparation were used. High K⁺ elevates Ca_i and induces [³H]GABA release in the absence of external Na⁺ and in the presence of TTX, conditions that abolish veratridine induced responses. The effect of -Aga IVA on the Ca²⁺ and Na⁺ dependent fractions of the depolarization evoked release of [³H]GABA were separately investigated in synaptosomes depolarized with high K⁺ in the absence of extermal Na⁺ and with veratridine in the absence of external Ca²⁺, respectively. The Ca²⁺ dependent fraction of the evoked release of [³H]GABA and the elevation of Ca²⁺ induced by high K⁺ are markedly inhibited (about 50%) in synaptosomes exposed to -Aga IVA (300 nM) for 3 min before depolarization, whereas the Na⁺ dependent, Ca²⁺ independent carrier mediated release of [³H]GABA induced by veratridine, which is sensitive to verapamil and amiloride, is not modified by -Aga IVA. Our results indicate that an -Aga IVA sensitive type of Ca²⁺ channel is highly involved in GABA exocytosis.     

Spinach ferredoxin is a calcium-binding protein

Spinach-leaf ferredoxin was identified as a calcium-binding protein by ⁴⁵Ca autoradiography on nitrocellulose membranes and with the cationic carbocyanine dye 1-ethyl-2-[3-(1-ethylnaphtho[1,2-d]thiazolin-2-ylidene)-2-methylpropenyl] naphtho[1,2-d]thiazolium bromide (stains-all). Binding of ⁴⁵Ca was observed at pH 6.8 and pH 7.8 and in the presence of 5 mM and 20 mM MgCl₂. At the higher MgCl₂ concentration the Ca²⁺-binding capacity is reduced. Only micromolar concentrations of LaCl₃, however, are required to achieve a similar effect. Both the oxidized and reduced forms of ferredoxin bind calcium.Abbreviations PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulfate - stains-all 1-ethyl-2-[3-(1-ethylnaphtho[1,2-d]thiazolin-2-ylidene)-2-methylpropenyl] naptho[1,2-d]thiazolium bromide     

5′-Nucleotidase and adenosine deaminase in developing fetal guinea pig brain and the effect of maternal hypoxia

The activity of key enzymes of adenosine metabolism was studied in the developing fetal guinea pig brain. The activities of 5-nucleotidase and adenosine deaminase were determined in the brains of fetal guinea pigs at 30, 35, 40, 45, 50, 55, and 60 days of gestation. The level of 5-nucleotidase activity was extremely low at 30 and 35 days of gestation but increased rapidly during the 40 to 60 day period. The enzyme activity increased in the presence of Mg²⁺ with the Mg²⁺-dependent activation increasing with the age of gestation. This Mg²⁺-dependent activity was primarily associated with the membrane fraction. Prenatal hypoxia significantly increased the fetal brain M²⁺-independent 5-nucleotidase activity at 45 days of gestational age and beyond. Prior to this age, no effect was evident. Furthermore, following hypoxia, the Mg²⁺-dependent activation of 5-nucleotidase activity was lost. The activity of adenosine deaminase was present at 30 days of gestation and, unlike 5-nucleotidase, it remained at the same level until 60 days. The results indicate that the term fetal guinea pig brain has the enzymatic mechanisms of adenosine metabolism and thus the potential for adenosine-mediated regulation of cerebrovasculature during hypoxia.     

Activation of tubulinyl-tyrosine carboxypeptidase by spermine,spermidine and putrescine

Spermine, spermidine and putrescine produce dose dependent stimulation of the invitro tubulinyl-tyrosine carboxypeptidase. Maximal stimulation was obtained with spermine, spermidine or putrescine at 0.06 mM, 1 mM and 6 mM, respectively. At higher concentrations, the enzyme activity was inhibited. The enzyme was also activated by Mg⁺⁺; the concentration formaximal effect was 4–6 mM. The stimulation produced by optimal concentration of each amine was unaffected by Mg⁺⁺ up to 2 mM; higher concentration of Mg⁺⁺ showed inhibitory effect. At optimal Mg⁺⁺ concentration, the carboxypeptidase activity was inhibited by increasing amine concentration. The amines at 0.5 or 5 mM did not produce any effect on the incorporation of tyrosine catalyzed by tubulin tyrosine ligase.     

Activation of phosphoinositide-specific phospholipase C delta from rat liver by polyamines and basic proteins.

Phospholipase C from rat liver with a molecular weight of 87,000 (PLC delta) is stimulated by polyamines, basic proteins, and basic polyamino acids. The activation occurs in both the presence and the absence of detergents. Half-maximum activation by spermine is observed at 0.15 mM, with optimum effects between 0.2 and 0.5 mM. Spermine inhibits above 0.5 mM. Half-maximum activation by spermidine and putrescine is observed at 0.9 and 6 mM, respectively, with optimum effects at 2 and 5 mM, respectively. These polyamines also inhibit at higher concentrations. Neomycin activates the enzyme with an optimum concentration of 10 microM, but maximum activation is less than with polyamines. Half-maximum activation by histone 2B occurs at 0.5 micrograms/ml (36 nM), with maximum stimulation at 1.5 micrograms/ml. Other histones, protamine, melittin, poly-L-ornithine, poly-L-lysine, poly-D-lysine, and poly-L-arginine, activate optimally at 3-10 micrograms/ml. Myelin basic protein and lysozyme activate optimally at 50-100 micrograms/ml. Typical activations are three- to eightfold, but under some conditions the enzyme shows little or no activity in the absence of basic activators. The basic activators lower the salt concentration required for maximal activity. In the case of the detergent-micelle assay, histone shifts the optimum NaCl concentration from 350 to 200 mM for PIP2, from 260 to 100 mM for PIP, and from 150 to 0 mM for PI. Histone potentiates the activation by Ca2+, but does not shift the optimum Ca2+ concentration. The optimum salt and Ca2+ concentrations are linked, such that a decrease in the concentration of one decreases the optimum concentration of the other. Activation by histone is diminished by MgCl2 in a concentration-dependent manner.