Partially Purified RhoA-Stimulated Phospholipase D Activity Specifically Binds to Phosphatidylinositol 4,5-Bisphosphate

Abstract: Phosphatidylinositol 4,5-bisphosphate (PIP₂) is absolutely required for the ADP-ribosylation factor-stimulated phospholipase D (PLD) activity. In the present study, partially purified rat brain PLD was found to be activated by another PLD activator, RhoA, when PIP₂, but not other acidic phospholipids, was included in vesicles comprising phosphatidylethanolamine (PE) and the PLD substrate phosphatidylcholine (PC) (PE/PC vesicles), demonstrating the absolute requirement of PIP₂ for the RhoA-stimulated PLD activation, too. It is interesting that the RhoA-dependent PLD activity in the partially purified preparation was drastically decreased after the preparation was incubated with and separated from PE/PC vesicles containing PIP₂. The PLD activity was extracted by higher concentrations of NaCl from the vesicles containing PIP₂ that were incubated with and then separated from the partially purified PLD preparation. These results demonstrate that RhoA-dependent PLD binds to PE/PC vesicles with PIP₂. The degree of binding of the RhoA-dependent PLD activity to the vesicles was totally dependent on the amount of PIP₂ in the vesicles and correlated well with the extent of the enzyme activation. Furthermore, it was found that a recombinant peptide of the pleckstrin homology domain of β-adrenergic receptor kinase fused to glutathione S-transferase, which specifically binds to PIP₂, inhibited the PIP₂-stimulated, RhoA-dependent PLD activity in a concentration-dependent manner. From these results, it is concluded that in vitro rat brain PLD translocates to the vesicles containing PIP₂, owing to its specific interaction with PIP₂, to access its substrate PC, thereby catalyzing the hydrolysis of PC. PLD appears to localize exclusively on plasma membranes of cells and tissues. An aminoglycoside, neomycin, that has high affinity for PIP₂ effectively extracted the RhoA-dependent PLD activity from rat brain membranes. This indicates that PIP₂ serves as an anchor to localize PLD on plasma membranes in vivo.     

STUDIES ON THE PROPERTIES OF RETINAL ALCOHOL DEHYDROGENASE FROM THE RAT

An NAD-dependent alcohol dehydrogenase (alcohol:NAD oxidoreductase; EC 1.1.1.1) has been isolated and partially purified from the retinal cytosol of the rat. Its substrate specificity and sensitivity to inhibitors of hepatic alcohol dehydrogenase have been investigated. Ethanol, 1-propanol and 1-butanol served as substrates for this enzyme but the K_m values were more than 100-fold higher than those reported for hepatic alcohol dehydrogenase. Methanol and retinol were unreactive with this alcohol dehydrogenase. Inhibition by pyrazole was observed but the K_t was about 100-fold higher than the value observed for hepatic alcohol dehydrogenase. n-Butyraldoxime inhibited retinal alcohol dehydrogenase with a K_t of 2 μM, a value which approximates its K_t for hepatic alcohol dehydrogenase. 1, 10-Phenanthroline was ineffective as an inhibitor. Oxidation of retinol was observed in retinal homogenates in the presence of NADP but no inhibition was observed with ethanol, methanol or pyrazole. We conclude that oxidation of retinol is not catalysed by soluble retinal alcohol dehydrogenase.     

Characteristics of phospholipase D in reverse micelles of Triton X-100 and phosphatidylcholine in diethyl ether

Summary Phospholipase D, from cabbage, is active in reverse micelles formed from its substrate phosphatidylcholine and Triton X-100 in diethyl ether. The activity is optimum at w₀=12.5. The increase of the molar ratio of Triton X-100/substrate from 1:4 to 2:1 results in an activity decrease by 25 %. At 136 mM Triton X-100 the K_M value in reverse micelles is 136 mM, whereas it is 0.40 mM in the aqueous system containing SDS.     

Peroxidase from Bacillus sp. VUS and its role in the decolorization of textile dyes

Peroxidase was purified by an ion exchange chromatography followed by gel filtration chromatography from dye degrading Bacillus sp. strain VUS. The optimum pH and temperature of the enzyme activity was 3.0 and 65°C, respectively. This enzyme showed more activity with n-propanol than other substrates tested viz. xylidine, 3-(3,4-dihydroxy phenyl) Lalanine (L-DOPA), hydroxyquinone, ethanol, indole, and veratrole. Km value of the enzyme was 0.076 mM towards n-propanol under standard assay conditions. Peroxidase was more active in presence of the metal ions like Li²⁺, Co²⁺, K²⁺, Zn²⁺, and Cu²⁺ where as it showed less activity in the presence of Ca²⁺ and Mn²⁺. Inhibitors like ethylenediamine tetraacetic acid (EDTA), glutamine, and phenylalanine inhibited the enzyme partially, while sodium azide (NaN₃) completely. The crude as well as the purified peroxidase was able to decolourize different industrial dyes. This enzyme decolourized various textile dyes and enhanced percent decolourization in the presence of redox mediators. Aniline was the most effective redox mediator than other mediators tested. Gas chromatography-Mass spectrometry (GC-MS) confirmed the formation of 7-Acetylamino-4-hydroxy-naphthalene-2-sulphonic acid as the final product of Reactive Orange 16 indicating asymmetric cleavage of the dye.     

Lipid binding to sterol carrier protein-2 is inhibited by ethanol

Sterol carrier protein-2 (SCP-2) is an intracellular lipid carrier protein that binds cholesterol, phospholipids, fatty acids and other ligands. It has been reported that expression of SCP-2 was increased in brain nerve endings or synaptosomes of chronic ethanol-treated mice and it was shown that cholesterol homeostasis was altered in brain membranes of chronic ethanol-treated animals. Ethanol may interfere with the capacity of SCP-2 to bind cholesterol as well as other lipids. This hypothesis was tested using recombinant SCP-2 and fluorescent-labeled cholesterol, phosphatidylcholine (PC), and stearic acid. The association constants (K_a) of the ligand-SCP-2 complex were in the following order: NBD-cholesterol>NBD-PC>NBD-stearic acid. Ethanol, beginning at a concentration of 25 mM, significantly reduced the affinity of NBD-cholesterol and NBD-PC for SCP-2. Effects of ethanol on the K_a of NBD-stearic acid was significant only at the highest concentration that was examined (200 mM). Ethanol significantly increased the B_max of NBD-cholesterol for SCP-2 but did not have a significant effect on the B_max of NBD-PC. Similar results were found for effects of ethanol on the K_as and B_maxs using pyrene-labeled cholesterol and PC. In conclusion, ethanol beginning at a physiological concentration of 25 mM inhibited binding of cholesterol and PC to SCP-2. However, effects of ethanol on lipid binding to SCP-2 were dependent on the type of lipid. Ethanol in vivo may interfere with lipid binding to SCP-2 and disrupt lipid trafficking within cells.     

Ca<Superscript>2+</Superscript>, calmodulin and phospholipids regulate nitricoxide synthase activity in the rabbit submandibular gland

Nitric oxide (NO) plays an important role as an intra- and intercellular signaling molecule in mammalian tissues. In the submandibular gland, NO has been suggested to be involved in the regulation of secretion and in blood flow. NO is produced by activation of NO synthase (NOS). Here, we have investigated the regulation of NOS activity in the rabbit submandibular gland. NOS activity was detected in both the cytosolic and membrane fractions. Characteristics of NOS in the cytosolic and partially purified membrane fractions, such as Km values for l-arginine and EC₅₀ values for calmodulin and Ca²⁺, were similar. A protein band that cross-reacted with anti-nNOS antibody was detected in both the cytosolic and membrane fractions. The membrane-fraction NOS activity increased 1.82-fold with treatment of Triton X-100, but the cytosolic-fraction NOS activity did not. The NOS activity was inhibited by phosphatidic acid (PA) and phosphatidylinositol 4,5-bisphosphate (PIP₂). The inhibitory effects of phospholipids on the NOS activity were relieved by an increase in Ca²⁺ concentrations. These results suggest that the Ca²⁺- and calmodulin-regulating enzyme nNOS occurs in cytosolic and membrane fractions, and PA and PIP₂ regulate the NOS activity in the membrane site by regulating the effect of Ca²⁺ in the rabbit submandibular gland.Communicated by I.D. Hume     

1-Butanol interferes with phospholipase D1 and protein kinase Calpha association and inhibits phospholipase D1 basal activity

1-Butanol is commonly used as a substrate for phospholipase D (PLD) activity measurement. Surprisingly we found that, in the presence of 30 mM 1-butanol (standard PLD assay conditions), PLD1 activity in COS-7 cells was lost after incubation for 2 min. In contrast, in the presence of the protein kinase C (PKC) inhibitor staurosporine or dominant negative PKCalpha D481E, the activity was sustained for at least 30min. The binding between PLD1 and PKCalpha was also lost after 2 min incubation with 30 mM 1-butanol while staurosporine and D481E maintained the binding. 1-Butanol at 2 mM did not inhibit PLD1 basal activity or PLD1 binding to PKCalpha, and staurosporine and PKCalpha D481E produced a constant increase in PLD1 basal activity of 2-fold. These results indicate that 1-butanol is inhibitory to PLD1 activity by reducing its association with PKCalpha, and that the concentration of 1-butanol is an important consideration in assaying basal PLD1 activity.     

Effects of phosphatidylinositol 4,5-bisphosphate and neomycin on phospholipase D: Kinetic studies

The kinetics of phosphatidylcholine-specific phospholipase D activated by phosphatidylinositol 4,5-bisphosphate (PIP₂) and inhibition by neomycin were studied in an enzyme preparation partially purified from human hepatocarcinoma cell line. It was found that phospholipase D was marginally activated by phosphatidyl-4-phosphate (PIP) and phosphatidylethanolamine (PE). In contrast, it was considerably activated by PIP₂ in different concentration of phosphatidylcholine (PC). Sphingomyelin (SM), lysophosphatidylcholine (LPC) and phosphatidylserine (PS) were neither substrates nor inhibitors of the phospholipase D. PIP₂ induced an allosteric effect on phospholipase D and a negative cooperative effect with respect to phosphatidylcholine as indicated in the Lineweaver-Burk plot. In the absence of PIP₂, a straight line was obtained, whereas a downward concave curve was observed in the presence of 25 M of PIP₂. The Hill coefficient and the apparent K_m of phosphatidylcholine in the presence of 25 M PIP₂ were calculated to be 0.631 and 10.79 mM, respectively. PIP₂ also increased the maximal velocity (V_max) of the phospholipase D reaction, suggesting that the affinity of substrate to enzyme was decreased, and the turnover number of the enzyme (kcat) was increased by PIP₂. The activation of phospholipase D by PIP₂ was dose dependent up to 50 M of PIP₂. The Ka of PIP₂ was 15.8 mM. Neomycin, a polycationic glycoside, was shown to be an uncompetitive inhibitor of phospholipase D, and revealed the formation of a neomycin-PIP₂ complex. The Ki of neomycin was estimated to be 8.7 mM.     

Purification and characterisation of rape seed phospholipase D

Phospholipase D (PLD, phosphatidylcholine:phosphatidohydrolase, EC 3.1.4.4) has been isolated from matured dry winter rape seed (Brassica napus L.), variety Lirajet). Final purification of the soluble enzyme was achieved by two-step ammonium sulphate precipitation, hydrophobic interaction chromatography and native PAGE followed by electroelution. The specific activity of the final electrophoretically homogeneous preparation was increased about 700 times during the purification process with an overall yield of 4.6%. The activity of purified soluble PLD depends strictly on the presence of Ca²⁺ (120 mM). The pH optimum of rape seed PLD was in the range 5.5–6. The K_m value for phosphatidylcholine depends on the ratio between SDS and substrate concentration. No polymorphism of PLD was detected by SDS-PAGE and size exclusion chromatography of the purified enzyme. The purified enzyme was a monomer with a molecular mass of 105 000 Da determined by SDS-PAGE and of 90 000–100 000 Da assessed by size exclusion chromatography. The amino acid composition of PLD was also determined. Similar intensities of immunochemical cross reactions were demonstrated between PLD extracted from rape seed, soybean, castor bean and sunflower using immunoabsorption technique with the immune serum previously prepared against partially purified rape seed PLD. Data obtained in this study and those gathered from the literature indicate close similarities in molecular, enzymatic and antigenic characteristics between PLDs of oil seeds of different species.     

Occurrence of a novel NADP(+)-linked alcohol dehydrogenase in Euglena gracilis

An NADP(+)-dependent alcohol dehydrogenase was found in Euglena gracilis Z grown on 1-hexanol, while it was detected at low activity in cells grown on ethanol or glucose as a carbon source, indicating that the enzyme is induced by the addition of 1-hexanol into the medium as a carbon source. This enzyme was extremely unstable, even at 4 degrees C, unless 20% ethylene glycol was added. The optimal pH was 8.8-9.0 for oxidation reaction. The apparent K(m) values for 1-hexanol and NADP(+) were found to be 6.79 mM and 46.7 microM for this enzyme, respectively. The substrate specificity of this enzyme was very different from that of already purified NAD(+)-specific ethanol dehydrogenase by showing the highest activity with 1-hexanol as a substrate, followed by 1-pentanol and 1-butanol, and there was very little activity with ethanol and 1-propanol. This enzyme was active towards the primary alcohols but not secondary alcohols. Accordingly, since the NADP(+)-specific enzyme was separated on DEAE cellulose column, Euglena was confirmed to contain a novel enzyme to be active towards middle and long-chain length of fatty alcohols.     

Properties of Phenoloxidases Generated from Prophenoloxidase with 2-Propanol and the Natural Activator in Drosophila melanogaster

Prophenoloxidases A₁ andA₃ in Drosophila melanogaster were activatedwith 2-propanol and a partially purified naturalactivator. For prophenoloxidase activation, the optimumtemperaturewas 30 degrees C and the optimum pH was 8. Bothmono- and diphenoloxidase activities were found inA₁ and A₃ activated with2-propanol, whereas only diphenoloxidase activity wasdetected inA₃ activated with a naturalactivator. The kinetic properties, K_m and V_max, were not similar in those phenoloxidasesactivated with different activating agents. The rateof inhibition of phenoloxidase bydiethyldithiocarbamate and phenylthiocarbamate dependedon the concentration of 2-propanol. Both compoundsexhibited a noncompetitive pattern ofinhibition.     

A novel flocculant biopolymer produced by Pestalotiopsis sp. KCTC 8637P

Summary A white rot fungus was isolated from rotted leaves and identified as Pestalotiopsis sp. KCTC 8637P. It produced a flocculant biopolymer. A flocculant was partially purified from the culture broth by series of precipitations with 95% ethanol and named as Pestan. The components of Pestan were consisted of glucose : glucosamine : glucuronic acid : rhamnose with a approximately molar ratio of 100:3.5:1.6:1.3.In kaolin suspension(final concentration was 4,800 mg/l), the highest flocculating activity was attained at the biopolymer flocculant concentration of 1 mg/l . The flocculating activity was observed most highest by the addition of cationic solutions, especially 8mM CaCl₂ · 2H₂O or 8mM FeCl₃. The thermal stability of Pestan was sustained up to 70 °C.     

Rapid activation of specific phospholipase(s) D by cytokinin in Amaranthus assay system

The suggested link between intracellular cytokinin signaling and phospholipase D (PLD, EC 3.1.4.4.) activity (Romanov et al. 2000, 2002) was investigated. The activity of PLD in the early period of cytokinin action was studied in vivo in derooted Amaranthus caudatus seedlings, using the level of phosphatidylbutanol production as a measure of PLD activity. Rapid activation of phosphatidylbutanol synthesis was demonstrated as early as within 5 min of cytokinin administration. Neomycin, a known phosphatidylinositol‐4,5‐bisphosphate (PIP₂) antagonist, strongly repressed both physiological cytokinin effect and cytokinin‐dependent PLD activation. N‐acylethanolamine (NAE 12), an inhibitor of α‐class PLD, did not influence significantly cytokinin effect on Amaranthus seedlings. Together, results suggest the involvement of PIP₂‐dependent non‐class α‐PLD in the molecular mechanism of cytokinin action.     

Polyphosphoinositide phospholipase C in wheat root plasma membranes. Partial purification and characterization

The effect of various detergents on polyphosphoinositide-specific phospholipase C activity in highly purified wheat root plasma membrane vesicles was examined. The plasma membrane-bound enzyme was solubilized in octylglucoside and purified 25-fold by hydroxylapatite and ion-exchange chromatography. The purified enzyme catalyzed the hydrolysis of phosphatidylinositol 4-phosphate (PIP) and phosphatidylinositol 4,5-bisphosphate (PIP₂) with specific activities of 5 and 10 μmol/min per mg protein, respectively. Phosphatidylinositol (PI) was not a substrate. Optimum activity was between pH 6–7 (PIP) and pH 6–6.5 (PIP₂). The enzyme was dependent on micromolar concentrations of Ca²⁺ for activity, and millimolar Mg²⁺ further increased the activity. Other divalent cations (4 mM Ca²⁺, Mn²⁺ and Co²⁺) inhibited (PIP₂ as substrate) or enhanced (PIP as substrate) phospholipase C activity.     

Regulation of phospholipase D from human hepatocarcinoma cell line by purine nucleotides and protein kinase A

The regulation of phosphatidylcholine-specific phospholipase D by purine nucleotides and protein kinase A were studied in vitro using an enzyme preparation partially purified from the membranous fraction of 7721 hepatocarcinoma cells. It was found that the enzyme activity was elevated by low concentrations of some purine nucleotides, but the activating effects were decreased when the concentrations of the nucleotides were higher. The optimal concentrations of GTP, GTP[S] , GDP and ATP for maximal activation were 0.1mM, 5M,1 mM and 1 mM respectively. The activation caused by 1mM ADP was lower. The enzyme was not activated by 1mM AMP, but significant activation was observed by the addition of 1mM cAMP. The latter was mediated by protein kinase A, as a specific inhibitor of protein kinase A ablished the activation. There were synergic effects between ATP and GTP, ATP and PIP₂, but not between ATP and GTP[S] , or PIP₂ and GTP[S]. The activating effects of GTP and ATP were abolished by neomycin, a PIP₂ scavenger. These results suggest that phospholipase D is regulated by GTP-binding protein and the presence of PIP₂ is required for the activation induced by GTP. Protein kinase A may be another protein kinase in addition to protein kinase C and protein tyrosine kinase which regulate the activity of phospholipase D, when the intracellular concentration of cAMP is increased.     

Properties and partial purification of mevalonate kinase from Agave americana

Mevalonate kinase activity was demonstrated in acetone powder extracts from Agave americana leaves, flowers and scape. ATP was the most effective phosphate donor. The enzyme had an optimum pH of 7.9 in Tris-HCl buffer. Dialysis decreased the ability to phosphorylate mevalonic acid (MVA). Partially purified mevalonate kinase reached maximum activity in the presence of 2 mM Mn²⁺ or 6–8 mM Mg²⁺. Higher concentrations of Mn²⁺ were inhibitory, whereas higher concentrations of Mg²⁺ produced only a small decrease in the activity. The amount of mevalonate-5-phosphate (MVAP) formed depended on protein concentration and incubation time. During short incubations, the MVAP formed increased as protein concentration rose, whereas during prolonged incubations (1–6 hr), there was a decrease in the MVAP formed when a certain amount of protein was exceeded. It is suggested that MVAP formed was hydrolysed by a phosphatase present in the extracts. This interfering activity was eliminated when mevalonate kinase is partially purified. The apparent K_m values of the enzyme from leaves were 0.05 mM for MVA and 0. 14 mM for ATP. Similar K_m values are obtained with partially purified mevalonate kinase. The enzyme was purified by ammonium sulphate precipitation, Sephadex G-100 filtration and DEAE-Sephadex A-50 fractionation.     

Effects of Ca2+, Mg2+, and depolarizing agents,on the32Pi-labeling and degradation of phosphatidylinositols in rat brain synaptosomes

In isolated synaptosomes from rat brain, 100 M antimycin A and 10 M oxamic acid inhibit the³²Pi-labeling of phosphatidylinositol-4,5-bisphosphate (PIP₂) and phosphatidylinositol-4-phosphate (PIP) by 90% and 95–99% respectively. 10 mM sodium fluoride inhibits the labeling by 50–60% and 10 mM A23187 inhibits the labeling by 63–70%. Phospholipase A₂ inhibits the labeling of PIP₂ and PIP by 93–94% and stimulates their degradation by 84–92%. Depolarization of synaptosomes with 75 mM K⁺ or 100 M veratrine decreases the labeling of PIP₂ and PIP by 66–74%. The decreased labeling results in large part from the Ca²⁺-dependent degradation of³²P-labeled PIP₂ and PIP as shown by pulse-chase experiments in which PIP₂ and PIP were prelabeled with³²Pi. Depolarization of synaptosomes results in the stimulation of⁴⁵Ca²⁺ uptake with the concomitant hydrolysis of PIP and PIP₂. Addition of 1 mM Ca²⁺ accounts for 25% of the enhanced degradation whereas depolarization with 75 mM K⁺ accounts for 75% of the enhanced degradation of PIP₂ and PIP. Depolarization with 100 mM veratrine results in a 223% increase in inositol trisphosphate as evidenced by stimulation of⁴⁵Ca²⁺ uptake. EGTA (10mM) and Mg²⁺ (5–10 mM) inhibit the degradation of PIP and PIP₂ and counteract the action of 1 mM Ca²⁺. Our data demonstrate that⁴⁵Ca²⁺, Mg²⁺, and membrane depolarization play an important role in the turnover of membrane phosphatidylinositols.Abbreviations ATP adenosine triphosphate - Pi inorganic orthophosphate - PIP phosphatidylinositol-4-phosphate - PIP₂ phosphatidylinositol-4,5,-bisphosphate - IP₃ inositol-1,4,5-trisphosphate     

A Secondary Alcohol Dehydrogenase from Tetrahymena furgasoni1

ABSTRACT. Dehydrogenase activity with hydroxysteroids has been observed in Tetrahymena furgasoni (formerly T. pyriformis strain W), and the enzyme responsible has been isolated from this organism. The purified dehydrogenase is active with a variety of steroid alcohols at apparent K_m values ranging from 0.2 to 4.0 mM. The C-3 hydroxyl of ring A of the steroid nucleus is the preferred position of oxidation. However, a variety of other secondary alcohols are also substrates, with apparent K_m values for 2-butanol, 2-pentanol, and cyclohexanol of 880, 1000. and 150 mM, respectively. With both steroidal and nonsteroidal alcohols. NAD is the preferred co-substrate, although low activity with NADP is observed. Evidence is presented that the activity with secondary alcohols, whether steroidal or not, is the property of a single protein species.     

GM1-ganglioside-triton X-100 mixed micelles: Changes of micellar properties studied by laser-light scattering and enzymatic methods

The micellar properties of mixtures of GM1 ganglioside and the non-ionic amphiphile Triton X-100 in 25 mM Na phosphate-5 mM di Na EDTA buffer (pH = 7.0) were investigated by quasielastic light scattering in a wide range of Triton/GM1 molar ratios and in the temperature range 15–37°C. These measurements: (a) provided evidence for the formation of mixed micelles; (b) allowed the determination of such parameters as the molecular weight and the hydrodynamic radius of the mixed micelles; (c) showed the occurrence of statistical aggregates of micelles with increasing temperature and micelle concentration. Galactose oxidase was chosen for studying the relation between enzyme activity and micellar properties. The action of the enzyme on GM1 was found to be strongly dependent on the micellar structure. In particular: (a) galactose oxidase acted very poorly on homogeneous GM1 micelles, while affecting mixed GM1/Triton X-100 micelles; (b) at fixed GM1 concentration the oxidation rate increased by enhancing Triton X-100 concentration and followed a biphasic kinetics with a break at a certain Triton X-100 concentration; (c) the formation of statistical micelle aggregates was followed by inhibition of the enzyme activity.     

Solubilization of histamine H-1, GABA and benzodiazepine receptors.

Dopamine 3-0-sulfate is present in considerable amounts in mammalian plasma and peripheral tissues. Incubation of dopamine 3-0-sulfate (0.1 μmole) with purified bovine dopamine-β-hydroxylase resulted in the formation of free norepinephrine (7.3 × 10^?3 μmole). The conversion to norepinephrine was inhibited by 0.6 mM of fusaric acid, an inhibitor of dopamine-β-hydroxylase. The reaction of dopamine 3-0-sulfate with dopamine-β-hydroxylase followed Michaelis-Menten kinetics. The calculated K_m was 17 mM, different from the K_m for free dopamine (0.1 mM). The incubation medium does not contain any sulfatase activity.