Reversible inhibition of cyclic AMP-dependent protein kinase by insulin

Summary Extracts of fasted rat diaphragms, previously treated with or without insulin were assayed for glycogen synthase, protein kinase and cyclic [³H]-AMP binding. Treatment with insulin produced an elevation in the % of glycogen synthase I and a concurrent decrease in cyclic AMP-dependent protein kinase activity and cyclic [³H]-AMP binding. Analysis of extracts by disc gel electrophoresis demonstrated the inhibition of cyclic [3H]-AMP binding to involve the Type I protein kinase holoenzyme. Inhibition of protein kinase activity was most apparent in the presence of 0.2 µM cyclic AMP, with enzymatic activity of the insulin-treated extracts typically 60–65% of control. Higher assay concentrations diminished the difference between control and insulin-treated extracts and concentrations greater than 20 µm abolished it.The inhibition of cyclic AMP-dependent protein kinase activity after insulin was a transient and labile phenomenon. The effect was independent of ATP concentration in the assay, but was sensitive to the pH of tissue extraction, requiring a pH of 7.0 to 8.4 to be observed.Insulin-mediated inhibition of protein kinase activity was reversed upon preincubation of extracts at 0–2°. Relatively concentrated homogenates (<4 µl buffer/mg tissue) yielded extracts which exhibited little or no inhibition of protein kinase activity compared to extracts prepared from more dilute (6–10 µl/mg) homogenates. A model for the inhibition of the cyclic-AMP dependent protein kinase by an insulin-generated inhibitor which becomes directly associated with the Type 1 holoenzyme is proposed.Abbreviations cyclic AMP (cAMP) Adenosine 3,5-monophosphate - Tricine N-Tris (Hydroxy-methyl) methyl glycine - G-6-P glucose-6-phosphate - MES 2-[N-morpholino]ethane sulfonic acid A preliminary report was communicated to the 61st meeting of the F.A.S.E.B., April, 1977.     

Gamete recognition during fertilization in a red alga,Antithamnion nipponicum

Summary Fertilization in the marine red algaAntithamnion nipponicum is a highly specific process involving non-motile male gametes, spermatia, and female receptive structures, carpogonia. FITC-lectin and Calcofluor white ST labelling show that the outer cell walls of spermatia differ from vegetative cells in carbohydrate composition. Specific binding of the lectins to spermatial walls was confirmed by lectin-gold labelling on thin sections. Gametic recognition inAntithamnion nipponicum is based on the interaction of a surface carbohydrate on the spermatia with a surface carbohydrate receptor on the trichogynes. Spermatial binding to trichogynes is inhibited by pre-incubation with concanavalin A and trichogyne receptors are blocked by the complementary carbohydrate -D-methyl mannose. The inhibitory effects of concanavalin A to spermatial binding of trichogynes is reversed by preincubation with -D-methyl mannose. The combination of long spermatial appendages and a carbohydrate-carbohydrate receptor-based gamete recognition mechanism make fertilization in this species an efficient process.     

Study of some enzyme activities in cultured chick embryo brain nerve cells treated by chick embryo brain extracts

Brain extracts from 8-day-old chick embryos have been shown to influence morphological development of dissociated brain cells from 7-day-old chick embryos in culture. Stimulatory, effects on size of the neuronal somas and on growth of long processes were observed by adding the cytosol of the brain extract or the dialysate of the cytosol. These morphological changes parallel modifications of various enzyme activities according to the age of the cultures. Adenyl cyclase, (Na⁺, K⁺)- and Mg²⁺-ATPase, 5-nucleotidase, choline acetyltransferase, and acetylcholinesterase activities were studied between 5 and 14 days of culture. Adenyl cyclase activity was strongly stimulated at 8 days by both extracts. (Na⁺, K⁺)-and Mg²⁺-ATPase activities were stimulated in 8-day-old cultures only by the dialysate. 5-Nucleotidase activity was stimulated in 8-day-old cultures by the dialysate and in 11-day-old cultures by both extracts. Choline acetyltransferase activity was stimulated by the cytosol in 8-day-old cultures and by the dialysate in 11-day-old cultures. The total acetylcholinesterase activity was higher in 8-, 11-, and 14-day-old cultures treated with the cytosol. When the cells were treated with the dialysate, the activity was only higher in 14-day-old cultures. We also found that following the addition of brain extracts, the specific activity of the enzymes we studied was enhanced and became close to the values found in vivo during embryogenesis. Thus in parallel to the morphological modifications observed in nerve cell cultures treated by embryo brain extracts, biochemical variations especially involved in synaptogenesis and membrane development could be measured.     

Water permeability of Betula periderm

The water permeability of periderm membranes stripped from mature trees of Betula pendula Roth was investigated. The diffusion of water was studied using the system water/membrane/water, and transpiration was measured using the system water/membrane/water vapor. Betula periderm consists of successive periderm layers each made up of about 5 heavily suberized cell layers and a varying number of cell layers that are little suberized, if at all. It is shown that these layers act as resistances in series. The permeability coefficient of the diffusion of water (P _d) can be predicted with 79% accuracy from the reciprocal of the membrane weight (x in mg cm^-2) by means of the linear equation P _d=14.69·10^-7 x-0.73·10^-7. For example, the P _d of a periderm membrane having a weight of 10 mg cm^-2 (approx. 250 m thick) is 7.4·10^-8 cm s^-1, which is comparable to the permeability of cuticles. This comparison shows that on a basis of unit thickness, Betula periderm is quite permeable to water as cuticles have the same resistance with a thickness of only 0.5 to 3 m. It is argued that this comparatively high water permeability of birch periderm is due to the fact that middle lamellae and the primary walls of periderm cells are not at all, or only incompletely suberized and, therefore, form a hydrophilic network within which the water can flow. This conclusion is based on the following observations: (1) Middle lamellae and primary walls stain strongly with toluidine blue, which shows them to be polar. (2) If silver ions are added as tracer for the flow of water, they are found only in the middle lamellae, primary walls, and in plasmodesmata, while no silver can be detected in the suberized walls. (3) Permeability coefficients of transpiration strongly depend on water activity. This shows conclusively that water flows across Betula periderm via a polar pathway. It is further argued that liquid continuity is likely to be maintained under all physiological conditions in the network formed by middle lamellae and primary walls. On the other hand, the lumina of periderm cells, intercellular air spaces in the lenticels, and even the pores in the suberized walls (remainders of plasmodesmata) will drain at a humidity of 95% and below. Due to the presence of intercellulars the permeability coefficient of lenticels is much greater than that of the periderm. A substantial amount of the total water, therefore, flows as vapor through lenticels even though they cover only 3% of the surface.Abbreviations PM perideron membrane - P _d permeability coefficient for diffusion of water - P _tt permeability coefficient of transpiration - MES (N-morpholino)ethane sulfonic acid     

Lectin binding sites in normal and phenobarbitale/halothane treated rat liver

Summary The content of carbohydrate residues of both normal and phenobarbitale-halothane-hypoxia exposed rat liver has been examined by means of lectin histochemistry. Eight biotinylated lectins specific to galactose, N-acetyl-galactosamine, N-acetyl-glucosamine, fucose and mannose were applied to paraffin sections of rat liver at light microscopic levels. The most distinct binding was observed at the structures of the perisinusoidal functional unit: Kupffer cells are bound by S-WGA, SBA and PNA. Bile canaliculi display binding sites for RCA I and WGA. Cytoplasm of hepatocytes appears lectin-negative, except for PSA. The enhanced reaction of S-WGA, PNA and SBA after the preincubation of the sections with neuraminidase indicates the occurance of sialic acid in Kupffer cells. The phenobarbitale-halothane-hypoxia exposed rat liver shows centrolobular degeneration of hepatocytes with a diminished amount of hepatocytes and Kupffer cells as well. The lectin binding pattern of sinusoidal walls, membranes of hepatocytes and bile canaliculi remains the same compared to that of normal rat liver. This finding suggests that at least the carbohydrate content of membranes in the liver resists severe destruction under phenobarbitale-halothane-hypoxia. It is assumed that there exists a connection between intact carbohydrate residues and the regeneration of liver parenchyma.     

Cell wall composition of the yeast and mycelial forms of Yarrowia lipolytica

The cell walls of the yeast and mycelial forms of Yarrowia lipolytica were isolated and purified. Electron microscopy studies showed no differences between both types of cell walls. Chemical analysis revealed that the yeast cell wall contained 70% neutral carbohydrate, 7% amino sugars, 15% protein, 5% lipids and 0.8% phosphorus. Mycelial cell walls contained 70% carbohydrate, 14% aminosugars, 6% protein, 5% lipids and 0.6% phosphorus. Three polysaccharides: -glucan, mannan and chitin were detected. Proteins were solubilized from both cell wall fractions and separated by polyacrylamide gel electrophoresis. About 50 protein bands were detected, four of them corresponding to glycoproteins. The cell walls of the yeast and mycelial forms of Y. lipolytica were qualitatively similar and only quantitative differences were found.Abbreviations GlcNAc N-acetylglucosamine - FITC-WGA fluorescein isothiocyanate-wheat germ agglutinin - PAS periodic acid Schiff     

Fluoride and beryllium interact with the (Na + K)-dependent ATPase as analogs of phosphate

Fluoride irreversibly inhibits the (Na + K)-ATPase, and this inactivation requires divalent cations (Mg²⁺, Mn²⁺, or Ca²⁺), is augmented by K⁺, but is diminished by Na⁺ and by ATP. Prior incubation with the aluminum chelator deferoxamine markedly slows inactivation, whereas adding 1 µM AlCl₃ speeds it, consistent with AlF _– ⁴ being the active species. Prior incubation of the enzyme with vanadate also blocks inactivation by fluoride added subsequently. Fluoride stimulates ouabain binding to the enzyme, and thus the analogy between AlF _– ⁴ and both orthophosphate and orthovanadate is reflected not only in the similar dependence on specific ligands for their enzyme interactions and their apparent competition for the same sites, but also in their common ability to promote ouabain binding. Beryllium also irreversibly inhibits the enzyme, and this inactivation again requires divalent cations, is augmented by K⁺, but is diminished by Na⁺ and by ATP. Similarly, prior incubation of the enzyme with vanadate blocks inactivation by beryllium added subsequently. Inactivation by beryllium, however, does not require a halide, and, unlike inactivation by fluoride, increases at basic pHs. These observations suggest that beryllium, as beryllium hydroxide complexes, acts as a phosphate analog, similar to AlF _– ⁴ and vanadate.Abbreviations EDTA ethylenediaminetetraacetate - EGTA Ethyleneglycol-bis(-aminoethylether)-N,N-tetraacetate - FITC fluorescein isothiocyanate - HEPES N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid - PIPES piperazine-N,N-bis(2-ethanesulfonic acid)1,4-piperazine diethanesulfonic acid     

Antifouling activity of seaweed extracts on the green alga Enteromorpha prolifera and the mussel Mytilus edulis

Twenty-seven species of common seaweeds from the coast of Korea havebeen screened for antifouling activity. The seaweed extracts were tested inlaboratory assays against the marine fouling green alga Enteromorphaprolifera and the blue mussel Mytilus edulis. Tissue growth, sporesettlement, zygote formation and germlings of the E. prolifera wereinhibited by methanol extracts of the seaweed Ishige sinicola (= I. foliacea) and Sargassum horneri. Spore settlement was stronglyinhibited by using extract concentrations as low as 30 g mL^-1with I. sinicola and 120 g mL^-1 with S. horneri. The repulsive activity of the foot of the mussel was completely inhibited bymethanol extracts of I. sinicola and Scytosiphon lomentaria atconcentrations of 40 g per 10 L drop supplied to eachmussel. These extracts also showed strong antifouling activities onlarval settlement with, respectively, no or only 6% of the spat settlingwhen a test concentration of 0.8 mg mL^-1 was used. This work isthe first stage towards the development of novel antifouling agents frommarine macroalgae.     

Isolation and culture of cotton ovule epidermal protoplasts (prefiber cells) and analysis of the regenerated wall

Culture protocols were developed and characterization of the regenerated cell walls was performed for protoplasts of cotton (Gossypium hirsutum L., L., var. Acala SJ-2) ovule epidermal cells. This work was undertaken in order to extend studies concerning nutritional effects and regulation of nucleotide sugar incorporation into -1,3- and -1,4-glucan components of cotton fiber cell walls. Protein and carbohydrate polymers and recovered from the culture medium. Analysis of a cellular fraction indicated that the majority of ¹⁴C incorporated from [¹⁴C] glucose was present in the hot-water-soluble fraction of the cells. The majority of label incorporated into cell wall material could be solubilized with acetic-nitric reagent, indicative of noncellulosic material, and characterized as -1,3-linked glucans. Only 5 to 15% of the regenerated cell wall could be characterized as -1,4-linked glucose indicative of cellulose.     

Boron nitride nanotube based nanosensor for acetone adsorption: a DFT simulation

We have investigated the adsorption properties of acetone on zigzag single-walled BNNTs using density functional theory (DFT) calculations. The results obtained show that acetone is strongly bound to the outer surface of a (5,0) BNNT on the top site directly above the boron atom, with a binding energy of ?96.16 kJ?mol^?1 and a B–O binding distance of 1.654 Å. Our first-principles calculations also predict that the ability of zigzag BNNTs to adsorb acetone is significantly stronger than the corresponding ability of zigzag CNTs. A comparative investigation of BNNTs with different diameters indicated that the ability of the side walls of the tubes to adsorb acetone decreases significantly for nanotubes with larger diameters. Furthermore, the stability of the most stable acetone/BNNT complex was tested using ab initio molecular dynamics simulation at room temperature.

Analysis of binding of mannosides in relation to Langerin (CD207) in Langerhans cells of normal and transformed epithelia

Tandem-repeat C-type lectins (pattern-recognition receptors) with specificity for mannosides are intimately involved in antigen recognition, uptake, routing and presentation in macrophages and dendritic cells. In Langerhans cells, Langerin (CD207), a type-II transmembrane protein with a single C-type carbohydrate recognition domain attached to a heptad repeat in the neck region, which is likely to establish oligomers with an -coiled-coil stalk, has been implicated in endocytosis and the formation of Birbeck granules. The structure of Langerin harbours essential motifs for Ca²⁺-binding and sugar accommodation. Lectin activity has previously been inferred by diminished antibody binding to cells in the presence of the glycan ligand mannan. In view of the complexity of the C-type lectin/lectin-like network, it is unclear what role Langerin plays for Langerhans cells in binding mannosides. In order to reveal in frozen tissue sections to what extent mannose-binding activity co-localizes with Langerin, we have used a synthetic marker, i.e. a neoglycoprotein carrying mannose maxiclusters, as a histochemical ligand, and computer-assisted fluorescence monitoring in a double-labelling procedure. Mannoside-binding capacity was detected in normal epithelial cells. Double labelling ensured the unambiguous assessment of the binding of the neoglycoprotein in Langerhans cells. Light-microscopically, its localization profile resembled the pattern of immunohistochemical detection of Langerin. This result has implications for suggesting rigorous controls in histochemical analysis of this cell type, because binding of kit reagents, i.e. mannose-rich glycoproteins horseradish peroxidase or avidin, to Langerin (or a spatially closely associated lectin) could yield false-positive signals. To show that recognition of carbohydrate ligands in dendritic cells is not restricted to mannose clusters, we have also documented binding of carrier-immobilized histo-blood group A trisaccharide, a ligand of galectin-3, which was not affected by the presence of a blocking antibody to Langerin. Remarkably, access to the carbohydrate recognition domain of Langerin appeared to be impaired in proliferatively active environments (malignancies, hair follicles), indicating presence of an endogenous ligand with high affinity to saturate the C-type lectin under these conditions.     

Identification of the gene appA for the acid phosphatase (pH optimum 2.5) of Escherichia coli

Summary A strain of Escherichia coli exhibiting reduced activity of the periplasmic enzyme acid phosphoanhydride phosphohydrolase (pH 2.5 acid phosphatase) was isolated. The mutation designated appA1 was located at 22.5 min on the E. coli genetic map. Acid phosphatase purified from an appA ^–transductant showed less than ten percent of the specific activity of an isogenic appA ⁺strain. The mutant enzyme was highly thermolabile and its K_m for paranitrophenyl phosphate was increased about 20-fold. The mutant protein cross-reacted with antibody to the wild-type enzyme and had the same molecular weight and concentration in extracts as the wild-type enzyme. These findings strongly suggest that appA is the structural gene of the acid phosphatase.Abbreviations PNPP paranitrophenyl phosphate - cAMP 3-5-cyclic adenosine monophosphate - Nitrosoguanidine N-methyl-N'-nitro-N-nitrosoguanidine - TCY tetracycline - KAN kanamycin - STR streptomycin     

Bromophenol red as a probe of lysozyme-active site environment: a temperature-jump study.

Spectrophotometric techniques have been employed to study the binding of bromophenol red (BPR) to hen egg white lysozyme and the consequent inhibition of enzyme activity. Experimental evidence is given from the dye binding studies in the presence of hexasaccharide and from the studies on activity that BPR binds at a site outside the proposed cleft region (A–F) in such a way that it inhibits the lytic activity towards cell walls but does not inhibit the activity towards hexasaccharide. These observations are consistent with the kinetics of binding [studied using temperature-jump (T-jump)] in the presence of Co⁺⁺ or chitotriose in large concentrations and the experiments with acetylated lysozyme which suggest that the binding site of BPR is closer to a lysine residue near the cleft. It is suggested that the binding site of BPR could be important in positioning the peptide segment of the cell walls, which are cleaved in the cleft. Evidence for the statement that this binding takes place at least by a two-step process, in which the bimolecular step is followed by a slower monomolecular step, is given from the observations of two types of 1:1 complexes at 24°C in equilibrium studies and from the concentration dependence of the relaxation observed at 605 nm in the T-jump experiments. The binding process is examined by analyzing the T-jump data obtained between 18 and 33°C in the pH range 5.2–9.2 and ionic strength 0.01–01. The ionic strength and pH dependences of the equilibrium constant associated with the bimolecular step k₂/k₁ and the forward rate constant associated with monomolecular step k₃ have been given as evidence for the suggestion that a Coulombic interaction is involved in the first step of binding. However, the final state of binding is hydrophobic in nature. The enthalpy of activation ΔH and the entropy of activation ΔS associated with k_f[= k₃(k₁/k₂)] showed compensation behavior with pH variation, with maxima around pH ～ 7.5 in H₂O. This has been interpreted as a maximal disordering of water structure in a region of the enzyme at this pH during the monomolecular step. However, the binding of chitotriose or Co⁺⁺ in the cleft reduces the ΔH and ΔS associated with the monomolecular step of BPR binding, probably by disordering the structured water during their binding in the cleft. The differences in the kinetic parameters obtained in H₂O and in D₂O probably arise due to subtle differences in the conformation of the enzyme in the two solvents and apart from isotope effects. The correlation between the pH (or pD) dependence of the “intrinsic activity” towards cell walls and ΔH or ΔS indicates that ordered water structure could be playing a role in controlling the catalytic activity. It is also suggested that this factor is associated with the rate constant k₃^s of the monomolecular step leading to the formation of the final bound state of the substrate in cell lysis, which is also a factor controlling k_cat.     

Biotransformation of antibiotics

Summary The absence of a lag period in the bioconversion of chloramphenicol by spores and the pronounced influence of the pH of the medium on this reaction strongly suggested that chloramphenicol acetyltransferase (CAT) is located at or near the surface of the spores of Streptomyces griseus. A two-hour exposure of spores to dilute solutions of -mercaptoethanol or surfactants resulted in significant decrease in activity even in the presence of glucose as an energy source. However, the inclusion of any of the reagents in the reaction mixture neither influenced the conversion activity nor the spore viability. These treatments did not reveal any cryptic activity for CAT in the spores. In addition, more drastic treatment of the spores with ethylenediaminetetraacetate (EDTA) or with concentrated salt solutions did not reduce the activity nor significantly affect the spore viability. Considering the modes of action of -mercaptoethanol and the surfactants, a combination of disulfide bridges and lipoprotein interactions may be responsible for the binding of CAT to the surface of the spore. Moreover, results of acid treatment of intact spores indicated that most of CAT activity, if not all, is located at the spore surface. Incorporation of ¹⁴C-acetate by cell-free extracts of Streptomyces griseus clearly showed that CAT selectively catalyzed the formation of chloramphenicol-3-acetate at an optimum pH of 6.5. The shape of the pH-activity curve in cell-free extracts is essentially identical to that of the enzyme in intact spores and is additional evidence that the enzyme is located at the spore surface.     

Ca2+ and Mn2+ mediated binding of the glycoprotein peroxidase to membranes of Pharbitis cotyledons

Ca²⁺ and Mn²⁺ promote the binding of the basic isoperoxidase to a crude membrane preparation in extracts from Pharbitis cotyledons. The Ca²⁺- or Mn²⁺-induced binding is resistant to high ionic strength and can be saturated by increasing the divalent ion or the isoperoxidase concentrations. Treatments in vitro with glucosaminidase or in vivo with tunicamycin show that the carbohydrate part of the isoperoxidase is necessary for the binding. The amino sugar galactosamine inhibits the binding at rather high concentrations. Pharbitis basic isoperoxidase can be bound to zucchini squash microsomes in the presence of Ca²⁺ and conversely.     

Cell wall-lytic activity in Chlorella fusca

The soluble fraction of homogenates of synchronous Chlorella fusca was tested for carbohydrate-lyzing activities. With isolated cell walls and -1,4-mannan or carboxymethyl cellulose as substrates, a sharp increase in activity occurred shortly before release of the daughter cells followed by a decline during release. The lytic activities were partially purified by ammonium sulphate precipitation and analyzed by gel filtration on a calibrated column. Apparent molecular weights were 27,000 for cell wall autolysin(s) and -1,4-mannanase, 36,000 for carboxymethyl cellulase and 70,000 for another -1,4-mannanase. Incubation of isolated cell walls with an enzyme preparation purified by ammonium sulphate precipitation resulted in release of up to 70% of the cell wall carbohydrate as monosaccharide, predominantly mannose and glucose. The carbohydrate released in vivo into the culture medium shortly before and during liberation of the daughter cells consisted largely of polymeric material with rhamnose, fucose and mannose as main constitutents. Upon poisoning the cells with NaN₃ or carbonyl cyanide p-trifluoromethoxy-phenylhydrazone, however, a monosaccharide fraction consisting of mannose and glucose was predominant in the medium. It is suggested that the major products of cell wall lysis in vivo are monosaccharides which are rapidly taken up and metabolized by the developing daughter cells in an energy-dependent manner.     

The plasma membrane ofPhysarum cell fragments: a morphological and electrophysiological study

Summary Small, spherical cell fragments derived from macroplasmodia of the acellular slime moldPhysarum polycephalum by incubation in a 15 mM caffeine solution were investigated with morphological and electrophysiological techniques. Analysis of cell surface composition with the fluorescence microscope and different RITC-conjugated lectins revealed strong binding of ConA and RCA-I, weak binding of PEA, DBA and WGA and no binding of UEA-I. In addition, binding sites for external calcium ions were detected by chlorotetracycline-fluorescence. Electron microscopical staining with ruthenium red, iron or lanthanum delivered evidence for localization of lectin and calcium binding sites in a thin mucous layer on the cell surface.Electrical recordings by means of intracellular microelectrodes yielded an average membrane potential (MP) of –113 mV. Spontaneous depolarizations of the MP, with amplitudes between 10 and 80 mV and a duration of 20–30 s, failed to show a correlation with contractile activity. The ionic nature of MP was studied by varying the composition of the perfusing medium. The MP was not much affected by changes in external [Ca²⁺], [K⁺], or [Na⁺] but was sensitive to changes in [Cl^–] or [H⁺], with a linear dependence on pH₀ in the range between 7 and 5. Metabolic inhibition by potassium cyanide or low temperature (11°C) as well as application of the protonophore CCCP caused a depolarization of the MP. The results strongly support the hypothesis that the MP inPhysarum cell fragments is mainly generated by an electrogenic H⁺-extrusion mechanism.Abbreviations CCCP carbonylcyanide-m-chlorophenylhydrazone - ConA Concanavalin agglutinin - CTC chlorotetracycline - DBA Dolichos biflorus agglutinin - EGTA ethylene glycol-bis(-amino ethylether) N,N,N,N-tetracetate - PBS phosphate-buffered saline - PEA Peanut agglutinin - PIPES 1,4-piperazinediethanesulfonic acid - RCA-I Ricinus communis agglutinin I - RITC rhodamine isothiocyanate - SBA Soy bean agglutinin - UEA-I Ulex europeaeus agglutinin I - WGA Wheat germ agglutinin The paper is dedicated to Prof. Dr. K. E. Wohlfarth-Bottermann on the occasion of his 65th birthday.     

Functional intracellular glutaminase activity in intact astrocytes

Numerous cellular metabolites such as glutamine, glutamate, phosphate, calcium, ammonia and acetyl derivatives are known to affect the phosphate-activated glutaminase activity in whole cell homogenates or extracts. Since measurements in extracts under non-physiological conditions may obscure the actual intracellular metabolic flux, the functional intracellular phosphate-activated glutaminase activity was measured by the formation of³H₂O froml-[2-³H]glutamine (Anal. Biochem. 127:134–142, 1982) in cultures of intact astrocytes, untreated and treated with dibutyryl c-AMP (DiBcAMP), in the presence of several potential effectors. These values were compared with enzyme levels determined in extracts from identical cells. The rate of¹⁴CO₂ release froml-[1-¹⁴C]glutamine was also measured in both untreated and DiBcAMP treated astrocytes. The intracellular activity of glutaminase for untreated cells assayed in MEM medium with 1mM radioactive glutamine was 88 nmol/mg protein/h and in DiBcAMP treated cells the rate was 153 nmol/mg protein/h. However, the enzymatic activity measured under optimal conditions in extracts from both untreated and treated cells was much higher, but essentially the same, about 1,750 nmol/mg protein/h. The rate of¹⁴CO₂ release froml-[1-¹⁴C]glutamine was 74 and 133 nmol/mg protein/h in untreated and DiBcAMP treated cells, respectively. This represents approximately 85% of the intracellular glutaminase activity. Furthermore, increasing the concentration of glutamine in the medium from 1 to 6.4 mM increased glutaminase intracellular activity about 3 fold in both untreated and treated cells. Addition of 250 M glutamate to the medium inhibited intracellular glutaminase activity by 70% under both treatment conditions. Deletion of glucose stimulated glutaminase activity. In contrast the removal of fetal bovine serum decreased activity by 35%. The addition of 10 mM phosphate and the alpha keto acids of isoleucine and valine marginally increased intracellular glutaminase activity. The addition of 0.4 mM ammonium chloride to the medium had no effect. An increase in media pH from 6.8 to 7.7 increased intracellular glutaminase activity almost 2 fold. These results provide evidence that phosphate-activated glutaminase activity in vivo is regulated by cellular metabolites, that its functional activity is 5–9% of the rate obtained using extracts, and this functional activity is sufficient to account for the rate of glutamine oxidation.Special issue dedicated to Dr. Elling Kvamme     

Effects of Lectins on initial attachment of cariogenic <Emphasis Type="Italic">Streptococcus mutans</Emphasis>

Oral bacteria initiate biofilm formation by attaching to tooth surfaces via an interaction of a lectin-like bacterial protein with carbohydrate chains on the pellicle. This study aimed to find naturally derived lectins that inhibit the initial attachment of a cariogenic bacterial species, Streptococcus mutans (S. mutans), to carbohydrate chains in saliva in vitro. Seventy kinds of lectins were screened for candidate motifs that inhibit the attachment of S. mutans ATCC 25175 to a saliva-coated culture plate. The inhibitory effect of the lectins on attachment of the S. mutans to the plates was quantified by crystal violet staining, and the biofilm was observed under a scanning electron microscope (SEM). Surface plasmon resonance (SPR) analysis was performed to examine the binding of S. mutans to carbohydrate chains and the binding of candidate lectins to carbohydrate chains, respectively. Moreover, binding assay between the biotinylated-lectins and the saliva components was conducted to measure the lectin binding. Lectins recognizing a salivary carbohydrate chain, Galβ1-3GalNAc, inhibited the binding of S. mutans to the plate. In particular, Agaricus bisporus agglutinin (ABA) markedly inhibited the binding. This inhibition was confirmed by SEM observation. SPR analysis indicated that S. mutans strongly binds to Galβ1-3GalNAc, and ABA binds to Galβ1-3GalNAc. Finally, the biotinylated Galβ1-3GalNAc-binding lectins including ABA demonstrated marked binding to the saliva components. These results suggest that ABA lectin inhibited the attachment of S. mutans to Galβ1-3GalNAc in saliva and ABA can be useful as a potent inhibitor for initial attachment of oral bacteria and biofilm formation.     

L-Phenylalanine ammonia-lyase fromPhaseolus vulgaris: Modulation of the levels of active enzyme bytrans-cinnamic acid

The extractable activity ofl-phenylalanine ammonia-lyase (PAL; EC 4.3.1.5) in cell suspension cultures of bean (Phaseolus vulgaris) is greatly induced following exposure to an elicitor preparation from the cell walls of the phytopathogenic fungusColletotrichum lindemuthianum. Following exogenous application oftrans-cinnamic acid (the product of the PAL reaction) to elicitor-induced cells, the activity of the enzyme rapidly declines. Loss of enzyme activity is accompanied by inhibition of the rate of synthesis of PAL subunits, as determined by [³⁵S]methionine pulse-labelling followed by specific immunoprecipitation; this is insufficient to account for the rapid loss of PAL enzyme activity. Pulse-chase and immune blotting experiments indicate that cinnamic acid does not affect the rate of degradation of enzyme subunits, but rather mediates inactivation of the enzyme. A non-dialysable factor from cinnamicacid-treated bean cells stimulates removal of PAL activity from enzyme extracts in vitro; this effect is dependent on the presence of cinnamic acid. Such loss of enzyme activity in vitro is accompanied by an apparent loss or reduction of the dehydroalanine residue of the enzyme's active site, as detected by active-site-specific tritiation, although levels of immunoprecipitable enzyme subunits do not decrease. Furthermore, cinnamic-acid-mediated loss of enzyme activity in vivo is accompanied, in pulse-chase experiments, by a greater relative loss of³⁵S-labelled enzyme subunits precipitated by an immobilised active-site affinity ligand than of subunits precipitated with anti-immunoglobulin G. It is therefore suggested that a possible mechanism for cinnamic-acid-mediated removal of PAL activity may involve modification of the dehydroalanine residue of the enzyme's active site.Abbreviations AOPP l--aminoxy--phenylpropionic acid - CA trans-cinnamic acid - PAGE polyacrylamide gel electrophoresis - PAL l-phenylalanine ammonia-lyase - SDS sodium dodecyl sulphate