Purification and biochemical properties of a thermostable xylose-tolerant β-<Emphasis Type="SmallCaps">D</Emphasis>-xylosidase from <Emphasis Type="Italic">Scytalidium thermophilum</Emphasis>

The thermophilic fungus Scytalidium thermophilum produced large amounts of periplasmic -D-xylosidase activity when grown on xylan as carbon source. The presence of glucose in the fresh culture medium drastically reduced the level of -D-xylosidase activity, while cycloheximide prevented induction of the enzyme by xylan. The mycelial -xylosidase induced by xylan was purified using a procedure that included heating at 50°C, ammonium sulfate fractioning (30–75%), and chromatography on Sephadex G-100 and DEAE-Sephadex A-50. The purified -D-xylosidase is a monomer with an estimated molecular mass of 45 kDa (SDS-PAGE) or 38 kDa (gel filtration). The enzyme is a neutral protein (pI 7.1), with a carbohydrate content of 12% and optima of temperature and pH of 60°C and 5.0, respectively. -D-Xylosidase activity is strongly stimulated and protected against heat inactivation by calcium ions. In the absence of substrate, the enzyme is stable for 1 h at 60°C and has half-lives of 11 and 30 min at 65°C in the absence or presence of calcium, respectively. The purified -D-xylosidase hydrolyzed p-nitrophenol--D-xylopyranoside and p-nitrophenol--D-glucopyranoside, exhibiting apparent K_m and V_max values of 1.3 mM, 88 mol min^–1 protein^–1 and 0.5 mM, 20 mol min^–1 protein^–1, respectively. The purified enzyme hydrolyzed xylobiose, xylotriose, and xylotetraose, and is therefore a true -D-xylosidase. Enzyme activity was completely insensitive to xylose, which inhibits most -xylosidases, at concentrations up to 200 mM. Its thermal stability and high xylose tolerance qualify this enzyme for industrial applications. The high tolerance of S. thermophilum -xylosidase to xylose inhibition is a positive characteristic that distinguishes this enzyme from all others described in the literature.     

Partial purification and characterization of β-hydroxybutyric acid dehydrogenase of a methylotrophic bacterium,Pseudomonas 135

Summary An intracellular enzyme, d(—)--hydroxybutyric acid dehydrogenase involved in an intracellular poly-d(—)--hydroxybutyric acid degredation was isolated from a facultative methylotrophic bacterium, Pseudomonas 135, grown on methanol as a sole carbon and energy source. This enzyme was partially purified to 11.6-fold by ammonium sulphate fractionation and a dye-affinity chromatography. The enzyme catalysed simultaneously the oxidation of d(—)--hydroxybutyric acid (D-HB) and the reduction of acetoacetate. The optimum pH was 8.5 for the oxidation reaction and 5.5–6.0 for the reduction reaction, and the enzyme was stable for 2 weeks at — 20° C. The K _m values for oxidation and reduction reactions were determined as 1.84 mm for D-HB, 0.244 mm for NAD⁺, 0.319 mm for acetoacetate and 0.032 mm for NADH, respectively. It was also found that d-lactate and NADH significantly inhibited the oxidation reaction by competitive inhibition, and acetoacetate by non-competitive inhibition, respectively. The inhibition constants were determined as 1.49 mm for d-lactate, 0.196 mm for NADH and 1.82 mm for acetoacetate, respectively. According to an experiment with resting cells, it seemed that the enzyme was constitutive. Correspondence to: J. M. Lebeault     

Biosynthesis of gallotannins. Enzymatic conversion of 1,6-digalloylglucose to 1,2,6-trigalloylglucose

Cell-free extracts from Rhus typhina L. (staghorn sumach) leaves were found to catalyze the transfer of the galloyl moiety of -glucogallin (1-O-galloyl--D-glucose) to 1,6-di-O-galloyl--D-glucose, resulting in the specific formation of 1,2,6-tri-O-galloyl--D-glucose, an intermediate of gallotannin biosynthesis. The reaction product was unequivocally identified by co-chromatography with authentic references using reversed-phase high-performance liquid chromatography and by ¹H-nuclear-magnetic-resonance spectroscopy.Abbreviations HPLC high-performance liquid chromatography - NMR nuclear magnetic resonance     

Cellobiose phosphorylase (EC 2.4.1.20) of Cellulomonas: occurrence,induction, and its role in cellobiose metabolism

The occurrence of cellobiose cleavage by phosphorolysis and by hydrolysis was investigated in Cellulomonas spec., C. uda, C. flavigena, and C. cartalyticum. Cellobiose phosphorylase (EC 2.4.1.20) was shown to be produced by Cellulomonas spec. when cellobiose or cellulose was used as sole source of energy and carbon but not with glycerol or glucose. Using inhibitors of protein synthesis as well as double labelling techniques it was shown that cellobiose phosphorylase is synthesized de novo in Cellulomonas spec. Aryl--D-glucosidase which was shown to be present in crude extracts of this microorganism as well is not involved in cellobiose cleavage.Abbreviations oNPGluc ortho-nitrophenyl--D-glucopyranoside - oNPGlucase ortho-nitrophenyl--D-glucopyranoside hydrolase (aryl--D-glucosidase) - CMC carboxymethyl-cellulose - CMCase carboxymethyl-cellulase - PAGE polyacrylamde disc gel electrophoresis Parts of this work were presented on the Herbsttagung der Gesellschaft für Biologische Chemie (Schimz et al. 1979) and on the 14th FEBS Meeting (Schimz et al. 1981)     

Exocellular pyruvate-containing galactoglucan ofAchromobacter spp.

Exopolysaccharides of a number of slime-producingAchromobacter strains, isolated from activated sludge, were prepared and analysed. They consist ofD-glucose,D-galactose, pyruvic acid and O-acetyl in the approximate molar ratio of 1:1:1:1/2. The polysaccharides were shown by methylation and partial hydrolysis to consist of unbranched chains of alternately arrangedD-glucose andD-galactose residues, exclusively linked by -1,3-linkages, and with pyruvate substituents linked by acetal bonds at positions 0–4 and 0–6 of theD-galactose residues. The significance of the exopolysaccharides in relation to some relevant properties of activated sludge organisms is discussed.     

Antioxidant and antiviral activities ofEuphorbia thymifolia L.

The antioxidant and antiviral activities ofEuphorbia thymifolia L. (Euphorbiaceae) were investigated in this study. The results showed that all of the fractions (MeOH, CHCl₃, EtOAc, n-butanol and water) and pure compounds (3-O-galloyl-4,6-(S)-HHDP-D-glucose, rugosin B and 1,3,4,6-tetra-O-galloyl-K--D-glucose)tested possessed antioxidant activities, with the exception of the organic aqueous fraction in the anti-lipid and anti-super-oxide formation assays. The range of IC₅₀ of anti-lipid formation, anti-superoxide formation and free radical scavenging assays for all fractions and pure compounds were 2.81–7.63, 0.03–2.18 and 0.013–2.878 mg/ml, respectively. Electron spin resonance studies showed that water extract and pure compounds ofE. thymifolia exhibited superoxide radical and hydroxyl radical scavenging activities. Besides antioxidant activities, 3-O-galloyl-4,6-(S)-HHDP-D-glucose and EtOAc fraction also showed anti-HSV-2 activity. Thus,E. thymifolia was concluded to possess antioxidant and anti-HSV-2 activities.     

The formation,vacuolar localization,and tonoplast transport of salicylic acid glucose conjugates in tobacco cell suspension cultures

The metabolism of salicylic acid (SA) in tobacco (Nicotiana tabacum L. cv. KY 14) cell suspension cultures was examined by adding [7–¹⁴C]SA to the cell cultures for 24 h and identifying the metabolites through high performance liquid chromatography analysis. The three major metabolites of SA were SA 2-O--D-glucose (SAG), methylsalicylate 2-O--D-glucose (MeSAG) and methylsalicylate. Studies on the intracellular localization of the metabolites revealed that all of the SAG associated with tobacco protoplasts was localized in the vacuole. However, the majority of the MeSAG was located outside the vacuole. The tobacco cells contained an SA inducible SA glucosyltransferase (SAGT) enzyme that formed SAG. The SAGT enzyme was not associated with the vacuole and appeared to be a cytoplasmic enzyme. The vacuolar transport of SAG was characterized by measuring the uptake of [¹⁴C]SAG into tonoplast vesicles isolated from tobacco cell cultures. SAG uptake was stimulated eightfold by the addition of MgATP. The ATP-dependent uptake of SAG was inhibited by bafilomycin A₁ (a specific inhibitor of the vacuolar H⁺-ATPase) and dissipation of the transtonoplast H⁺-electrochemical gradient. Vanadate was not an inhibitor of SAG uptake. Several -glucose conjugates were strong inhibitors of SAG uptake, whereas glutathione and glucuronide conjugates were only marginally inhibitory. The SAG uptake exhibited Michaelis–Menten type saturation kinetics with a K_m and V_max value of 11 M and 205 pmol min^–1 mg^–1, respectively, for SAG. Based on the transport characteristics it appears as if the vacuolar uptake of SAG in tobacco cells occurs through an H⁺-antiport-type mechanism.     

A membrane-bound enzyme complex synthesising glucan and glucomannan in pine tissues

Particulate membrane preparations isolated from cambial cells and differentiating and differentiated xylem cells of pine (Pinus sylvestris L.) trees synthesised [¹⁴C]glucans using either guanosine 5-diphosphate (GDP)-D-[U-¹⁴C]glucose or uridine 5-diphosphate (UDP)-D-[U-¹⁴C]glucose as glycosyl donors. Although these glucans had -(13) and -(14) linkages in an approximate ratio 1:1, the distribution of the linkages in the glucan synthesised from GDP-D-glucose was different from that synthesised from UDP-D-glucose. The synthesis of the mixed -(13) and -(14) glucan from GDP-D-[U-¹⁴C]glucose was changed to that of -(14) glucomannan in the presence of increasing concentrations of GDP-D-mannose. The glucan formed from UDP-D-[U-¹⁴C]glucose was not affected by any concentration of GDP-D-mannose. The membrane preparations epimerized GDP-D-glucose to GDP-D-mannose; however, the low amount of GDP-D-mannose formed was not incorporated into the polymer becaus the affinity of the synthase for GDP-D-glucose was much greater than that for GDP-D-mannose. The glucan formed from GDP-D-glucose and the glucomannan formed from GDP-D-glucose together with GDP-D-mannose were characterized. The apparent K _m and V _max of the glucan synthase for GDP-D-glucose were 6.38 M and 5.08 M·min^-1, respectively. No lipid intermediates were detected during the synthesis of either glucan or glucomannan. The results indicated that an enzyme complex for the formation of the glucomannan was bound to the membrane.Abbreviations GDP guanosine 5-diphosphate - GLC gasliquid chromatography - UDP trridine 5-diphosphate     

Conformation of concanavalin A and its fragments in aqueous solution and organic solvent-water mixtures

The conformations of concanavalin A (con A), an all- protein, and its three CNBr-cleaved fragments were studied by CD. Con A in buffer showed a 197 nm maximum and a 223 nm minimum, which were red-shifted by 6–7 nm from those of regular all- proteins and -sheet of (Lys) _n . Fragment 1 (residue 1–42) resembled an unordered form with a CD maximum at 200 nm, but fragments 2 (residues 43–129) and 3 (residues 130–237) showed a regular CD spectrum with two extrema at 192–193 nm (+) and 214–216 nm (–). Equimolar mixture of the three fragments showed some degree of interaction, but did not reconstitute the conformation of native con A, probably because of the loss of bound Ca²⁺ and Mn²⁺ ions in the fragments. In ethanol-, methanol-, and dioxane-water mixed solvents, con A and its fragments remained as -sheet. In contrast, addition of trifluoroethanol and sodium dodecyl sulfate induceda-helix at the expense of -sheet for con A and its fragments in aqueous solution. In 80% trifluoroethanol, the induced helicities exceeded their sequence-predicted helix-potentials, but in 10 mM sodium dodecyl sulfate the helicities agreed well with corresponding predictions.     

Enzymic synthesis of the trisaccharide core region of the carbohydrate chain ofN-glycoprotein

Transmannosylation from mannotriose (Man1-4Man1-4Man) to the 4-position at the nonreducing end N-acetylglucosaminyl residue ofN,N-diacetylchitobiose was regioselectively induced through the use of -d-mannanase fromAspergillus niger. The enzyme formed the trisaccharide Man1-4GlcNAc1-4GlcNAc (3.7% of the enzyme-catalysed net decrease ofN,N-diacetylchitobiose) from mannotriose as a donor andN,N-diacetylchitobiose as an acceptor. Mannobiose (Man1-4Man) was also shown to be useful as a donor substrate for the desired trisaccharide synthesis.Abbreviations Man d-mannose - (M _n) (n=1–5) -linkedn-mer of mannose - GlcNAc₂ 2-acetamido-2-deoxy--d-glucopyranosyl-(1–4)-2-acetamido-2-deoxy-d-glucose     

Initial steps of αand β-d-glucose binding to intact red cell membrane

Summary The kinetics of the initial phases of d-glucose binding to the glucose transport protein (GLUT1) of the human red cell can be followed by stopped-flow measurements of the time course of tryptophan (trp) fluorescence enhancement. A number of control experiments have shown that the trp fluorescence kinetics are the result of conformational changes in GLUT1. One shows that nontransportable l-glucose has no kinetic response, in contrast to d-glucose kinetics. Other controls show that d-glucose binding is inhibited by cytochalasin B and by extracellular d-maltose. A typical time course for a transportable sugar, such as d-glucose, consists of a zero-time displacement, too fast for us to measure, followed by three rapid reactions whose exponential time courses have rate constants of0.5–100 sec^+–1 at 20°C. It is suggested that the zero-time displacement represents the initial bimolecular ligand/GLUT1 association. Exponential 1 appears to be located at, or near, the external membrane face where it is involved in discriminating among the sugars. Exponential 3 is apparently controlled by events at the cytosolic face. Trp kinetics distinguish the K _d of the epimer, d-galactose, from the K _dfor d-glucose, with results in agreement with determinations by other methods. Trp kinetics distinguish between the binding of the - and -d-glucose anomers. The exponential 1 activation energy of the -anomer, 13.6 ± 1.4 kcal mol^+–1, is less than that of -d-glucose, 18.4 ± 0.8 kcal mol^+–1, and the two Arrhenius lines cross at 23.5°C. The temperature dependence of the kinetic response following -d-glucose binding illustrates the interplay among the exponentials and the increasing dominance of exponential 2 as the temperature increases from 22.3 to 36.6°C. The existence of these interrelations means that previously acceptable approximations in simplified reaction schemes for sugar transport will now have to be justified on a point-to-point basis.We should like to express our thanks to Michael R. Toon for his important contributions. This work was supported in part by a grant-in-aid from the American Heart Association, by the Squibb Institute for Medical Research and by The Council for Tobacco Research.     

Production of steroid-ring-B-seco acid from β-sitosterol and influence of surfactants on sterol uptake in Nocardia sp. M 29–40

Summary The effect of several parameters (temperature; pH; main carbon source; time and amount of -sitosterol addition; Tween 20, 40, 60, 80; Span 20; pluronic F 68, L 64) on the conversion of -sitosterol to 3-(5-hydroxy-7a-methyl-1-oxo-3a-H-hexahydroindan-4-yl) propionic acid (I) by Nocardia sp. M. 29–40 was investigated. A maximal theoretical yield of 65 mol% I (with respect to substrate added) could be achieved during cultivation at pH 8.0 in presence of 6 g/l Tween 40 or Tween 60. Tween 40 and Tween 60 stimulate -sitosterol cooxidation not by improving the substrate suspension but by providing a fatty acid component as precursor for biosynthesis of surface active cell wall lipids.In memory of Professor David Perlmann     

Anti-diabetic activity of <Emphasis Type="Italic">β</Emphasis>-glucans and their enzymatically hydrolyzed oligosaccharides from <Emphasis Type="Italic">Agaricus blazei</Emphasis>

-Glucans were prepared from Agaricus blazei Murill by repeated extraction with hot water. The average molecular weights of -glucans were 30–50 kDa by gel filtration chromatography. Oligosaccharides (AO), derived from hydrolyzing -glucans with an endo--(16)-glucanase from Bacillus megaterium, were mainly di- and tri-saccharides. Though -glucans and AO both showed anti-hyperglycemic, anti-hypertriglyceridemic, anti-hypercholesterolemic, and anti-arteriosclerotic activity indicating overall anti-diabetic activity in diabetic rats, AO had about twice the activity of -glucans with respect to anti-diabetic activity.     

Mannosyl-β(1-4)-N-acetylglucosaminyl-β(1-N)-urea,a compound isolated from the urine of patients with β-mannosidosis

A previously unknown substance, mannosyl-(1–4)-N-acetylglucosaminyl-(1-N)-urea, has been isolated from the urine of patients with -mannosidosis in addition to the main metabolite mannosyl-(1–4)-N-acetylglucosamine. Structural investigation was carried out by fast atom bombardment mass spectrometry and high-resolution¹H-nuclear magnetic resonance spectroscopy at 500 MHz. It was postulated that the occurrence of this carbohydrate-urea conjugate in urine results mainly from urine handling.     

Expression of a β-galactosidase gene from Lactobacillus sake in Escherichia coli

Summary A -galactosidase gene from Lactobacillus sake coding for lactose hydrolysis was cloned and expressed in Escherichia coli. Chromosomal DNA from L. sake was partially digested with the restriction enzyme Sau3AI, and the 3–6 Kb fragment was ligated to the cloning vector pSP72 digested with BamHI. One E. coli transformant expressing -galactosidase was isolated on X-gal plates. It contained a plasmid with an insertion of approx. 4 Kb. The restriction map of the recombinant plasmid was constructed. The characteristics of the recombinant -galactosidase were compared with those of the wild type. The optima pH and temperature for both enzymes was 6.5 and 50°C, respectively. Stability of the enzymes at different temperatures and activity on lactose were determined.     

Absorption and fluorescence spectra ofS-quinolylethylated Kunitz soybean trypsin inhibitor

Disulfide bonds in soybean trypsin inhibitor (Kunitz) were simultaneously reduced and alkylated using tri-n-butylphosphine and 2-vinylquinoline at pH 7.6 in 0.11 M Tris-4.4 M urea, 41% ethanol. The resulting S--2-quinolylethylated protein (2-QE-STI) has a new absorption peak at 315–318 nm. Its quinoline fluorescence can be excited above 310 nm independently of intrinsic protein fluorescence. Free 2-quinolylethylcysteine (2-QEC) shows unexpectedly weak fluorescence. Quinoline absorption in 2-QEC and 2-QE-STI changes with pH. The apparentpK values determined spectrophotometrically are near 5 for 2-QEC and 3 for 2-QE-STI. Fluorescence decreased with increasing pH and in the presence of chloride ions. Both structural and charge effects thus appear to influence the absorption and fluorescence of the quinoline group. Corrected fluorescence emission (excited at 316 nm) of neutral 2-QE-STI diluted in 0.1 N H₂SO₄ was directly proportional to concentration in the range 0.4–8 m 2-QEC. The 2-QEC content of the protein derivative determined by UV absorption at pH 1.5 was in agreement with the expected value of four residues per mole. Fluorescence measurements ofS-2-quinolylethylated proteins may be especially useful as a sensitive, specific assay for cyst(e)ine residues.Reference to a company or product name does not imply approval or recommendation of the product by the U.S. Department of Agriculture to the exclusion of others that may be suitable.Abbreviations used are Mops: 3-(N-morpholino)propanesulfonic acid; STI: soybean trypsin inhibitor (Kunitz); 2-PE-STI:S--2-pyridylethylated STI; 2-QEC:S--(2-quinolylethyl)-l-cysteine; 2-QE-STI:S--2-quinolylethylated STI; TosPheCH₂-trypsin: bovine trypsin treated withp-toluenesulfonyl phenylalanine chloromethyl ketone.     

Properties of an intracellular β-glucosidase purified from the cellobiose-fermenting yeast Candida wickerhamii

An intracellular -glucosidase was isolated from the cellobiose-fermenting yeast, Candida wickerhamii. Production of the enzyme was stimulated under aerobic growth, with the highest level of production in a medium containing cellobiose as a carbohydrate source. The molecular mass of the purified protein was approximately 94 kDa. It appeared to exist as a dimeric structure with a native molecular mass of about 180 kDa. The optimal pH ranged from 6.0 to 6.5 with p-nitrophenyl -d-glucopyranoside (NpGlc) as a substrate. The optimal temperature for short-term (15-min) assays was 35°C, while temperature-stability analysis revealed that the enzyme was labile at temperatures of 28° C and above. Using NpGlc as a substrate, the enzyme was estimated to have a K _m of 0.28 mM and a V _max of 525 mol product min^–1 mg protein^–1. Similar to the extracellular -glucosidase produced by C. wickerhamii, this enzyme resisted end-product inhibition by glucose, retaining 58% of its activity at 100 mM glucose. The activity of the enzyme was highest against aryl -1,4-glucosides. However, p-nitrophenyl xylopyranoside, lactose, cellobiose, and trehalose also served as substrates for the purified protein. Activity of the enzyme was stimulated by long-chain n-alkanols and inhibited by ethanol, 2-propanol, and 2-butanol. The amino acid sequence, obtained by Edman degradation analysis, suggests that this -glucosidase is related to the family-3 glycosyl hydrolases.     

Metal Cations Defibrillize the Amyloid Beta-Protein Fibrils

Amyloid beta-protein (A) is the major constituent of amyloid fibrils composing -amyloid plaques and cerebrovascular amyloid in Alzheimer's disease (AD). We studied the effect of metal cations on preformed fibrils of synthetic A by Thioflavin T (ThT) fluorescence spectroscopy and electronmicroscopy (EM) in negative staining. The amount of cross beta-pleated sheet structure of A 1–40 fibrils was found to decrease by metal cations in a concentration-dependent manner as measured by ThT fluorescence spectroscopy. The order of defibrillization of A 1–40 fibrils by metal cations was: Ca²⁺ and Zn²⁺ (IC₅₀ = 100 M) > Mg²⁺ (IC₅₀ = 300 M) > Al³⁺ (IC₅₀ =1.1 mM). EM analysis in negative staining showed that A 1–40 fibrils in the absence of cations were organized in a fine network with a little or no amorphous material. The addition of Ca²⁺, Mg²⁺, and Zn²⁺ to preformed A 1–40 fibrils defibrillized the fibrils or converted them into short rods or to amorphous material. Al³⁺ was less effective, and reduced the fibril network by about 80 % of that in the absence of any metal cation. Studies with A 1–42 showed that this peptide forms more dense network of fibrils as compared to A 1–40. Both ThT fluorescence spectroscopy and EM showed that similar to A 1–40, A 1–42 fibrils are also defibrillized in the presence of millimolar concentrations of Ca²⁺. These studies suggest that metal cations can defibrillize the fibrils of synthetic A.     

Characterization,cloning and sequencing of a thermostable endo-(1,3–1,4) β-glucanase-encoding gene from an alkalophilic Bacillus brevis

A Bacillus brevis gene coding for an endo-(1,3–1,4)--glucanase was cloned in Escherichia coli and sequenced. The open reading frame contains a sequence of 759 nucleotides encoding a polypeptide of 252 amino acid residues. The amino acid sequence of the -glucanase gene showed only a 50% similarity to previously published data for Bacillus endo-(1,3–1,4)--glucanases. The optimum temperature and pH for enzyme activity were 65–70°C and 8–10, respectively. When held at 75°C for 1 h, 75% residual activity was measured. The molecular mass was estimated to be about 29 kDa on sodium dodecyl sulphate (SDS)-polyacrylamide gel electrophoresis and the enzyme was found to be resistant to SDS. Correspondence to: T. G. Watson     

Activation of LA-N-2 Cell Phospholipase D by Amyloid Beta Protein (25–35)

Amyloid protein is the major protein component of neuritic plaques found in the brain of Alzheimer's disease. The activation of phospholipase D by amyloid beta protein (25–35), quisqualate and phorbol 12, 13-dibutyrate was investigated in LA-N-2 cells by measuring phosphatidylethanol formation. The activation of phospholipase D by quisqualate and AP (25–35) was calcium-independent. The AP (25–35) and quisqualate activation of phospholipase D appeared to be mediated through a pertussis toxin-sensitive GTP-binding protein. Phospholipase D activation by AP (25–35), quisqualate and phorbol dibutyrate was not blunted by the protein kinase C inhibitors, staurosporine, H-7 and RO-31-8220. However, it was abolished by overnight exposure to phorbol dibutyrate. This activation of phospholipase D was prevented by the tyrosine kinase inhibitor, genistein but not by tyrophostin A. Several excitatory amino acid antagonists were tested for their ability to prevent the phospholipase D activation by quisqualate and AP (25–35). Only NBQX was effective with an IC₅₀ of 75 M for AP (25–35) and quisqualate. Activation of phospholipase D by AP or quisqualate was absent in LA-N-2 cells previously desensitized by quisqualate or AP (25–35), but the activation by phorbol dibutyrate was unaltered. The responsiveness to AP and quisqualate in previously desensitized cells reappeared subsequent to a period of resensitization. The observations with the antagonist NBQX, and the desensitization and resensitization experiments, are consistent with a receptor occupancy mediated activation of phospholipase D by quisqualate and by AP (25–35).