Cholinergic receptors in human hippocampus-- regional distribution and variance with age

The anterio-posterior distribution of cholinergic receptor binding sites in human hippocampus (five parts) as well as the effect of age (age range 3 days - 85 years) on receptor properties has been studied. Muscarinic binding sites was measured using labelled quinuclidinyl benzilate (³H-QNB) as ligand and labelled tubocurarine (³H-TC) was used for measurement of nicotine-like binding sites.The highest number of ³H-QNB binding sites in human hippocampus was measured at 3 days and 3 weeks of age and the lowest at 82 years of age. The proportion of high and low affinity muscarinic binding sites respectively was about the same at all ages investigated.A decrease in ³H-QNB binding sites with age was found in the anterior parts of the hippocampus (age range 55–84 years). When individual data for number of ³H-TC binding sites were plotted against corresponding number of ³H-QNB binding sites a strong correlation was observed in most of the different regions of the hippocampus.     

Decrease in the number of high-affinity opiate binding sites during the aging process inMytilus edulis (Bivalvia)

As Mytilus edulis(Bivalvia) ages, the number of stereospecific opiate binding sites in the visceral ganglia significantly decreases. The number of high-affinity etorphine sites decreased by 30%; the number of naloxone sites decreased by 23%. The affinity of the ligands did not vary with age. In addition, the augmentation by opioids of dopamine levels in the visceral ganglia was less in older animals and was accompanied by a reduced sensitivity of the ganglia to etorphine and DAMA (d-Ala ²,Met⁵-enkephalinamide).     

Glutamate receptor changes in brain synaptic membranes from human alcoholics

Brains from human alcoholics and non-alcoholics were obtained shortly after death. The hippocampus was dissected, homogenized, and processed for the isolation of a synaptic membraneenriched fraction and the study ofl-[³H]glutamic acid and 3-((±)-2-carboxypiperazin-4-yl)-[1,2³H]propyl-l-phosphonic acid ([³H]CPP) binding sites. The pharmacological characteristics ofl-[³H]glutamic acid binding to synaptic membranes isolated from hippocampus corresponded to the labeling of a mixture of N-methyl-d-aspartate (NMDA), kainate and quisqualic acid receptor sites. Synaptic membranes prepared from the hippocampus of individuals classified as alcoholics had significantly higher density of glutamate binding sites than identically prepared membranes from non-alcoholic individuals. In addition, there was a clear definition of a population ofl-glutamate binding sites (approx. 10% of total) in the membranes from alcoholics that had a higher affinity for the ligand than the major set of sites labeled in membranes from both alcoholics and non-alcoholics. Neither the age of the individuals at the time of death nor the time that elapsed between death and processing of brain tissue were significant factors in determining either recovery of purified synaptic membranes from brain homogenates orl-[³H]glutamate binding to synaptic membranes. In order to determine whether some of the changes inl-[³H]glutamic acid binding were due to alterations in binding at the NMDA receptor subtype, we also measured binding of [³H]CPP to extensively washed crude synaptosomal membranes. Membranes from brains of alcoholics had higher affinity (3-fold) for [³H]CPP but lower binding capacity (3-fold) when compared with those of non-alcoholics. These observations suggest selective changes among different glutamate receptor subtypes in human brain under conditions of chronic alcohol intake.     

[3H]2-amino-6,7-dihydroxy-1,2,3,4-tetrahydronaphthalen (ADTN)

The regional distribution and in vivo binding of the dopamine analog 2-amino-6,7-dihydroxy-1,2,3,4-tetrahydronaphthalen (ADTN) was studied in the brain. The highest density of binding sites was in the striatum, with virtually no binding in the cerebellum. The binding of [³H]ADTN reflects an occupation of specific dopamine sites because the binding was diminished by the simultaneous administration of the dopamine antagonist haloperidol or the dopamine precursorl-3,4-dihydroxyphenylalanine (l-dopa). Chronic administration of haloperidol orl-dopa prior to assaying for in vivo binding resulted in an increase in the number of sites for [³H]ADTN which correlates to the increase observed in in vitro assays following long-term treatment with these agents. The subcellular distribution of in vivo labeled ADTN sites in the caudate nucleus indicate a high density of specific binding sites in the microsomal fraction, P₃. Overall, these data demonstrate that the aminotetralins, such as ADTN, which bind with high affinity to the dopamine receptor in the caudate nucleus in vitro and in vivo, can provide precise information on the topography of this receptor.     

l-[3H]lysine binding to rat retinal membrane: I. Quantitative determination and characterization of the binding sites

A saturable reversible binding to membranes from rat retina has been found forl-[³H]lysine. Specific binding is time, temperature and protein concentration-dependent, and shows stereospecificity. The best computer fits of the experimental data are obtalned with a receptor medel based on two independent binding sites, of which only one site with a K_d value of 229.4±14.23 nM and a B_max of 2.04 ±0.11 pmol/mg protein could be characterized satisfactorily. Several compounds included putative neurotransmitters have moderate or no affinity forl-lysine binding sites. A different pattern of distribution ofl-[³H]lysine binding sites is observed among various regions of the brain, with the highest density in the occipital cortex, and the lowest density in ponsmedulla.The existence of binding sites in rat retinal membranes forl-lysine, as well as in the areas involved in the visual pathway, suggests a role for this amino acid in the physiological mechanism of the visual function.     

Studies on lithium transport across the red cell membrane

Summary Binding of³H-saxitoxin to Na⁺ channels was studied in subcellular fractions prepared from rat brain homogenates. Saxitoxin binding to synaptosomes was saturable with an apparent dissociation constant of about 1nm; about 1 pmol/mg protein was bound at saturating saxitoxin concentrations. A linear, nonsaturable component of saxitoxin binding accounted for less than 3% of the total binding at 30nm. Saxitoxin binding to synaptosomes was unaffected by depolarization with elevated K⁺ concentrations, or by activation of the Na⁺ channels with batrachotoxin plus a purified polypeptide toxin from the scorpionLeiurus quinquestriatus. A procedure is described for preparing a membrane fraction that contains 70–80% of the total saxitoxin binding activity of the crude homogenate. The specific activity of this fraction was about 4 to 6 pmol/mg protein. About 60–70% of the saxitoxin binding sites were solubilized by incubating these membranes with the nonionic detergent Triton X-100; the detergent-solubilized binding sites eluted at a position corresponding to a mol wt of about 700,000 on gel filtration chromatography. Both membrane-bound and solubilized saxitoxin binding were assayed by a new cation exchange column method. The binding of saxitoxin to both membrane-bound and detergent-solubilized binding sites was saturable with an apparent dissociation constant of about 2nm. Dissociation of the saxitoxin-receptor complex followed a single exponential decay with a rate constant at 0° of 0.1 min^–1 for membrane bound and 0.2 min^–1 for detergent-solubilized binding sites. The measured association rate constant was 6×10⁸ m ^–1 min^–1 at 0° for membrane-bound saxitoxin binding sites.     

l-[3H]lysine binding to rat retinal membrane: II. effect of kainic acid,d,l-α-aminoadipic acid,iodoacetic acid,and modification by dark-exposure

The rat retina and the different brain regions contain membranes sites that bindl-lysine in the nanomolar range. These binding sites undergo changes in different experimental conditions, thus: I) intraocular injection of kainic acid induces a reduction of the density ofl-lysine binding sites, II)d,l--aminoadipic acid injected into the eye enhances both kinetic parameters (B _max andK _d) ofl-[³H]lysine binding sites, III) the intraperitoneal injection of iodoacetic acid decreases the sensitivity for its ligand binding sites, and IV) the exposure to darkness of the rats reducesl-[³H]lysine binding in the retina, thalamus, hypothalamus and superior colliculus, but not in the occipital cortex; such a decrease appears to be characterized, at least in the retina, by a lower sensitivity of the binding sites forl-lysine after the exposure to darkness. The results show thatl-lysine binding sites are located on kainic acid-sensitive cells and can be involved in the physiological mechanism of vision.     

Characterization of quisqualate recognition sites in rat brain tissue usingDl-[3H]α-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA) and a filtration assay

The binding of [³H]AMPA (Dl--amino-3-hydroxy-5-methylisoxazole-4-propionic acid), a ligand for the putative quisqualate excitatory amino acid receptor subtype, was evaluated using centrifugation and filtration receptor binding techniques in rat brain crude synaptosomal membrane preparations. Maximal specific binding of [³H]AMPA occurred in Triton X-100 treated membranes in the presence of the chaotropic agent potassium thiocyanate (KSCN). The effects of KSCN on binding were reversible and optimal at 100 mM. Supernatant obtained from detergent-treated membranes inhibited specific [³H]AMPA and [³H]kainic acid binding, suggesting the presence of an inhibitory agent which was tentatively identified as glutamate. Using centrifugation, saturation analysis revealed two distinct binding sites in both the absence and presence of KSCN. The chaotrope was most effective in increasing binding at the low affinity binding site, enhancing the affinity (K _d) without a concommitant change in the total number of binding sites. Using filtration, a single binding site was detected in Triton-treated membranes. Like the data obtained by centrifugation, KSCN enhanced the affinity of the receptor (K _d value=10 nM) without altering the number of binding sites (B _max=1.2 pmol/mg protein). The rank order of potency of various glutamate analogs in the [³H]AMPA binding assay was quisqualate > AMPA > l-glutamate > kainate > d-glutamate, consistent with the labeling of a quisqualate-type excitatory amino acid receptor subtype.l-glutamic acid diethylester, and 2-amino-7-phosphonoheptanoic acid (AP₇) were inactive. The present technique provides a rapid, reliable assay for the evaluation of quisqualate-type excitatory amino acid agonists and/or antagonists that may be used to discover more potent and selective agents.     

Effect of age on α-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA) binding sites in the rat brain studied by in vitro autoradiography

Receptors for excitatory amino acid,L-glutamate, have been classified into three subtypes named as N-methyl-D-aspartate (NMDA), quisqualate (QA) and kainate receptors. In the present study, an effect of age on binding sites of [³H]-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (³H-AMPA), a QA agonist, was studied in the rat brain through quantitative in vitro autoradiography.³H-AMPA binding sites were most concentrated in the hippocampus and cerebral cortex where glutamate receptors have been demonstrated to play a role in synaptic transmission. In aged rats,³H-AMPA binding sites in the hippocampus and cerebral cortex were not significantly changed. In our previous studies, it was noticed that strychnine-insensitive glycine receptors, which functionally coupled with NMDA receptors, showed marked age-dependent decreases in telencephalic regions. It has been shown that the glutamatergic neuronal system is involved in learning and memory. Nevertheless, it is considered that AMPA binding sites are not involved in the decline of neuronal functions, especially impairment of learning and memory, accompanying with aging process.     

Neurochemical,pharmacological, and developmental studies on cerebellar receptors for dicarboxylic amino acids

Specific binding ofl-[³H]glutamate ([³H]Glu) andl-[³H]asparate ([³H]Asp) to cerebellar membranes represented a time-, temperature- pH- and protein-dependent interaction which was both saturable and reversible. Binding sites for both radioligands appeared maximally enriched in synaptosomal fractions isolated by gradient centrifugation. Kinetically derived dissociation constant (K _off/K _on=K _d) for [³H]Glu binding to this fraction indicated high-affinity (443 nM). Competition experiments employing analogs of excitatory amino acids, including new antagonists, helped identify binding sites for [³H]Glu and [³H]Asp as receptors with differential pharmacological, specificities. Membrane freezing reduced numbers of both receptor types, but binding activity could be recovered partially by incubation at 37°C. Glu receptors exhibited a pronounced deleterious sensitivity to thiol modifying reagents andl-Glu (50–1000 M) provided protection, against these compounds during co-incubation with cerebellar membranes. It is suggested that cold storage may induce partially reversible receptor inactivation by promoting sulfhydryl group/bond modification. Rat cerebellar glutamatergic function (endogenous Glu content, Glu uptake and receptor sites) exhibited an apparent ontogenetic peak between days 8–12 postpartum with a plateauing profile from day 30 to adulthood. The accelerated development (days 8–12) coincides with the first demonstrable Glu release and kainic acid neurotoxicity, as described previously.     

Sodium channels in cultured neuroblastoma cells grown in high glucose or l-Fucose

Patch clamp techniques were used to record whole cell and single channel Na⁺ currents from NB41A3 neuroblastoma cells grown in culture. Cells were grown for two weeks in control medium or medium supplemented with 30 mm d-glucose of 30 mm l-fucose.Cells exposed to glucose or l-fucose had smaller whole cell Na⁺ currents than cells grown in unsupplemented medium, consistent with earlier studies (Yorek, Stefani & Wachtel, 1994). Whole cell macroscopic currents showed no change in activation or inactivation kinetics. Single channel current properties and opening probability were also unchanged.The number of [³H]saxitoxin binding sites, and therefore the total number of Na⁺ channels, was not reduced in cells grown in glucose or l-fucose (Yorek et al., 1994). Therefore, we conclude that some of the channels must have been rendered nonfunctional by the conditioning media. The finding that single channel properties are not altered suggests that channels become nonfunctional in an all-or-none manner.This work was supported by Merit Review Awards to M.A. Yorek and R.E. Wachtel from the Department of Veterans Affairs and by National Institutes of Health grant DK45453 to M.A. Yorek.     

The interaction between wheat germ agglutinin and membrane incorporated glycophorin A. An optical binding study

A novel integrated optical technique is used to monitor the kinetics of incorporation of glycophorin A (GPA) from solution into a planar dimyristoylphosphatidylcholine-cholesterol bilayer membrane, and the subsequent binding of wheat germ agglutinin (WGA) to the membrane-incorporated GPA. The technique significantly improves the attainable accuracy of kinetic measurements. The number of bound molecules can be determined to a precision of ca ± 80 mol µm^–2. Our results show that GPA incorporates spontaneously into the bilayer. Binding of WGA to GPA is optimal in the presence of human serum albumin, and can be reversed byN-acetyl-d-glucosamine. The kinetics of the binding are consistent with the presence of two classes of kinetically distinguishable binding sites with association rates of 2.0×10⁴ and 9.6×10² M^–1 s^–1, and dissociation rates of 2.7×10^–3 s^–1 and <10^–5 s^–1, respectively. A stoichiometry of 4 WGA monomers per GPA monomer was determined as characteristic of the overall binding interaction.Abbreviations DMPC dimyristoylphosphatidylcholine - GlcNAc N-acetyl-d-glucosamine - GPA glycophorin A - HSA human serum albumin - NeuNAc N-acetyl-d-neuraminic acid - TE transverse electric - TM transverse magnetic - WGA wheat germ agglutinin     

Specific binding sites for corticosterone in isolated cells and plasma membrane from rat liver

Summary The specific binding of [³H]corticosterone to hepatocytes is a nonsaturable, reversible and temperature-dependent process. The binding to liver purified plasma membrane fraction is also specific, reversible and temperature dependent but it is saturable. Two types of independent and equivalent binding sites have been determined from hepatocytes. One of them has high affinity and low binding capacity (K _D=8.8nm andB _max=1477 fmol/mg protein) and the other one has low affinity and high binding capacity (K _D=91nm andB _max=9015 fmol/mg). In plasma membrane only one type of binding site has been characterized (K _D=11.2nm andB _max=1982 fmol/mg). As it can be deduced from displacement data obtained in hepatocytes and plasma membrane the high affinity binding sites are different from the glucocorticoid, progesterone nuclear receptors and the Na⁺,K⁺-ATPase digitalis receptor. Probably it is of the same nature that the one determinate for [³H]cortisol and [³H]corticosterone in mouse liver plasma membrane. Beta-and alpha-adrenergic antagonists as propranolol and phentolamine did not affect [³H]corticosterone binding to hepatocytes and plasma membranes; therefore, these binding sites are independent of adrenergic receptors. The binding sites in hepatocytes and plasma membranes are not exclusive for corticosterone but other steroids are also bound with very different affinities.     

Benzodiazepine receptor sites in the chick optic lobe: Development and pharmacological characterization

To investigate the, interaction between -aminobutyric acid (GABA) and benzodiazepine (BZD) receptor sites during development, the time-course of appearance of flunitrazepam (FNZ) binding sites and their pharmacological characterization were studied in developing chick optic lobe. At the earliest stage examined, embryonic day (Ed) 12, the receptor density was 30.9 % (0.05±0.01 pmol/mg protein) of that found in the chick optic lobes of adult chicks. The adult value was achieved on Ed 16 (0.16±0.01 pmol/mg protein). After this stage there was a sharp and transient increase in specific [³H]FNZ binding of about two-fold reaching a maximal value between hatching and the postnatal day (pnd) 2 (0.33±0.01 pmol/mg protein). Scatchard analysis at different stages of development revealed the presence of a single population of specific FNZ binding sites. The increase in [³H]FNZ binding during development was due to a large number of binding sites while their affinity remained unchanged. Competition experiments in the chick optic lobe revealed that the order of potency for displacement of specific [³H]FNZ binding paralleled the pharmacological potency of the BZDs tested. The IC₅₀ s for clonazepam, flunitrazepam, Ro 15-1788 and chlordiazepoxide were 3.02, 4.30, 0.32, and 4778.64 nM respectively. Ro 5-4864, a potent inhibitor of BZD binding to peripheral tissues, had no effect on specific [³H]FNZ binding indicating that only central BZD binding sites are present in the chick optic lobe. The peak of maximal expression of BZD receptor sites precedes in 5–6 days the peak of GABA receptor sites indicating a precocious development of BZD receptor sites. The different appearance of both peaks may represent important events during development probably related to synaptogenesis.     

Location of amino acid and carbohydrate transport sites in the surface membrane of normal and transformed mammalian cells

Summary Amino acid and carbohydrate transport in normal and malignant transformed hamster cells was studied after binding of the protein Concanavalin A (Con. A) to the surface membrane. Experimental conditions were used so that a similar number of Con. A molecules were bound to both types of cells. The transport of amino acids was inhibited after Con. A binding in the transformed cells but not in normal cells. This was found with the metabolizable amino acidsl-leucine,l-arginine,l-glutamic acid, andl-glutamine, and with the non-metabolizable amino acids cycloleucine and -aminoisobutyric acid. Transport ofd-glucose andd-galactose was more inhibited by Con. A in transformed than in normal cells, and in both types of cellsd-glucose was inhibited more thand-galactose. The inhibition by Con. A on transport was specific, since there was no effect on the transport ofl-fucose in either normal or transformed cells. Con. A also did not effect the entry of 3-0-methyl-d-glucose.These observations can be used to locate amino acid and carbohydrate transport sites in the surface membrane in relation to the binding sites for Con. A. The results indicate that Con. A sites are associated in normal cells with transport sites ford-glucose and to a lesser extentd-galactose, and in transformed cells with transport sites for amino acids and to a greater extent than in normal cells withd-glucose andd-galactose. Malignant transformation of normal cells therefore results in a change in the location of amino acid and carbohydrate transport sites in the surface membrane in relation to the binding sites for Con. A.     

Effects of thyroid hormones and aldosterone on mineralocorticoid binding sites in the toad bladder

Summary In the urinary bladder of the toadBufo marinus triiodothyronine selectively inhibits the late effect of aldosterone on Na⁺ transport. We have investigated whether T₃ might mediate its antimineralocorticoid action by controlling: i) the level of aldosterone binding sites in the soluble (cytosolic) pool isolated from tissues treated with T₃ (60nm) for up to 20 hr of incubation; ii) the kinetics of uptake of³H-aldosterone into cytoplasmic and nuclear fractions after 2 or 20 hr of exposure to T₃. The number and the affinity of Type I (high affinity, low capacity) and Type II (low affinity, high capacity) cytosolic binding sites (measured at 0°C) did not vary significantly after 18 hr of exposure to T₃, while aldosterone-dependent Na⁺ transport was significantly inhibited. In addition, T₃ did not modify the kinetics of uptake (90 min) of³H-aldosterone into cytoplasmic and nuclear fractions of toad bladder incubatedin vitro at 25°C. By contrast, aldosterone itself was able to down-regulate its cytosolic and nuclear binding sites after an 18-hr exposure to the steroid hormone (10 or 80nm). T₃ slightly (20%) but significantly potentiated the down regulation of nuclear binding sites. In conclusion, T₃ does not appear to have major effects on the regulation of the aldosterone receptor, which could explain in a simple manner its antimineralocorticoid action.     

Non-NMDA excitatory amino acid receptors in a subcellular fraction enriched in cerebellar glomeruli

In the internal granular layer of the cerebellar cortex the polysynaptic complexes called glomeruli consist mainly of homogeneous populations of glutamatergic and GABAergic synapses, both located on granule cell dendrites. A subcellular fraction enriched in glomeruli was prepared from rat cerebellum, and the distribution of the different types of NMDA and non-NMDA glutamate binding sites was studied in the membranes derived from this fraction (fraction G) as compared to that in the membranes prepared from a total cerebellar homogenate (fraction T). Cl^–/Ca²⁺ independent [³H]glutamate binding sites were not abundant and could be reliably measured only in fraction G. Cl^– dependent/Ca²⁺ activated [³H]glutamate binding sites were more abundant and exhibited a single K _d in both fractions G and T. Quisqualate, NMDA, kainate, L-AP4 andtrans-ACPD inhibited [³H]glutamate binding to different extents in the two membrane fractions. Quisqualate sensitive sites were predominant in all cases but more abundant in fraction T than in fraction G. An opposite distribution was observed for the NMDA sensitive binding sites while kainate sensitive binding sites were scarce everywhere.Trans-ACPD, a ligand presumed selective for metabotropic glutamate binding sites, displaced [³H]glutamate from fraction T but nor from fraction G, suggesting the absence of these sites from glomeruli. Similarly, no L-AP4 sensitive sites were present in fraction G while they were abundant in fraction T. Binding sites associated with ionotropic receptors of the quisqualate type were determined by measuring [³H]AMPA binding. The density of the high affinity [³H]AMPA binding sites in fraction T was twice as high as in fraction G, indicating that these sites are abundant in structures other than glomeruli. High-affinity [³H]kainate binding sites are more abundant in fraction G than in fraction T; the same, but with smaller differences, occurs for the distribution of the low affinity [³H]kainate binding sites. The density of the latter sites is close to that of the high affinity [³H]AMPA binding sites confirming the presence of quisqualate/kainate receptors on granule cells, as previously hypothesized (for review, see Gallo et al., 1990). Taken together, these results indicate a segregation of the glutamate binding sites types at specialized synapses or neuronal cell types in the cerebellar network.Abbreviations AMPA (RS)-alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid - DL-AP4 dl-2-amino-4-phosphonobutyric acid - D-AP5 d-2-amino-5-phosphonovaleric acid - EAA excitatory amino acid - EGTA ethylene glycol-bis(-aminoethyle ether) N,N,N,N-tetracetic acid - NMDA N-methyl-D-aspartate - Quisqualate -[3,5-dioxo-1,2,4-oxadiazolidin-2-yl]-L-alanine - trans-ACPD trans-1-amino-cyclopentyl-1,3-dicarboxylic acid     

Differential maturation of μ and δ opioid receptors in the chick embryonic brain

The developmental profiles of the binding of and opiate receptors agonists was investigated using the chick embryo brain. Binding of opioids was performed at embryonic days 5, 6, 15, 18, and 20 in the developing chick embryo brain. [³H]dihyromorphine was used as a ligand and with 5×10^–7 M levorphanol for non-specific binding, and [³H](d-Ala²-d-Leu⁵)-enkephalin was used as a with 5×10^–7 M (d-Ser-Gly-Phe-Leu-Thr)-enkephalin for non-specific binding. Crude membranes were prepared from whole brain at days, 5, 6 and cerebral hemispheres at days 15, 18, and 20 of embryonic age. Both and opiate receptors were present during early embryogenesis and as early as day 5. Analysis of binding sites revealed high and low affinity sites during early embryogenesis but only one site. By 18 days of embryonic age, only one site remained. This developmental change is interpreted as a transitory state of the receptor to the adult pattern. The presence of only one site is constant throughout embryonic age; it is high during early embryogenesis reaching a lower level by 18 days. The presence of a dual binding site pattern for the receptor in early embryogenesis is implicated to have a functional significance in the pluripotential role of the endogenous opioids in early development.     

d-Xylose isomerases from a newly isolated strain, Paenibacillus sp., and from Alcaligenes ruhlandii : isolation, characterization and immobilisation to solid supports

d-Xylose/d-glucose isomerases from two strains, a newly isolated strain, Paenibacillus sp., and from Alcaligenes ruhlandii are described herein. The enzymes were purified to apparent homogeneity. Both of these d-xylose isomerases are homotetramers with relative subunit molecular masses of 45 000 and 53 000, respectively, as estimated by sodium dodecylsulphate-polyacrylamide gel electrophoresis. The native molecular masses determined on Superose 12 gel chromatography are 181 kDa for the enzyme from Paenibacillus sp. and 199 kDa for that from A. ruhlandii. The activity of both enzymes shows a requirement for divalent metal ions; the d-xylose isomerase from Paenibacillus sp. has the highest activity with Mn²⁺, while the enzyme from A. ruhlandii prefers Mg²⁺. Both enzymes also accept Co²⁺ with a somewhat lower efficiency, while Cu²⁺ inhibits the enzyme reaction. The binding of the metal ions obeys a biphasic characteristic, indicating the presence of two non-identical binding sites per subunit. d-Glucose is converted to d-fructose at a rate that is two- to three-fold slower than for the d-xylose isomerisation. d-Xylitol and d-lyxose are competitive inhibitors of both enzymes. Both enzymes have a pH optimum between 6.5 and 7.0, and they are active up to 60 °C. The enzyme from Paenibacillus sp. retained 50% of its activity after 4 days at 55 °C, whereas that from A. ruhlandii still retained 50% of its activity after 6 days at 55 °C. Polyacrylamide entrapment and immobilisation to both controlled pore glass and cyanogen-bromide-activated Sepharose were achieved for both enzymes with high efficiency. Received: 14 May 1998 / Received last revision: 29 July 1998 / Accepted: 29 July 1998     

Binding sites forl-glutamate in the central nervous system of the rat

The regional distribution of 2-amino-4-phosphonobutyrate (APB)/chloride-insensitivel-[³H]glutamate binding sites in the rat central nervous system was compared with that of APB/chloride-sensitive and with sodium-dependent binding sites. The distribution of APB-sensitive and APB-insensitive sites was not corelated, but the latter was identical to that of the sodium-dependent sites. The pharmacological specificity of the APB-insensitive sites was not consistent with that of an N-methylaspartate-preferring receptor, and was also different from the specificity determined for the sodium-dependent sites. The APB-insensitive sites appear to be unrelated to any other previously described excitatory amino acid binding site.Dedicated to K. A. C. Elliott on his 80th birthday.