Concanavalin A Receptors Associated with Rat Brain Synaptic Junctions Are High Mannose-Type Oligosaccharides

Abstract: Glycoproteins were isolated from a rat brain synaptic junction fraction by affinity chromatography on Concanavalin A-agarose. The isolated glycoproteins were digested with pronase and radiolabeled with ¹²⁵I-Bolton Hunter reagent, and ¹²⁵I-Concanavalin A-binding glycopeptides were isolated by chromatography on Concanavalin A-agarose. Treatment of the ¹²⁵I-Concanavalin A-binding glycopeptides with either α-mannosidase or endo-β- N -acetylglucosaminidase-C₁₁ abolished their interaction with Concanavalin A. The pronase digest was reacted with endo-β-N-acetylglucosaminidase-C₁₁ and released oligosaccharides were reduced with NaB³H₄. Following affinity chromatography on Concanavalin A-agarose, Concanavalin A-binding [³H]oligosaccharides were chromatographed on Biogel P₄. Two major oligosaccharides corresponding to standard carbohydrates containing eight and five mannose residues were identified. Treatment of these oligosaccharides with α-mannosidase converted them to smaller saccharides having a mobility on Biogel P₄ columns equal to the standard disaccharide mannose-β-1-4- N '-acetylglucosamine. These results demonstrate that the Concanavalin A receptor activity associated with CNS synaptic junctions resides in asparaginelinked oligosaccharides of the high-mannose type.     

Developmental Changes in the Oligosaccharide Composition of Synaptic Junctional Glycoproteins

Synaptic junctions (SJs) were isolated from the forebrains of rats ranging in postnatal age from 10 days to greater than 1 year. SJ glycoproteins that react with Concanavalin A (Con A) were isolated by chromatography on Con A-agarose and separated by gel electrophoresis. The concentrations of the major SJ Con A binding (Con A+) glycoproteins (apparent Mr 180,000, 130,000, and 110,000) increased between 10 and 28 days, with GP180 and GP110 showing greater relative increases than GP130. Con A binding oligosaccharides associated with 10-day SJs were sensitive to digestion with endoglycosidase C11 and alpha-mannosidase, indicating that they were of the high-mannose type, as previously shown for 28-day SJs. Con A+ oligosaccharides from rats of increasing postnatal age were analyzed by chromatography on Biogel P-4. Two major oligosaccharides, containing five and eight mannose residues, were present in SJs of all ages examined. During development the ratio of man5 to man8 oligosaccharides increased, so that man5 constituted the predominant species in 28-day and adult SJs. Peptide mapping experiments showed that GP180, GP130, and GP110 were each associated with a unique polypeptide composition. Little or no change in peptide composition of the major SJ glycoproteins occurred during development.     

SYNTHESIS OF GLYCOPROTEINS AND GANGLIO-SIDES IN DEVELOPING RAT BRAIN

Abstract— Intracerebral injections of radioactive fucose into developing rats resulted in specific labelling of the brain glycoproteins in their fucose moieties. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate revealed that the radioactive glycoproteins were very heterogeneous with regard to molecular weight. A procedure utilizing [³H]fucose and [¹⁴C]fucose together with double-label counting techniques was developed for comparing the electrophoretic patterns of newly synthesized glycoproteins from different samples of tissue. By the use of this procedure we showed that the incorporation of radioactive fucose into the glycoproteins of high mol. wt. was relatively greater in the brains of 5-day-old rats than in those of 25-day-old rats. Intracerebral injection of N -[ Ac -³H]acetyl- d -mannosamine resulted in a high degree of specificity for the labelling of sialic acid moieties in glycoproteins and gangliosides. The ratio of the d.p.m. of N -[³H]acetylmannosamine incorporated into glycoproteins to the d.p.m. incorporated into gangliosides was higher in 5-day-old rats than in 15- or 25-day-old rats. Experiments in which 15-day-old rats were injected with a mixture of [¹⁴C]fucose and N -[³H]acetylmannosamine showed that there were differences in the relative degrees of incorporation of the two radioactive precursors into the various glycoproteins. The greatest incorporation of [¹⁴C]fucose relative to that of N- [³H]acetylmannosamine occurred in some of the glycoproteins of smaller mol. wt.     

Increased Incorporation of [3H]Lysine into Synaptic Membranes of the Visual Cortex Following First Exposure of Dark-Reared Rats to Light Is Confined to Particular Polypeptides

Abstract: The incorporation of [³H]lysine into separated polypeptides of synaptic-membrane fractions prepared from the visual cortices of dark-reared rats and littermates exposed to light for 1 h was examined. Increased incorporation of [³H]lysine was found in synaptic membranes from light-exposed compared to dark-reared rats in polypeptides of four molecular weights: 100,000, 71,000, 44,000, and 38,000. The 44,000-molecular-weight peak has been suggested to be actin on the basis of its comigration with pure brain actin. These results indicate that increased incorporation of [³H]lysine into synaptic membranes of the visual cortex, following first exposure of dark-reared rats to light, is confined to particular polypeptides.     

Identification of Synapse Specific Components: Synaptic Glycoproteins, Proteins, and Transmitter Binding Sites

Synaptic junctions (SJ) were prepared from synaptic plasma membranes (SPM) by extraction with Triton X-100 and density gradient centrifugation. These SJs were enriched in certain Concanavalin A (Con A) binding glycoproteins, the 52,000 Mr postsynaptic density (PSD) protein, and receptor sites for L-glutamate, L-aspartate, kainic acid (KA) but not quinuclidinyl benzilate (QNB). Various other membrane fractions were extracted by means of the same procedure. Those fractions prepared from light SPMs and crude myelin contained identifiable synaptic junctions and were also highly enriched in the synaptic components. The SJ-like fraction from mitochondria did not contain any of the characteristic synaptic macromolecules. However, this fraction from microsomes contained levels of the 52,000 Mr PSD protein and binding sites for L-glutamate (L-Glu) and L-aspartate (L-Asp) similar to true synaptic junctions, although the Con A binding glycoproteins and KA binding sites were nearly absent. On the basis of electron microscopy, the SJ-like fraction from microsomes did not contain structures recognizable as SJs. Thus, the Con A binding glycoproteins and KA binding sites appear to be excellent markers for the SJ.     

Changes in Glycoprotein Metabolism in the Cerebral Cortex Following First Exposure of Dark-reared Rats to Light

Abstract: The level of incorporation of [³H]fucose or [³H]lysine into subcel-lular fractions of the visual and motor cortices of 50-day-old dark-reared (D) and light-exposed (L) rats was determined. No differences were found between D and L rats in the incorporation of either precursor into subcellular fractions of the motor cortex, or in any fraction of the visual cortex except the synaptic-membrane fraction. After a 3-h light exposure the incorporation of [³H]fucose into the visual cortex synaptic-membrane fraction was elevated (L/D = 136%). Incorporation of [³H]lysine was elevated in the visual cortex synaptic-membrane fraction of L compared to D rats after a 1-h exposure (L/D = 118%). However, after a 3-h exposure the incorporation was depressed in this fraction (L/D = 79%). No differences could be found in the levels of activity of fucosyl transferase following first exposure to light but dark-rearing itself resulted in increased enzyme activity in the motor cortex compared to normal controls. First exposure of 20-day-old dark-reared rats to light led to an increase in the incorporation of [³H]fucose into soluble glycoproteins of both the visual and motor cortex and into particulate glycoproteins of the visual cortex only. These results are in contrast with those found with 50-day-old animals and suggest that the effects of light-exposure on [³H]fucose incorporation may be age-dependent.     

Increase in Chloride-Dependent l-Glutamate Transport Activity in Synaptic Membrane After In Vitro Ischemic Treatment

Abstract: The effect of energy failure on Cl⁻-dependent l -glutamate ( l -Glu) transport was examined with an in vitro preparation. Rat brain slices were incubated in low oxygen and glucose-deprived medium (in vitro ischemia), and a synaptic membrane fraction was prepared from the slices. Cl⁻-dependent l -[³H]Glu uptake into vesicles increased about twofold after 20 min of in vitro ischemia. The increased l -[³H]Glu uptake was inhibited by l -Glu, dl -2-amino-4-phosphonobutyrate, l -homocysteic acid, l -cystine, 4,4'-diisothiocyano-2,2'-disulfonic stilbene, and removal of Cl⁻. Uptakes of Na⁺-dependent l -[³H]-Glu, [³H]GABA, and [³H]taurine were not changed by the in vitro ischemia. In vitro ischemia increased the V _max value without affecting the K _m value. The increased l -[³H]Glu uptake by in vitro ischemia was reduced by subsequent incubation in a normoxic glucose-containing solution. ATP content in brain slices decreased to <10% of control values by in vitro ischemia for 10 min. The decrease in ATP content was restored by subsequent incubation in normoxic glucose-containing solution. Treatment with veratrine, 2,4-dinitrophenol, carbonyl cyanide m -chlorophenylhydrazone, and NaCN in normoxic conditions increased l -[³H]Glu uptake with a concomitant decrease in ATP content in slices. These results suggest that Cl⁻-dependent l -Glu transport activity in synaptic membranes increases in ischemia- or hypoxia-induced brain energy failures.     

Ethanol-Induced Inhibition of [3H]Thienylcyclohexylpiperidine (TCP) Binding to NMDA Receptors in Brain Synaptic Membranes and to a Purified Protein Complex

Abstract: N -Methyl- d -asparate receptors (NMDARs) are a major target of ethanol effects in the nervous system. Haloperidol-insensitive, but dizocilpine (MK-801)-sensitive, binding of N -[1-(2-[³H]thienyl)cyclohexyl]piperidine ([³H]TCP) to synaptic membranes has the characteristics of ligand interaction with the ion channel of NMDARs. In the present studies, ethanol produced a concentration-dependent decrease in the maximal activation of [³H]TCP binding to synaptic membranes by NMDA and Gly, but a moderate change in the activation by l -Glu when l -Glu was present at concentrations < 100 µ M . However, ethanol (100 m M ) inhibited completely the activation of [³H]TCP binding produced by high concentrations of l -Glu (200–400 µ M ). It also inhibited strongly the activation of [³H]TCP binding by spermidine or spermidine plus Gly. In a purified complex of proteins that has l -Glu-, Gly-, and [³H]TCP-binding sites, ethanol (100 m M ) decreased significantly the maximal activation of [³H]TCP binding produced by either l -Glu or Gly. Activation constants ( K _act) for l -Glu and Gly acting on the purified complex were 12 and 28 µ M, respectively. Ethanol had no significant effect on the K _act of l -Glu but caused an increase in the K _act of Gly. These studies have identified at least one protein complex in neuronal membranes whose response to both l -Glu and Gly is inhibited by ethanol. These findings may explain some of the effects of acute and chronic ethanol treatment on the function and expression of the subunits of this complex in brain neurons.     

Effects of Monensin on Assembly of Po Protein into Peripheral Nerve Myelin

Abstract: The ionophore monensin has been used in a variety of systems to block secretion of glycoproteins or assembly of glycoproteins into membranes. We examined the effects of monensin on assembly of the Po glycoprotein into PNS myelin, and compared this agent with the glycosylation inhibitor tunicamycin in our system. Sciatic nerves from 9-day-old rat pups were sliced and incubated in vitro . Electron microscopy of the Schwann cells in slices incubated with monensin revealed extensive swelling of the Golgi complex. Incubation with 10⁻⁷ M monensin inhibited total protein synthesis by about 20% and fucose incorporation into protein about 35%. Following isolation of myelin, proteins were separated by sodium dodecyl sulfate gel electrophoresis. Monensin inhibited the appearance of Po in myelin, while causing its accumulation in a denser membrane fraction. In addition, a slightly faster-migrating species of P_o labeled with both [³H]fucose and [¹⁴C]glycine was observed in all fractions. Assembly of basic proteins into myelin was not affected. Preincubation with 10 μg/ml tunicamycin for 30 min prior to incubation with [³H]fucose and [¹⁴C]glycine for 2 h resulted in a 65% decrease in [³H]fucose incorporation into P_o, and the appearance of a new [¹⁴C]glycine-labeled peak that migrated in the region of the 23K protein reported by Smith and Sternberger. [³H]Fucose incorporation was inhibited earlier, and to a greater extent, than protein synthesis. Our results show that processing of the P_o glycoprotein is sensitive to both monensin and tunicamycin, and that monensin partially blocks assembly of P_o into myelin.     

RAPID TRANSPORT OF FUCOSYL GLYCOPROTEINS TO NERVE ENDINGS IN MOUSE BRAIN

Abstract— Mice were injected intracerebrally with mixtures of [³H]fucose and [¹⁴C]gluco-samine, and incorporation into macromolecules in various subcellular fractions of brain was studied at 1, 2, 3 and 4 h after administration of the precursors. There was a lag of several hours between the incorporation of [³H]fucose into the glycoproteins of the whole brain fractions and of that into the soluble and particulate glycoproteins of the nerve ending fractions. In contrast, no lag was observed between the incorporation of [¹⁴C]glucosamine into the macromolecules of the whole brain fractions and of that into the soluble macro-molecules of the nerve ending fraction. We conclude that fucosyl glycoproteins of the nerve ending fraction were synthesized in the nerve cell bodies and transported to nerve endings by rapid axoplasmic transport, whereas a substantial proportion of the glucosamine in the soluble macromolecules of the nerve ending fraction was incorporated by the nerve endings themselves. In addition, our evidence indicates that cyclobeximide inhibited fucose incorporation into brain glycoproteins by inhibiting the synthesis of acceptor proteins rather than fucosyl transferase.     

[3H]thymidine labels less than half of the DNA-synthesizing cells in the mouse tumour, carcinoma NT

Abstract. We have studied carcinoma NT, a transplantable mouse adenocarcinoma of spontaneous origin. Cells labelled with [³H]thymidine ([³H]TdR) were restricted to a narrow zone around the periphery of this tumour and were also found in rings up to 50 μ m wide, around isolated blood vessels in the central necrotic area. Labelling with [³H]deoxyuridine ([³H]UdR), another DNA synthesis precursor, produced a very different pattern. The labelled zone around the periphery was much wider than with [³H]TdR, and [³H]UdR labelled cells were found up to 110 μ m from isolated vessels. [³H]iododeoxyuridine ([³H]IUdR) gave the same pattern of labelling as [³H]UdR. In the heavily labelled zone, within 1 mm of the tumour periphery, the labelling index (LI) was 51% after [³H]UdR or [³H]IUdR injection, and only 36% with [³H]TdR.
The data show that at least half of the DNA-synthesizing cells in this tumour did not incorporate [³H]TdR. Previous workers reported cell loss factors for carcinoma NT of 60% calculated from [³H]TdR labelling data and 30% from the rate of loss of [¹²⁵I]UdR. The present work suggests that calculations based on [¹²⁵I]UdR data are more likely to be accurate for carcinoma NT than those using [³H]TdR data.     

[1251]2α-BUNGAROTOXIN AND [3H]QUINUCLIDINYLBENZILATE BINDING IN CENTRAL NERVOUS SYSTEMS OF DIFFERENT SPECIES

Abstract— [¹²⁵I]Diiodo α-bungarotoxin ([¹²⁵I]₂BuTx) and [³H]quinuclidinylbenzilate ([³H]QNB) binding sites were measured in post-nuclear membrane fractions prepared from whole brains or brain regions of several species. Species studied included Drosophila melanogaster (fruit fly), Torpedo californiea (electric ray), Carassius auratus (goldfish), Ram pipiens (grass frog), Kana cutesheiana (bullfrog), Rattus norvegicus (rat, Sprague-Dawley), Mus muscalus (mouse, Swiss random, C58/J, LG/J), Oryctolagus cuniculus (rabbit, New Zealand Whitc), and Bos (cow). Acetyl-CoA: choline O -acetyltransferase (EC 2.3.1.6) levels were also determined in the post nuclear supernatants and correlated with the number of binding sites.
All species and regions except Drosophila had 16–150 fold more [³H]QNB binding sites than [¹²⁵I]₂BuTx binding sites. Brain regions with the highest levels of [¹²⁵I]₂BuTx binding were Drosophila heads (300 fmol/mg), goldfish optic tectum (80fmol/mg), and rat and mouse hippocampus (3040 fmol/mg). The highest levels of [³H]QNB binding were seen in rat and mouse caudate (1.3–1.6 pmol/mg). Lowest levels of [³H]QNB and [¹²⁵I]₂BuTx binding were seen in cerebellum. The utility of [¹²⁵I]₂BuTx and [³H]QNB binding as quantitative measures of nicotinic and muscarinic acetylcholine receptors in CNS is discussed.     

Synaptic Vesicle Recycling in Cultured Cerebellar Granule Cells: Role of Vesicular Acidification and Refilling

Abstract: The role of the transvesicular protonmotive force in synaptic vesicle recycling was investigated in cultured cerebellar granule cells. The vesicular V-ATPase was inhibited by 1 µ M bafilomycin A1; as an alternative, the pH component of the gradient was selectively collapsed by equilibration of the cells with 10 m M methylamine and monitored with the fluorescent probe Lysosensor Green. Electrical field-evoked exocytosis of d -[³H]aspartate was inhibited by bafilomycin A1 but not by methylamine, indicating that a transvesicular membrane potential rather than pH gradient is required for transmitter retention within vesicles. In contrast, neither compound affected the field-evoked uptake, recycling, or destaining of the vesicle-specific dye FM2-10; thus, vesicles whose lumens were neutral and/or depleted of transmitter could still recycle in the nerve terminal. No exhaustion of d -[³H]aspartate exocytosis was observed when cells were subjected to six consecutive trains of field stimuli (40 Hz/10 s separated by 10 s). In contrast, the release of preloaded FM2-10 was reduced by ∼50%, with each stimulus indicating that unlabeled vesicles with accumulated d -[³H]aspartate were competing with labeled vesicles for exocytosis. As d -[³H]aspartate was accumulated rapidly across the vesicle membrane from the large cytoplasmic pool, the transmitter-loaded but unlabelled vesicles may represent refilled recycling vesicles. FM2-10 destaining and d -[³H]aspartate exocytosis were reduced in parallel at low frequencies, challenging a role for transient vesicle fusion.     

Specificity of Muscarinic Acetylcholine Receptor Regulation by Receptor Activity

Abstract— Regulation of muscarinic acetylcholine receptor concentration by receptor activity in neuron-like NG108-15 hybrid cells is a highly specific process. Receptor levels, monitored by binding of [³H]quinuclidinyl benzilate ([³H]QNB), decreased 50-75% following 24-h incubation of cells with muscarinic agonists, but none of the following cellular processes was altered by this chronic receptor stimulation: (1) glycolytic energy metabolism, measured by [³H]deoxy- d -glucose ([³H]DG) uptake and retention; (2) rate of cell division; (3) transport, measured by [³H]valine and [³H]uridine uptake; (4) RNA biosynthesis, measured by [³H]uridine incorporation; (5) protein biosynthesis, measured by [³H]valine and [³⁵S]methionine incorporation into total protein and into protein fractions obtained by polyacrylamide gel electrophoresis. In contrast, chronic stimulation did cause a threefold decrease in the capacity of carbachol to stimulate phosphatidylinositol (PI) turnover, a receptor-mediated response. In addition to cholinomimetics, the neuroeffector adenosine (1 m m for 24 h) also caused a decrease in [³H]QNB binding levels, but chronic stimulation of α -adrenergic, opiate, prostaglandin E₁, and prostaglandin F_2α receptors found on NG108-15 cells caused no changes. The data indicate that loss of muscarinic receptors caused by receptor stimulation is not a consequence of fundamental changes evoked in overall cellular physiology but reflects a specific regulation of cholinoceptive cell responsiveness.     

Classical Noncholinergic Neurotransmitters and the Vesicular Transport System for Acetylcholine

Abstract: The acetylcholine transporter exhibits such low affinity and specificity for acetylchoiine that it appeared possible it could fail to select against other neurotransmitters. Potential interactions of classical noncholinergic neurotransmitters with cholinergic synaptic vesicles purified from electric organ were studied. No active transport of [³H]serotonin, [³H]noradrenaline, or [³H]glutamate occurred. Serotonin, noradrenaline, and N -acetylaspartyl glutamate inhibited active transport of [³H]acetylcholine by the vesicles. Dopamine previously had been shown to inhibit transport. Glutamate and γ-aminobutyric acid were shown here not to inhibit active transport of [³H]-acetylcholine. Noradrenaline was competitive with respect to [³H]acetylcholine in this effect. Serotonin, noradrenaline, and dopamine inhibited binding of [³H]vesamicol to the vesicles, and dopamine was a competitive inhibitor of the binding of this allosteric ligand of the acetylcholine transporter. The results indicate that the acetylcholine transporter does not transport any other classical neurotransmitter, but serotonin, noradrenaline, and dopamine bind to the acetylcholine site.     

Problems Associated with the Binding of L-Glutamic Acid to Synaptic Membranes: Methodological Aspects

Abstract: Specific L-[³H]glutamate binding was investigated in extensively washed synaptic membrane preparations from rat brain. Mild conditions of ultrasonication effected a significant enhancement of binding, attributable to the marked reduction in membrane vesicle size and the removal of endogenous interfering substances such as glutamate. Preincubation of freshly prepared membranes at 37°C for 30 min followed by further washing resulted in enhanced binding. Addition of supernatant from preincubated membranes effectively inhibited [³H]glutamate binding to control membranes; the possibility of the presence of an endogenous glutamate receptor inhibitor is discussed. Treatment of membranes with low concentrations of Triton X-100, in contrast with the findings for GABA, did not produce any significant enhancement of specific glutamate binding. While binding of [³H]glutamate is almost abolished in frozen or cold-stored membranes, lyophilisation had a remarkable effect, not only affording protection, but actually enhancing the binding properties of the synaptic membrane preparation.     

Characterization of Fucosyl Oligosaccharides Associated with Synaptic Membrane and Synaptic Junctional Glycoproteins

Rats were administered [3H]fucose by intracranial injection and synaptic membranes (SMs) isolated 18 h later. Oligosaccharides associated with SM glycoproteins were prepared by hydrazinolysis and analyzed by a combination of affinity chromatography on concanavalin A (Con A)-agarose, ion-exchange chromatography on DEAE-cellulose, and gel permeation chromatography. Most (94%) of the [3H]fucose-labelled oligosaccharides were present in the fraction that did not bind to Con A. Of these 41% did not bind to DEAE-cellulose, indicating the absence of negatively charged groups and the remainder were resolved into four fractions of increasing acidity. Gel permeation chromatography of the fractions from the DEAE-cellulose column suggested that the major oligosaccharides corresponded to fucosylated triantennary structures containing varying amounts of sialic acid although more highly branched structures containing peripheral branches lacking one or more sugars may also have been present. Comparison of fucosyl oligosaccharides associated with SMs prepared from 10- and 28-day-old animals indicated that although the general oligosaccharide content was similar at both ages, membranes from younger animals were characterized by an increase in the proportion of highly acidic structures. Fucosylated glycans derived from synaptic junctional (SJ) glycoproteins were also characterized by a greater percentage of highly acidic structures than SMs. The results indicate that SMs and SJs are characterized by specific complements of fucosylated glycoprotein oligosaccharides.     

Disposition of Gangliosides and Sialosylglycoproteins in Neuronal Membranes

Abstract Labeled gangliosides and glycoproteins were obtained by incubation of homogenized neuronal perikarya from rat brain with CMP-[³H] N -acetyl neuraminic acid. The highest degree of labelling was observed in a subcellular fraction that also showed the highest specific activities for several ganglioside glycosyltransferases. The [³H] sialosylglycoconjugates of this fraction remained associated with the membranes after treatment with 1 m -KCl, 125 m m -EDTA, repeated freezing and thawing, or controlled sonication, but were solubilized by sodium deoxycholate (DOC) at a concentration high enough to solubilize the choline phospholipids. About 75% of the neuraminidase-labile sialosyl residues of these labeled endogenous gangliosides and glycoproteins were protected from the action of added neuraminidase or pronase or both enzymes added together. The protection was not abolished by pretreatment of the membranes with high ionic strength or with EDTA but was abolished by sonication or low concentration of DOC. Between 50 and 80% of the neuraminidase-labile sialosyl residues of the gangliosides of the neuronal perikaryon membrane fraction labeled in vivo by an intracerebral injection of N -[³H]acetylmannos-amine were, at 3 h after the injection, also protected from the action of added neuraminidase. The protection was abolished by the addition of DOC. In contrast with the behavior of the labeled glycoconjugates of this neuronal perikaryon fraction, the gangliosides and sialosylglycoproteins from intact synaptosomes were accessible to neuraminidase. It is suggested that most gangliosides and sialosylglycoproteins are sialosylated as intrinsic components of the neuronal perikaryon membrane fraction and that at some stage of the process of transport through the axon and incorporation into the synaptic plasma membrane they change their accessibility to added enzymes.     

Development and Localization of the Thymidine Phosphorylating Systems in Brain

Abstract: The development of the thymidine phosphorylating systems was studied in various regions of brain. Brain slices from cerebellum, brain stem, and forebrain of rabbits 2, 7, 14, 30, 90, 500, and 2500 days of age were incubated for various times in artificial CSF containing 3 nM-[³H]thymidine at 37°C under 95% O₂-5% CO₂. When slices from all brain regions of 2-day-old rabbits were incubated in [³H]thymidine for 30 min, tissue-to-medium ratios of ³H were between 2 and 4 and declined with age, and the percentages of the total ³H in perchloric acid homogenates of brain slices as [³H]DNA were 26–29%, declining to low levels with age. However, at all ages and in all regions studied, 41 -88% of the ³H within the slices was phosphorylated. After homogenization and subcellular fractionation of the brain slices incubated in [³H]thymidine for 30 min, the highest percentage of [³H]thymidine phosphates plus [³H]DNA was present in the nuclear (crude and purified) and mitochondrial fractions of all brain regions. The [³H]DNA content in the nuclear and mitochondrial fractions declined with age, but the percentage of [³H]thymidine phosphates did not. Thymidine phosphates were synthesized from thymidine in all brain regions tested throughout the entire life span.     

Characterization of [3H]CP-96,501 as a Selective Radioligand for the Serotonin 5-HT1B Receptor: Binding Studies in Rat Brain Membranes

Abstract: 3-(1,2,5,6-Tetrahydro-4-pyridyl)-5- n -propoxyindole (CP-96,501) was found to be a more selective ligand at the serotonin 5-HT_1B receptor than the commonly used 5-HT_1B agonist, 3-(1,2,5,6-tetrahydro-4-pyridyl)-5-methoxyindole (RU 24969). In rat brain membranes, the tritiated derivative, [³H]CP-96,501, was found to bind with a high affinity ( K _D, 0.21 n M ) to a single binding site ( n _H, 1.0). The receptor density of this site ( B _max, 72 fmol/mg of protein) matched that of the 5-HT_1B receptor determined with [³H]5-HT. Competition curves of 16 serotonergic compounds in [³H]CP-96,501 binding also indicated a single binding site. The rank order of their binding affinities with this new radioligand showed a high degree of correlation with their affinities at the 5-HT_1B receptor determined with [³H]5-HT or [¹²⁵I]iodocyanopindolol. Serotonergic compounds displayed competitive inhibition of [³H]CP-96,501 binding. In the presence of 5'-guanylylimidodiphosphate [Gpp(NH)p], [³H]CP-96,501 binding was reduced, while the potency of CP-96,501 to displace [¹²⁵I]iodocyanopindolol binding was also decreased. These findings are consistent with the agonist nature of CP-96,501. The results of this study suggest that [³H]CP-96,501 is a useful agonist radioligand for the 5-HT_1B receptor.