用Blue Sepharose CL-6B快速纯化天花粉蛋白

差光谱显示染料cibacron blue F3GA与天花粉蛋白(TCS)有特异性结合,复合物在可见光部分的最大吸收波长在690 nm,摩尔消光系数ε=2.6×10^-3(mol/L)^-1·cm^-1,解离常数K_d=1.8 μmol/L,0.5 mol/L NaCl可使复合物解离.根据这一特点,用Blue-Sepharose CL-6B凝胶从栝篓块茎中亲和纯化了TCS.此法快速、简便、高效,易于大量制备.     

Some properties of β-1,3-glucan hydrolyzing enzymes from the rotifer Brachionus plicatilis

We examined some characteristics of hydrolyticenzymes, especially -1,3-glucanase, to obtain theinformation of cell wall lytic enzymes forrotifers.Crude enzyme (ammonium sulfate fraction) of rotifershydrolyzed starch, -1,3-glucan, glycol chitinand CM-cellulose. Optimum pH for hydrolysis ofstarch and CM-cellulose was 6.5, and that for -1,3glucan and glycol chitin was pH 6.0. Pectic acid,xylan and agarose were not hydrolyzed at pH 3–10.-1,3 glucanase was purified about 73-fold from crudeenzyme by ion-exchange chromatography and gelfiltration. Optimum pH and temperature of the enzymewere 6 and 60 °C, respectively. The molecular weight ofthe enzyme was estimated about 260 kDa by gelfiltration. The enzyme was inhibited byHgCl₂ and MnCl_{_2}.     

Molecular Phylogeny and Evolution of the Neurotrophins from Monotremes and Marsupials

We have investigated the phylogenetic relationships of monotremes and marsupials using nucleotide sequence data from the neurotrophins; nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), and neurotrophin-3 (NT-3). The study included species representing monotremes, Australasian marsupials and placentals, as well as species representing birds, reptiles, and fish. PCR was used to amplify fragments encoding parts of the neurotrophin genes from echidna, platypus, and eight marsupials from four different orders. Phylogenetic trees were generated using parsimony analysis, and support for the different tree structures was evaluated by bootstrapping. The analysis was performed with NGF, BDNF, or NT-3 sequence data used individually as well as with the three neurotrophins in a combined matrix, thereby simultaneously considering phylogenetic information from three separate genes. The results showed that the monotreme neurotrophin sequences associate to either therian or bird neurotrophin sequences and suggests that the monotremes are not necessarily related closer to therians than to birds. Furthermore, the results confirmed the present classification of four Australasian marsupial orders based on morphological characters, and suggested a phylogenetic relationship where Dasyuromorphia is related closest to Peramelemorphia followed by Notoryctemorphia and Diprotodontia. These studies show that sequence data from neurotrophins are well suited for phylogenetic analysis of mammals and that neurotrophins can resolve basal relationships in the evolutionary tree. Received: 27 January 1997 / Accepted: 20 March 1997     

On the Origin of Protein Synthesis Factors: A Gene Duplication/Fusion Model

Sequence similarity has given rise to the proposal that IF-2, EF-G, and EF-Tu are related through a common ancestor. We evaluate this proposition and whether the relationship can be extended to other factors of protein synthesis. Analysis of amino acid sequence similarity gives statistical support for an evolutionary affiliation among IF-1, IF-2, IF-3, EF-Tu, EF-Ts, and EF-G and suggests further that this association is a result of gene duplication/fusion events. In support of this mechanism, the three-dimensional structures of IF-3, EF-Tu, and EF-G display a predictable domain structure and overall conformational similarity. The model that we propose consists of three consecutives duplication/fusion events which would have taken place before the divergence of the three superkingdoms: eubacteria, archaea, and eukaryotes. The root of this protein superfamily tree would be an ancestor of the modern IF-1 gene sequence. The repeated fundamental motif of this protein superfamily is a small RNA binding domain composed of two α-helices packed along side of an antiparallel β-sheet. Received: 17 October 1996 / Accepted: 10 June 1997     

Ethanol Activates Maxi Ca2+-activated K+ Channels of Clonal Pituitary (GH3) Cells

The effect of ethanol on maxi Ca²⁺-activated K⁺ channels (BK channels) in GH3 pituitary tumor cells was investigated using single-channel recordings and focusing on intracellular signal transduction. In outside-out patches, ethanol caused a transient concentration-dependent increase of BK-channel activity. 30 mm (1.4‰) ethanol significantly increased mean channel open time and channel open probability by 26.3 ± 9% and 78.8 ± 10%, respectively; single-channel current amplitude was not affected by ethanol. The augmenting effect of ethanol was blocked in the presence of protein kinase C (PKC) inhibitors staurosporine, bisindolylmaleimide, and PKC (19–31) pseudosubstrate inhibitor as well as by AMP-PNP (5′-adenylylimidodiphosphate), a nonhydrolyzable ATP-analogue, but not by the phospholipase C blocker U-73122. Phosphatase inhibitors microcystin-LR and okadaic acid promoted the ethanol effect. The blocking effect was released at higher concentrations of ethanol (100 mm) suggesting a second site of action or a competition between blockers and ethanol. Our results suggest that the effect of ethanol on BK-channels is mediated by PKC stimulation and phosphorylation of the channels which increases channel activity and hence may influence action potentials duration and hormone secretion. Received: 24 July 1996/Revised: 27 December 1996     

Dual Role of Prostaglandins (PGE2) in Regulation of Channel Density and Open Probability of Epithelial Na+ Channels in Frog Skin (R. pipiens)

Prostaglandins are important in signaling pathways involved in modulating the rates of Na⁺ transport in a diverse group of tissues possessing apical membrane epithelial channels. PGE₂ is known to cause either stimulation, inhibition or transient stimulatory changes of Na⁺ transport. We have continued our studies of frog skins that are known to respond to forskolin and PGE₂ with large steady-state increases of transport and have used noninvasive methods of blocker-induced noise analysis of Na⁺ channels to determine their channel densities (N _T ) and open probabilities (P _o ). In the absence of exogenous hormones, baseline rates of Na⁺ transport are especially high in scraped skins (R. pipiens pipiens) studied in the fall of the year. Na⁺ transport was inhibited by indomethacin and by removal of the unstirred layers of the corium (isolated epithelia) alone suggesting that PGE₂ is responsible for the sustained and elevated rates of transport in scraped skins. Changes of transport caused by indomethacin, forskolin or PGE₂ were unquestionably mediated by considerably larger changes of N _T than compensatory changes of P _o . Since cAMP caused no change of P _o in tissues pretreated with indomethacin, PGE₂ appears in this tissue to serve a dual role, increasing the steady state N _T by way of cAMP and decreasing P _o by unknown mechanisms. Despite appreciable PGE₂-related decreases of P _o , the net stimulation of transport occurs by a considerably greater cAMP-mediated increase of N _T . Received: 28 February 1996/Revised: 22 August 1996     

Relations Between the Extracellular Concentrations of Choline and Acetylcholine in Rat Striatum

Abstract: Changes in extracellular levels of acetylcholine (ACh) and choline (Ch) in the striatum of rats were examined by in vivo microdialysis after intraperitoneal injections of drugs. A dopamine D₂ antagonist, sulpiride (20 mg/kg), and a muscarinic antagonist, atropine (3.5 mg/kg), increased ACh levels and decreased Ch levels. On the contrary, the D₂ agonist (±)-2-( N -phenylethyl- N -propyl)amino-5-hydroxytetralin (N-434; 5 mg/kg) and an anesthetic, pentobarbital (50 mg/kg), decreased ACh levels and increased Ch levels. Perfusion of 10 µ M hemicholinium-3 (HC-3), a Ch uptake inhibitor, through the striatum induced a complete inhibition of ACh release and increased Ch levels in all drug-treated groups. The degree of relative increase in the level of Ch induced by HC-3 differed among the drug-pretreated groups; compared with the control group, the relative increase was larger in the sulpiride- and atropine-treated groups and smaller in the N-434 and pentobarbital-treated groups. Thus, we demonstrated reciprocal relations between extracellular concentrations of Ch and ACh after treatments by drugs. The data suggest that in the striatum, which is rich in cholinergic innervation, the extracellular Ch concentration is to a large extent determined by activity of the cholinergic transmission reflected in high-affinity choline uptake.     

5-Hydroxy-3-Ethylamino-2-Oxindole Is Not Formed in Rat Brain Following a Neurotoxic Dose of Methamphetamine: Evidence that Methamphetamine Does Not Induce the Hydroxyl Radical-Mediated Oxidation of Serotonin

Abstract: Oxygen radicals have been implicated in the neurodegenerative and other neurobiological effects evoked by methamphetamine (MA) in the brain. It has been reported that shortly after a single large subcutaneous dose of MA to the rat, the serotonergic neurotoxin 5,6-dihydroxytryptamine (5,6-DHT) is formed in the cortex and hippocampus. This somewhat controversial finding suggests that MA potentiates formation of the hydroxyl radical (HO^?) that oxidizes 5-hydroxytryptamine (5-HT) to 5,6-DHT, which, in turn, mediates the degeneration of serotonergic terminals. A major and more stable product of the in vitro HO^?-mediated oxidation of 5-HT is 5-hydroxy-3-ethylamino-2-oxindole (5-HEO). In this investigation, a method based on HPLC with electrochemical detection (HPLC-EC) has been developed that permits measurement of very low levels of 5-HEO in rat brain tissue in the presence of biogenic amine neurotransmitters/metabolites. After intracerebroventricular administration into rat brain, 5-HEO is transformed into a single major, but unknown, metabolite that can be detected by HPLC-EC. One hour after administration of MA (100 mg/kg s.c.) to the rat, massive decrements of 5-HT were observed in all regions of the brain examined (cortex, hippocampus, medulla and pons, midbrain, and striatum). However, 5-HEO, its unidentified metabolite, or 5,6-DHT were not detected as in vivo metabolites of 5-HT. MA administration, in particular to rats pretreated with pargyline, resulted in the formation of low levels of N-acetyl-5-hydroxytryptamine (NAc-5-HT) in all brain regions examined. These results suggest that MA does not potentiate the HO^?-mediated oxidation of 5-HT. Furthermore, the rapid MA-induced decrease of 5-HT might not only be related to oxidative deactivation of tryptophan hydroxylase, as demonstrated by other investigators, but also to the inhibition of tetrahydrobiopterin biosynthesis by NAc-5-HT. The massive decrements of 5-HT evoked by MA are accompanied by small or no corresponding increases in 5-hydroxyindole-3-acetic acid (5-HIAA) levels. This is due, in part, to the relatively rapid clearance of 5-HIAA from the brain and monoamine oxidase (MAO) inhibition by MA. However, the loss of 5-HT without corresponding increases in its metabolites point to other mechanisms that might deplete the neurotransmitter, such as oxidation by superoxide radical anion (O₂^??), a reaction that in vitro does not generate 5-HEO or 5,6-DHT but rather another putative neurotoxin, tryptamine-4,5-dione. One hour after administration, MA evokes large depletions of norepinephrine (NE) throughout the brain but somewhat smaller decrements of dopamine (DA) that are restricted to the nigrostriatal pathway. Furthermore, MA evokes a major shift in the metabolism of both NE and DA from the pathway mediated by MAO to that mediated by catechol-O-methyltransferase. The profound and widespread effects of MA on the noradrenergic system, but more anatomically localized influence on the dopaminergic system, suggests that NE in addition to DA, or unusual metabolites of these neurotransmitters, might play roles in the neurodegenerative effects evoked by this drug.     

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.     

N-Acetylaspartylglutamate Stimulates Metabotropic Glutamate Receptor 3 to Regulate Expression of the GABAAα6 Subunit in Cerebellar Granule Cells

Abstract: We have shown that the vertebrate neuropeptide N-acetylaspartylglutamate (NAAG) meets the criteria for a neurotransmitter, including function as a selective metabotropic glutamate receptor (mGluR) 3 agonist. Short-term treatment of cerebellar granule cells with NAAG (30 µM) results in the transient increase in content of GABA_Aα6 subunit mRNA. Using quantitative PCR, this increase was determined to be up to 170% of control values. Similar effects are seen following treatment with trans-1-aminocyclopentane-1,3-dicarboxylate and glutamate and are blocked by the mGluR antagonists (2S,3S,4S)-2-methyl-2-(carboxycyclopropyl)glycine and (2S)-α-ethylglutamic acid. The effect is pertussis toxin-sensitive. The increase in α6 subunit mRNA level can be simulated by activation of other receptors negatively linked to adenylate cyclase activity, such as adenosine A1, α2-adrenergic, muscarinic, and GABA_B receptors. Forskolin stimulation of cyclic AMP (cAMP) levels abolished the effect of NAAG. The change in α6 levels induced by 30 µM NAAG can be inhibited in a dose-dependent manner by simultaneous application of increasing doses of the β-adrenergic receptor agonist isoproterenol. The increase in α6 mRNA content is followed by a fourfold increase in α6 protein level 6 h posttreatment. Under voltage-clamped conditions, NAAG-treated granule cells demonstrate an increase in the furosemide-induced inhibition of GABA-gated currents in a concentration-dependent manner, indicating an increase in functional α6-containing GABA_A receptors. These data support the hypothesis that NAAG, acting through mGluR3, regulates expression of the GABA_Aα6 subunit via a cAMP-mediated pathway and that cAMP-coupled receptors for other neurotransmitters may similarly influence GABA_A receptor subunit composition.