Modulation of the serotonin-activated K+ channel by G protein subunits and nucleotides in rat hippocampal neurons

In hippocampal neurons, 5-hydroxytryptamine (5-HT) activates an inwardly rectifying K⁺ current via G protein. We identified the K⁺ channel activated by 5-HT (K_5-HT channel) and studied the effects of G protein subunits and nucleotides on the K⁺ channel kinetics in adult rat hippocampal neurons. In inside-out patches with 10 m 5-HT in the pipette, application of GTP (100 m) to the cytoplasmic side of the membrane activated an inwardly rectifying K⁺ channel with a slope conductance of 36±1 pS (symmetrical 140 mm K⁺) at –60 mV and a mean open time of 1.1±0.1 msec (n=5). Transducin activated the (K_5-HT) channels and this was reversed by -GDP. Whether the K_5-HT channel was activated endogenously (GTP, GTPS) or exogenously (), the presence of 1 mm ATP resulted in a 4-fold increase in channel activity due in large part to the prolongation of the open time duration. These effects of ATP were irreversible and not mimicked by AMPPMP, suggesting that phosphorylation might be involved. However, inhibitors of protein kinases A and C (H-7, staurosporine) and tyrosine kinase (tyrphostin 25) failed to block the effect of ATP. These results show that G activates the G protein-gated K⁺ channel in hippocampal neurons, and that ATP modifies the gating kinetics of the channel, resulting in increased open probability via as yet unknown pathways.     

Effects of Aging and Amyloid-β Peptides on Choline Acetyltransferase Activity in Rat Brain

Choline acetyltransferase (ChAT, acetyl-CoA:choline O-acetyltransferase, EC 2.3.1.6), involved in the learning and memory processes is responsible for the synthesis of acetylcholine. There are many discrepancies in literature concerning ChAT activity during brain aging and the role of amyloid beta peptides in modulation of this enzyme. The aim of the study was to investigate the mechanism of ChAT regulation and age-related alteration of ChAT activity in different parts of the brain. Moreover the effect of A peptides on ChAT activity in adult and aged brain was investigated. The enzyme activity was determined in the brain cortex, hippocampus and striatum in adult (4-months-old), adult-aged (14-months-old) and aged (24-months-old) animals. The highest ChAT activity was observed in the striatum. We found that inhibitors of protein kinase C, A, G and phosphatase A2 have no effect on ChAT activity and that this enzyme is not dependent on calcium ions. About 70% of the total ChAT activity is present in the cytosol. Arachidonic acid significantly inhibited cytosolic form of this enzyme. In the brain cortex and striatum from aged brain ChAT activity is inhibited by 50% and 37%, respectively. The aggregated form of A 25-35 decreased significantly ChAT activity only in the aged striatum and exerted inhibitory effect on this enzyme in adult, however, statistically insignificant. ChAT activity in the striatum was diminished after exposure to 1 mM H₂O₂. The results from our study indicate that aging processes play a major role in inhibition of ChAT activity and that this enzyme in striatum is selectively sensitive for amyloid beta peptides.     

Comparative amino acid sequence analysis of Thermotoga maritima β-glucosidase (BglA) deduced from the nucleotide sequence of the gene indicates distant relationship between β-glucosidases of the BGA family and other families of β-1,4-glycosyl hydrolases

The primary structure of the bglA gene region encoding a -glucosidase of Thermotoga maritima strain MSB8 was determined. The bglA gene has the potential to code for a polypeptide of 446 amino acids with a predicted molecular mass of 51545 Da. The T, maritima -glucosidase (BglA) was overexpressed in E. coli at a level comprising approximately 15–20% of soluble cellular protein. Based on its amino acid sequence, as deduced from the nucleotide sequence of the gene, BglA can be classified as a broad-specificity -glucosidase and as a member of the -glucosidase family BGA, in agreement with the results of enzymatic characterization of the recombinant protein. Comparative sequence analysis revealed distant amino acid sequence similarities between BGA family -glucosidases, a -xylosidase, -1,4-glycanases of the enzyme family F (mostly xylanases), and other families of -1,4-glycosyl hydrolases. This result indicates that BGA -glucosidases may comprise one enzyme family within a large enzyme order of retaining -glycosyl hydrolases, and that the members of these enzyme groups may be inter-related at the level of active site architecture and perhaps even on the level of overall three-dimensional fold.     

Facile removal of the N-indole-mesitylenesulfonyl protecting group using HF cleavage conditions

Summary Nitrogen indole protection of the -methyltryptophan side-chain residue is important for avoiding undesired side reactions during peptide synthesis. Of great importance is the choice of a side-chain protecting group for orthogonal peptide synthesis and its stability under a variety of chemical conditions required for synthesis of the four isomers of this unusual amino acid. We report here the successful use of the mesitylenesulfonyl (Mts) protecting group for -methyltryptophan in the synthesis of melanotropin and CCK peptide analogues and the ready cleavage of this protecting group under HF conditions.     

Models for glycosidic juvenogens: Enzymic formation of selected alkyl-β-D-glucopyranosides and alkyl-β-D-galactopyranosides under microwave irradiation

2-(4-Methoxybenzyl)-1-cyclohexyl--d-glucopyra nosides (1b and 2b) and 2-(4-methoxybenzyl)-1-cyclohexyl--d-galactopy ranosides (1c and 2c), models for glycosidic juvenogens, were synthesized using either D-glucose or D-galactose [in their natural form (3 and 5) or activated form (4 and 6)], and the respective racemic cis or trans isomers of 2-(4-methoxybenzyl)-1-cyclohexanol (1a and 2a) by either enzymic reverse hydrolysis or transglycosylation under both standard heating and microwave irradiation. Commercially available almond -glucosidase (EC 3.2.1.21) or -galactosidase (EC 3.2.1.23) from Escherichia coli were employed using different acetonitrile/water mixtures [9/1 (v/v) for the reverse hydrolysis, and 4/1 (v/v) for the transglycosylation].     

cDNA cloning and expression of a potato (Solanum tuberosum) invertase

A cDNA clone encoding an invertase isoenzyme has been isolated from a potato leaf cDNA library. The deduced amino acid sequence shows significant similarities to previously characterised invertases. The highest degree of overall similarity, including the signal peptide sequence, is to carrot cell wall invertase, suggesting that the potato gene encodes an apoplastic enzyme. Expression of the gene, as determined by RT-PCR, is detected in stem and leaf tissue, and at lower levels in tuber, but is absent from roots.     

A genetic component in human lysosomal enzyme excretion

Acid hydrolases are present in normal human urine in appreciable amounts. Their source appears to be lysosomes released by kidney proximal tubule epithelial cells. For a given lysosomal enzyme the total amount excreted is the product of two parameters, a general one describing the rate of lysosome secretion and a specific one describing the relative concentration of that enzyme in lysosomes. There is considerable population variation in both parameters. Studies of -glucuronidase, -galactosidase, -hexosaminidase, and -galactosidase in monozygotic and dizygotic twins show that an appreciable part of this variation is genetic in origin. This appears to be true for both total enzyme excretion and lysosome composition. Although it was not possible to test directly whether this is also true for the rate of lysosome secretion, the fact that the two former parameters are both heritable strongly suggests that the rate of lysosome excretion is also a heritable trait. Taken together with previous data, the results suggest polygenic control of these biochemical traits. It is particularly significant that -glucuronidase excretion in normal individuals is a heritable trait since the excretion of this enzyme has frequently been used as a measure of normal and pathological physiological changes.This study was supported by grants from the National Institutes of Health (GM-19521) and the Council for Tobacco Research—U.S.A., Inc. (1080). The work was done while the authors were in the Department of Molecular Biology, Roswell Park Memorial Institute, Buffalo, New York 14263.     

GTP-binding protein-independent potentiation by mastoparan of IL-1β-induced nitric oxide release from insulin-secreting HIT-T15 cells

Our recent data implicated small molecular weight G-proteins (e.g., H-Ras) in interleukin 1beta (IL 1beta)-induced metabolic dysfunction and apoptotic demise of the islet beta cell (Tannous et al., Biochem Pharmacol 2001; 62:1459-1468, Kowluru and Morgan, Biochem Pharmacol, 2002; 63:1027-1035, Chen et al. Biochem Pharmacol, 2003; 66:1681-1694). Recently, we have shown that mastoparan, a tetradecapeptide from wasp venom, has been shown to directly activate islet endogenous G-proteins and regulate islet function (Amin et al., Endocrinology 2003; 144: 4508-4518). Herein, we investigated potential contributory roles, if any, of mastoparan (Mas)-sensitive G-proteins in IL-induced nitric oxide (NO) release from insulin-secreting HIT-T15 cells. While, ineffective by itself, Mas significantly potentiated IL-induced NO release from HIT-T15 cells. Interestingly, Mas-17, an inactive analog of Mas, also potentiated IL-induced NO release, suggesting that the potentiating effect of Mas may not involve activation of specific G-proteins. Such potentiating effects on IL-induced NO release were also demonstrable in the presence of another polycationic compound, melittin. Together, these findings suggest that Mas-induced potentiation of IL-induced NO release may in part be due to its amphiphilic and polycationic nature. These data also warrant caution in the use of Mas to study its regulation of cellular function without the use of an appropriate negative control, such as Mas-17.     

Primary structure of two nonallelicβ-globin chains from DBA/2 mice

The amino acid sequences of the major and minor globin chains from DBA/2 mice have been determined. This information is of interest because DBA/2 mice are the strain of origin for most murine erythroleukemia lines. The primary structure of DBA/2 globins agrees completely with that predicted from the coding properties of BALB/c globin genes. This identity does not support a rapid evolutionary divergence in inbred mouse strains, at least at these loci in these strains.This work was supported in part by National Institutes of Health Grants AM26956, HL24908, and AM14923 and by the Department of Energy under Contract DE-AC05-840R21400 with Martin Marietta Systems. The SUNY Buffalo Sequencing Facility was supported by a grant from the James Cummings Foundation and National Institutes of Health Grants RR05400 and RR07066.     

Development and isoproterenol-induced regulation of adrenoceptor binding in cultured rat neocortical explants is seen only with the beta-1, not with the beta-2 subtype

The presence and time-course of -adrenoceptor density in cultured explants of neocortex obtained from 6-day-old rat pups were investigated using a [¹²⁵I]ICYP binding assay. A delayed, but more pronounced, increase in the receptor expression was observed as compared to the situation previously described in vivo. These changes only occurred for the ₁-subtype of the receptor, whereas the ₂-subtype binding remained constant up to 3 weeks in vitro. The delay of ₁-adrenoceptor expression may be due to the incomplete presence of the proper maturational input, and the late enhancement of receptor expression to upregulation related to the absence in vitro of noradrenergic input. Decreased -adrenoceptor levels could be induced by chronic treatment of the -agonist isoproterenol (1 M) introduced either for 3 or 13 days. Again, changes in density were found only for the ₁-adrenoceptor binding sites. There is no reduction of receptor density following return to control conditions for 10 days after a 3-day treatment with isoproterenol, demonstrating the ability of this model to attain its final receptor density notwithstanding the developmental insult.Special issue dedicated to Dr. Robert Balázs     

Activities ofβ-glucanases andβ-glucosidases during blastospore formation inSaccharomycopsis fibuligera

Summary The activities of three glycosidases, -glucosidase and (1,3)- and (1,6)-glucanases have been monitored during growth and blastospore formation inSaccharomycopsis fibuligera. The assays were carried out on the cell-free culture and in a cell-free extract and a wall autolysate preparation from the growing cells. In complex medium containing 1% glucose an increase in the level of all three enzymes was associated with the transition from mycelium to blastospores. When the level of glucose was increased to 5% blastospore formation was repressed and the level of -glucanases only increased at the end of the fermentation. The -glucosidase activity increased during the growth phase. In a defined medium in which slow growth in a wholly yeast-like form was observed, growth was not associated with a high level of -glucanase activity.     

Transglycosylation reactions by exoglycosidases from the termite Macrotermes subhyalinus

The ability of four exoglycosidases (-galactosidase, -glucosidase, -glucosidase and invertase) from the termite Macrotermes subhyalinus to catalyse tranglycosylation reactions was tested using lactose, cellobiose, maltose and sucrose as glycosyl donors and 2-phenylethanol as glycosyl acceptor. The experimental conditions were optimized in relation to the time course of the reaction, pH and concentrations of glycosyl donor and acceptor. Whereas the hydrolytic activity was largely predominant over the transferase activity with -galactosidase and -glucosidase, the transglycosylation activity represented 68% with -glucosidase. In addition, as demonstrated by the transglycosylation product formed, the hydrolysis of sucrose was catalysed by -glucosidase and not by invertase. On the basis of this work, -glucosidase from M. subhyalinus appears to be a valuable tool for the preparation of neoglycoconjugates.     

Protein dynamics studied by NMR

The results of NMR studies using several nuclei indicate that proteins have considerable internal mobility. The most obvious is the mobility of side-chains. This mobility is general on the exterior surfaces but extends internally in a differential way. The functional value of surface mobility concerns both on and off rates of ligand binding (e.g. metal ions and parts of substrates) and protein/protein interactions. The mobility, which indicates that recognition is more in the hand-in-glove class than in the lock-in-key class, makes for a modified view of the specificity of protein interactions. Thus, fast on/off systems cannot be as selective as slower systems. Segmental mobility of proteins is considered in the context of protein secondary structure. The least mobile segments are the -sheet and the tight -turn. Mobility is always possible for, but not within, rod-like helices and in loose turns. Many examples are given and the importance of mobility in molecular machines is described. Finally, examples are given of virtually random-coil proteins, segments, and linker regions between domains and the functional value of such extremely dynamic regions of proteins is discussed.This work is based on a lecture at the EBSA Symposium, organised by the Italian Biophysical Society (S.I.B.P.A.), Tabiano Terme, September 1992     

Synthesis of Galβ1-3GlcNAc and Galβ1-3GlcNAcβ-SEt by an enzymatic method comprising the sequential use of β-galactosidases from bovine testes andEscherichia coli

Gal1-3GlcNAc (1) and Gal1-3GlcNAc-SEt (2) were synthesized on a 100 mg scale by the transgalactosylation reaction of bovine testes -galactosidase with lactose as donor andN-acetylglucosamine and GlcNAc-SEt as acceptors. In both cases the product mixtures contained unwanted isomers and were treated with -galactosidase fromEscherichia coli which has a different specificity, under conditions favouring hydrolysis, yielding besides the desired products, monosaccharides and traces of trisaccharides. The products were purified to >95% by gel filtration, with a final yield of 12% of 1 and 17% of 2, based on added acceptor. In a separate experiment Gal1-6GlcNAc-SEt (3) was synthesized by the transglycosylation reaction using -galactosidase fromEscherichia coli. No other isomers were detected. Compound 3 was purified by HPLC.     

Investigation of the Relationship between the Lectin Activity of Azospirilla and Their α-Glucosidase, β-Glucosidase,and β-Galactosidase

The activities of -glucosidase, -glucosidase, and -galactosidase were studied during the isolation and purification of lectins from Azospirillum brasilenseSp7 and Azospirillum lipoferum59b cells. These enzymatic activities were revealed in crude extracts of surface proteins, protein fraction precipitated with ammonium sulfate or ethanol–acetone mixture, and protein fraction obtained by gel filtration on Sephadex G-75. The distribution of the enzymes between different protein fractions varied for the azospirilla studied. The cofunction of the A. brasilenseSp7 lectin and -galactosidase on the cell surface is assumed. A strong interaction between the A. lipoferum59b lectin and glucosidases was revealed. The lectin from A. lipoferum59b may possess saccharolytic activity.     

Tail-to-tail orientation of the Atlantic salmon alpha- and beta-globin genes

We report the cloning of a cDNA and two corresponding -globin genes of the Atlantic salmon (Salmo salar L.) as well as two genes for -globins. Nucleotide sequence analysis of the cDNA shows that the predicted -globin peptide comprises 148 amino acids with a calculated molecular mass of 16,127 Da and an overall amino acid similarity of 40–50% to higher vertebrates and 60–90% to fish sequences. The study of the genomic organization of - and -globin genes shows that, as is the case in Xenopus, the salmon genes are adjacent. Two sets of linked - and -globin genes were isolated and restriction-enzyme polymorphisms indicate that they belong to two distinct loci, possibly as a result of the salmon tetraploidy. In each locus the - and -globin genes are oriented 3 to 3 relative to each other with the RNA coding sequences located on opposite DNA strands. This is the first evidence for this type of arrangement found for globin genes. Moreover, while the linkage found in salmon and Xenopus supports the hypothesis of an initial tandem duplication of a globin ancestor gene, our results raise the question of the actual original orientation of the duplicated genes. Correspondence to: F. Gannon     

Neurotoxic Potential of Three Structural Analogs of β-N-oxalyl-α,β-Diaminopropanoic Acid (β-ODAP)

Lathyrism is a non-progressive motor neuron disease produced by consumption of the excitatory amino acid, 3-N-oxalyl-L-2,3-diaminopropanoic acid (-ODAP). To learn more about the mechanisms underlying Lathyrism three structural analogs of -ODAP were synthesized. Carboxymethyl-,-diaminopropanoic acid (CMDAP) evoked inward currents which were antagonized by APV (30 M), but not by CNQX (10 M). N-acetyl-,-diaminopropanoic acid (ADAP) evoked no detectable ionic currents but potentiated N-methyl-D-aspartate (NMDA)-activated currents. The potentiation of NMDA currents by ADAP was blocked by 7-chlorokynurenic acid. Carboxymethylcysteine (CMC) did not activate any detectable ionic currents. None of the three -ODAP analogs produced visible symptoms of toxicity in day old chicks when administered for 2–3 consecutive days. Ligand binding studies demonstrated that all the three compounds were effective to in displacing [³H]glutamate. The maximum inhibition was 92% for CMDAP, 61% for ADAP, 65% for CMC and 99% for -ODAP. These data indicate that analogs of -ODAP may interact with glutamate receptors without producing neurotoxicity.