Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0272170 (SDS)
 50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Radioactively labeled tubulin from Chinese hamster ovary (CHO) cells can be isolated by co-polymerization with nonradioactive porcine brain microtubule protein. 75% of the soluble tubulin in CHO extracts co-polymerizes with the porcine protein through several cycles, without preferential loss of either CHO or porcine subunits. After phosphocellulose chromatography of the co-polymerized microtubules, the CHO tubulin is radiochemically homogeneous, as judged by SDS-polyacrylamide gel electrophoresis. CHO tubulin purified in this way has 1 mole of nucleotide per mole of protein noncovalently bound at the non-exchangeable or N site. This-layer chromatography indicates that the N site nucleotide is entirely ribo-GTP. Label and chase experiments show that the N site GTP exchanges intracellularly with a half-time of 33 hr in growing cells which have a generation time of 17 hr, while the tubulin polypeptides are degraded with a half-time of 48 hr. Intracellular hydrolysis of the gamma-phosphate of the N site nucleotide can be detected but occurs very slowly, with a half-time of 24 hr. These results suggest that the N site nucleotide may function in vivo as a stable structural co-factor of the tubulin molecule and render improbable the possibility that it has a regulatory role in microtubule assembly.
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PMID:Turnover of tubulin and the N site GTP in Chinese hamster ovary cells. 56 16

Endogenous calmodulin (CaM) in the EGTA-washed cerebral-cortical synaptosomal membrane (SM) preparation was estimated below 3 micrograms/ml protein by the semiquantitative immunoblot analysis (Natsukari, N., Ohta, H. and Fujita, M. (1989) J. Immunol. Methods 125, 159-166). Membrane-bound CaM was immunoelectron-microscopically demonstrated in EGTA-washed, non-treated (control), and Ca(2+)-treated cerebral-cortical synaptosomal membranes (SM) as well as for the SM enriched with added CaM. The density of CaM increased in the above order. CaM-dependent adenylate cyclase and CaM-dependent protein kinase II (CaM-kinase II) activities were restored, whereas the phosphodiesterase (PDE) activity was not affected by exogenous CaM over all the Ca2+ concentrations tested. Adenylate cyclase at pCa 6.2 was synergistically activated either by GTP and CaM or by CaM and beta-adrenergic agonist, (+/-)-isoproterenol, reflecting the intactness of signal transduction pathway in the SM. Also demonstrated were the presence of protein kinase A, CaM-kinase II, and their endogenous substrates in the SM. Based on 32P-autoradiography and 125I-CaM overlay data certain CaM-binding proteins such as CaM-kinase II and synapsin I were identified on SDS-PAGE. Ca(2+)-dependent and -independent CaMBPs were distinguished by 125I-CaM gel overlay with and without Ca2+. The former had bigger molecular size (greater than or equal to 49 kDa) than the latter (less than or equal to 34 kDa). Yield of Ca(2+)-dependent CaMBPs was not affected by Ca2+ concentration during preparation of the SM while that of Ca(2+)-independent CaMBPs was reduced by exposure to 100 microM Ca2+. In contrast with the CaMBPs of brain SM, those of enterocyte and eyrthrocyte plasma membranes especially, microvillous membrane of the enterocyte, showed quite distinct CaMBP profiles. The present findings suggested that the EGTA-washed SM preparation made a useful system for studying the role of CaM in the brain SM.
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PMID:Characterization of EGTA-washed synaptosomal membrane with emphasis on its calmodulin-binding proteins. Demonstration of possible reconstitution with added calcium/calmodulin. 131 53

Nucleoside diphosphate (NDP) kinases have been found to be involved in a wide range of fundamental biological processes ranging from developmental control to signal transduction and metastasis. We have recently cloned and sequenced a cDNA encoding an NDP-kinase of the rat mucosal mast cell line RBL-2H3 [Hemmerich, S., Yarden, Y., & Pecht, I. (1992) Biochemistry (preceding paper in this issue)]. The enzyme itself has been isolated by means of its affinity to the bischromone cromoglycate. Here we report several of its biochemical characteristics: A structural model for the native protein is proposed in which two disulfide-linked pairs of similar 18-kDa subunits (p18) associate to form a 72-kDa tetramer (p72). This is based on the migration properties of the purified enzyme on gel filtration columns, sodium dodecylsulfate gel electrophoresis, and two-dimensional electrophoresis, together with peptide mapping data. In the absence of NDP, both intact p72 and the dissociated 18-kDa subunits (p18) were shown to undergo Mg(2+)-dependent stoichiometric autophosphorylation utilizing adenosine and guanosine triphosphate or gamma-thiotriphosphate as phosphate donor. This autophosphorylation activity was found to be retained by the 18-kDa subunits even following fractionation by SDS-PAGE and electrophoretic transfer to nitrocellulose. The Michaelis constant of this autophosphorylation reaction with either ATP, ATP gamma S, GTP, or GTP gamma S was determined to be 6.5 +/- 1 microM, and maximally 2 mol of phosphate were found to be incorporated per p72 molecule, thus indicating that phosphorylation occurs at a single site on only two of the four 18-kDa subunits of the holoenzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oligomeric structure and autophosphorylation of nucleoside diphosphate kinase from rat mucosal mast cells. 131 52

In isolated adipocytes, polymyxin B inhibited insulin-induced glucose incorporation into lipids in a dose-dependent manner, while polymyxin E, a structurally related antibiotic, was ineffective. To approach the mechanism of this effect, the subcellular distribution of the glucose transporter Glut 4 was investigated. Adipocytes were pretreated without or with polymyxin B before insulin stimulation, subcellular fractionation was performed and Glut 4 was detected by immunodetection. Incubation of adipocytes with polymyxin B prevented the insulin-induced appearance of Glut 4 in the plasma membranes, but did not prevent their decrease from the low-density microsomal fraction. A lower purity of the plasma membrane fractions, a detergent effect of polymyxin B on the membranes or an interference of the substance with the immunodetection of the Glut 4 molecules were excluded. These results suggest that polymyxin B was interfering with the Glut 4 translocation process stimulated by insulin in adipocytes. In a similar fashion, polymyxin B inhibited the insulin-induced increase in IGF II binding to adipocytes. This resulted from a blockade of the appearance of IGF II receptors in the plasma membranes. Since low-molecular-mass GTP-binding proteins have been implicated in the regulation of vesicular trafficking, we have used [alpha-32P]GTP binding to analyze such proteins in adipocyte fractions, after SDS/PAGE and transfer to nitrocellulose. Specific and distinct subsets of GTP-binding proteins were revealed in plasma membrane and low-density microsomal fractions of control adipocytes, whether they were stimulated or not with insulin. Polymyxin B treatment of adipocytes markedly modified the profile of the low-molecular-mass GTP-binding proteins in plasma membranes, but not in low-density microsomal fractions. Our results suggest that polymyxin B was interfering with the exocytotic process of the Glut 4 and IGF II receptor-containing vesicles, perhaps at the fusion step between vesicles and plasma membranes.
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PMID:Polymyxin B inhibits insulin-induced glucose transporter and IGF II receptor translocation in isolated adipocytes. 132 Oct 40

A partial purification of the Epstein-Barr-virus nuclear antigen 2A (EBNA 2A) protein from the Epstein-Barr-virus-infected lymphoblastoid cell line, Cherry, has been designed. The main purification step was immunoaffinity chromatography, based on the mAb, 115E, directed towards the carboxy terminus of EBNA 2A. This was followed by chromatography over a Blue Sepharose column. According to silver-stained SDS/PAGE, EBNA 2A was estimated to be 20% pure. The purified fractions contained an ATPase activity that was inhibited by the mAb 115E. Immunopurification of six EBNA-2A-positive cell lines and their negative counterpart showed that only fractions from EBNA-2A-positive lines contained ATPase activity. In gel-filtration experiments EBNA 2A eluted as a 75-kDa protein in conjunction with an ATPase activity. The EBNA 2A protein was covalently labeled by the ATP analog [14C]5'-[p-(fluorosulfonyl)benzoyl]adenosine. The ATPase activity was found to be optimal in the presence of 0.25 mM MgCl2 or CaCl2, whereas, in the presence of MnCl2 and ZnCl2, the activity was only about 50% of the control. High concentrations of Na2VO3 and heparin do not interfere with the activity, while 2.5 mM NaF or 0.5 M NaCl give a 50% reduction of the activity. The Km for ATP and for GTP was 13 microM and 11 microM, respectively, and the Vmax for ATP was about six-times higher than with GTP as substrate. Other low-molecular-mass non-protein phosphate esters, such as phosphoserine or phosphothreonine inhibited the ATPase activity with a Ki of 18 and 32 microM, respectively. Phosphotyrosine had a Ki of 480 microM. Serine, threonine and tyrosine had no inhibitory effect on the ATPase activity.
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PMID:Biochemical characterization of Epstein-Barr virus nuclear antigen 2A and an associated ATPase activity. 132 Oct 48

The membrane fraction and three cytosolic proteins of neutrophils, p47-phox, p67-phox and a G-protein, are involved in the cell-free activation of the O2(-)-generating NADPH oxidase in the presence of SDS, though it has been controversial whether the G-protein is required or just enhancing the activity. We have used the three cytosolic factors, the solubilized membrane fraction, GTP gamma S and SDS, and found that both G-protein and GTP gamma S are essential for the activation of the NADPH oxidase. The effect of GTP gamma S is modified by Mg2+: the cations enhance the O2- generation at low concentrations of GTP gamma S, whereas they attenuate the activity at higher concentrations of GTP gamma S. In presence of 10 microM GTP gamma S, the maximal activity is observed at 0.1 microM Mg2+, which is several-fold higher than that at 1 mM Mg2+. The omission of Mg2+ followed by the chelation with EDTA results in loss of the activation, which is completely restored by the addition of Mg2+. Thus, Mg2+ seems to modulate the activation of the NADPH oxidase at the level of the G-protein.
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PMID:Role of Mg2+ in activation of NADPH oxidase of human neutrophils: evidence that Mg2+ acts through G-protein. 132 9

PC12 cells, a rat pheochromocytoma cell line, has been reported to release norepinephrine in response to extracellular ATP in the presence of extracellular Ca2+. The potency order of ATP analogues was adenosine 5'-O-(3-thiotriphosphate) greater than ATP greater than adenosine 5'-O-(1-thiotriphosphate) = 2-methylthioadenosine 5'-triphosphate (MeSATP) greater than 2'- and 3'-O-(4-benzoyl-benzoyl)ATP (BzATP) greater than ADP greater than 5-adenylylimidodiphosphate. Adenosine 5'-O-(2-thiodiphosphate), beta, gamma-methyleneadenosine 5'-triphosphate, AMP and adenosine were inactive. The ATP action in the absence of extracellular Ca2+, suggests a small but appreciable contribution of intracellular Ca2+ mobilization, for norepinephrine release. However, for some ATP derivatives, like BzATP, almost no contribution of the phospholipase C-Ca2+ pathway is suggested, based on their low activity in inositol phosphates production. To identify the ATP-receptor protein, PC12 cell membranes were photoaffinity-labeled with [32P]BzATP. SDS-PAGE analysis showed that a 53-kDa protein labeling was inhibited by ATP and its derivatives, as well as by P2-antagonists, suramin and reactive blue 2, which inhibit the nucleotide-induced norepinephrine release. The inhibitory activity of the nucleotides was, in parallel with their potency, to induce norepinephrine release. Despite their inability to release norepinephrine, GTP and GTP gamma S inhibited the BzATP labeling, suggesting the participation of a putative G protein in the ATP-receptor-mediated actions. We suggest that the 53-kDa protein on the PC12 cell surface is an ATP receptor, which mediates the norepinephrine release, depending, mainly, on extracellular Ca2+ gating.
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PMID:Characterization of ATP receptor which mediates norepinephrine release in PC12 cells. 132 38

The respiratory burst oxidase is a multimeric enzyme responsible for O2- production by stimulated neutrophils and a few other cell types. In the resting neutrophil, the oxidase is dormant, and its subunits are distributed between the cytosol, in which they appear to exist in the form of a multisubunit complex, and the plasma membrane; but, when the neutrophil is activated, the cytosolic complex translocates to the membrane to assemble the active enzyme. Using a cell-free system in which oxidase activity was elicited with SDS, we examined the effects of GTP gamma S and dioctanoylglycerol (DiC8) on both the activation of O2- production and the transfer of the cytosolic oxidase components p47phox and p67phox to the plasma membrane. GTP (added as undialyzed cytosol) and GTP gamma S augmented the transfer of the oxidase components to the plasma membrane and was essential for the acquisition of O2- producing activity by the oxidase. DiC8 also supported the SDS-mediated transfer of oxidase components to the membrane, but O2- production did not take place unless GTP or GTP gamma S was present. In the presence of these nucleotides, however, DiC8 augmented both translocation and O2- production. We interpreted these results in terms of a mechanism in which 2 membrane-binding sites are created during the activation of the cytosolic complex, one for diacylglycerol and the other for a second site on the membrane. Development of the second membrane-binding site depends upon the action of a G protein and is essential for the expression of oxidase activity. The results further suggested that the priming of the respiratory burst oxidase in intact neutrophils might be due to an increase in membrane diacylglycerol concentration that occurs in response to the priming stimulus. Because of the increased diacylglycerol content, a larger than usual amount of active respiratory burst oxidase could be assembled on the primed plasma membrane when the neutrophil is fully activated.
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PMID:The translocation of respiratory burst oxidase components from cytosol to plasma membrane is regulated by guanine nucleotides and diacylglycerol. 132 85

A 1,3-beta-D-glucan (callose) synthase (CS) from a plasma membrane fraction of germinating peanut (Arachis hypogaea L.) cotyledons has been purified to apparent homogeneity as evidenced by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), amino-terminal analysis, and the Western blots pattern. The purification protocol involved preparation of a high specific activity plasma membrane fraction, selective solubilization of the enzyme from the membrane with 0.5% digitonin at a protein-to-detergent ratio of 1:6, sucrose gradient centrifugation, and chromatography on hydroxylapatite and DEAE-Sephadex A-50. The purified CS shows a molecular mass of approximately 48,000 by SDS-PAGE, pH optimum of 7.4, leucine as the amino-terminal residue, Km for UDP-glucose of 0.67 mM, and Vmax of 6.25 mumol/min/mg protein. The enzyme is specific for UDP-glucose as the glucosyl donor and required Ca2+, at an optimum concentration of 2-5 mM, for activity. The enzyme activity was inhibited by nucleotides (ATP, GTP, CTP, UTP, UDP, and UMP). The enzyme activity was also inhibited by the addition of EDTA or EGTA to the enzyme, but this inhibition was fully reversible by the addition of Ca2+. The reaction product formed during incubation of UDP-[14C]glucose and cellobiose with purified enzymes was susceptible to digestion by exo-(1,3)-beta-glucanase, but was resistant to alpha- and beta-amylases and to periodate oxidation, indicating that the polymer formed was 1,3-beta-glucan, and beta-1,4 and beta-1,6 linkages were absent.
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PMID:Purification to homogeneity and characterization of a 1,3-beta-glucan (callose) synthase from germinating Arachis hypogaea cotyledons. 132 66

The histamine H3 receptor agonist (R)alpha-methylhistamine (MeHA) inhibited, in a nanomolar range, basal and carbachol-stimulated inositol phosphate formation in the human gastric tumoral cell line HGT1-clone 6. The inhibition was reversed by micromolar concentrations of the histamine H3 receptor antagonist thioperamide and was sensitive to cholera or pertussis toxin treatment. Using [3H]N alpha-MeHA as specific tracer, high affinity binding sites were demonstrated with a Bmax of 54 +/- 3 fmol/mg of protein and a KD of either 0.61 +/- 0.04 or 2.2 +/- 0.4 nM, in the absence or presence of 50 microM GTP[gamma]S, respectively. The binding sites were solubilized by Triton X-100 and prepurified by gel chromatography. They were separated from the histamine H2 receptor sites by filtration through Sepharose-famotidine and finally retained on Sepharose-thioperamide. The purified sites concentrated in one single silver-stained protein band of 70 kDa in SDS-polyacrylamide gel electrophoresis. They specifically bound [3H]N alpha-MeHA with a KD of 1.6 +/- 0.1 nM and a Bmax of 12,000 +/- 750 pmol/mg of protein. This corresponds to a 90,225-fold purification over cell lysate and a purity degree of 84%. Binding was competitively displaced by N alpha-MeHA (IC50 = 5.8 +/- 0.7 nM), (R) alpha-MeHA (IC50 = 9 +/- 1 nM), and thioperamide (IC50 = 85 +/- 10 nM), but not by famotidine (H2 antagonist) or by mepyramine (H1 antagonist). These findings provide the first evidence for solubilization, purification, and molecular mass characterization of the histamine H3 receptor protein and for the negative coupling of this receptor phosphatidylinositol turnover through a so far unidentified G protein.
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PMID:Purification of a histamine H3 receptor negatively coupled to phosphoinositide turnover in the human gastric cell line HGT1. 133 91


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