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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rapid transcriptional induction of genes in response to gamma interferon (IFN-gamma) is mediated by the IFN-gamma activation site (GAS) and its cognate protein, the IFN-gamma activation factor (GAF). We describe a GAS-associated, differentiation-induced factor (DIF) as a potential molecular link between the activities of IFN-gamma and of growth and differentiation factors. DIF DNA binding was activated by colony-stimulating factor 1 in murine macrophages and also during tetradecanoyl phorbol acetate-induced differentiation or IFN-gamma treatment in myeloid U937 cells. IFN-gamma activation of DIF decreased significantly upon monocytic differentiation. DIF binding to DNA was inhibited by antiphosphotyrosine antibodies and could be induced by treatment of U937 cells with vanadate. Unlike GAF, DIF-DNA complexes did not contain the 91-kDa protein (p91) from ISGF-3. DIF bound with high affinity to GAS from the promoters of the IFP 53/tryptophanyl-tRNA synthetase and Fc gamma RI genes, intermediate affinity to the Ly6A/E GAS, and low affinity to the guanylate-binding protein GAS. DIF may belong to a family of cytokine- or growth factor-induced factors binding with variable affinities to GAS-related elements: the interleukin-6-responsive acute-phase response factor associated with GAS from different IFN-inducible promoters but with a different preference of binding compared with DIF. The sis-inducible element of the c-fos promoter bound GAF but not DIF. However, the sis-inducible element could be changed by point mutation to compete for GAF and DIF binding. Our data show DIF to be a novel DNA-binding protein which is activated in response to differentiating signals. Moreover, they suggest that a family of cytokine- or growth factor-regulated proteins integrates and coordinates the responses to cytokines and to growth and differentiation factors by binding to GAS-related elements.
Mol Cell Biol 1994 Feb
PMID:A factor induced by differentiation signals in cells of the macrophage lineage binds to the gamma interferon activation site. 750 5

Regulated exocytosis requires both calcium and MgATP. Although the biochemical events responsible for ATP-dependent calcium-activated secretion have not been elucidated yet, some progress has been made in determining the relative order of the ATP- and calcium-dependent steps. Studies on permeabilized secretory cells have shown that MgATP acts before calcium and maintains the secretory apparatus in a "primed" state. In this paper, we examine the possible role of heterotrimeric G-proteins in these two steps of exocytosis in permeabilized chromaffin cells. We show that mastoparan and other activators of heterotrimeric G-proteins inhibit the MgATP-dependent reaction, but stimulate the late calcium-dependent step of exocytosis. Non-hydrolyzable GTP analogues (GTP-gamma-S and GMP-PNP) mimic the dual effects of mastoparan on secretion, but with different potencies, suggesting the involvement of two distinct heterotrimeric G-proteins in regulated exocytosis. GPAnt-2, a substance P related peptide known to inhibit the stimulation of Gi and Go by mastoparan, reverses, in a dose-dependent manner, both the inhibitory and stimulatory effects of mastoparan on secretion. These results indicate that two distinct heterotrimeric G-proteins from the Gi/o family may act in series in the exocytotic pathway in chromaffin cells: one controls the ATP-dependent priming step, whereas the second is involved in the late calcium-dependent fusion step which does not require ATP.
Cell Mol Biol (Noisy-le-grand) 1994 Jul
PMID:Distinct heterotrimeric GTP-binding-proteins act in series to control the exocytotic machinery in chromaffin cells. 752 20

Vaccinia virus mRNA capping enzyme is a multifunctional protein with RNA triphosphatase, RNA guanylyltransferase, RNA (guanine-7) methyltransferase, and transcription termination factor activities. The protein is a heterodimer of 95- and 33-kDa subunits encoded by the vaccinia virus D1 and D12 genes, respectively. The capping reaction entails transfer of GMP from GTP to the 5'-diphosphate end of mRNA via a covalent enzyme-(lysyl-GMP) intermediate. The active site is situated at Lys-260 of the D1 subunit within a sequence element, KxDG (motif I), that is conserved in the capping enzymes from yeasts and other DNA viruses and at the active sites of covalent adenylylation of RNA and DNA ligases. Four additional sequence motifs (II to V) are conserved in the same order and with similar spacing among the capping enzymes and several ATP-dependent ligases. The relevance of these common sequence elements to the RNA capping reaction was addressed by mutational analysis of the vaccinia virus D1 protein. Nine alanine substitution mutations were targeted to motifs II to V. Histidine-tagged versions of the mutated D1 polypeptide were coexpressed in bacteria with the D12 subunit, and the His-tagged heterodimers were purified by Ni affinity and phosphocellulose chromatography steps. Whereas each of the mutated enzymes retained triphosphatase, methyltransferase, and termination factor activities, six of nine mutant enzymes were defective in some aspect of transguanylylation. Individual mutations in motifs III, IV, and V had distinctive effects on the affinity of enzyme for GTP, the rate of covalent catalysis (EpG formation), or the transfer of GMP from enzyme to RNA. These results are concordant with mutational studies of yeast RNA capping enzyme and suggest a conserved structural basis for covalent nucleotidyl transfer.
Mol Cell Biol 1995 Nov
PMID:Mutational analysis of mRNA capping enzyme identifies amino acids involved in GTP binding, enzyme-guanylate formation, and GMP transfer to RNA. 756 75

Expression of the IgG Fc receptor type I (Fc gamma RI) on myeloid cells is dramatically increased by treatment with interferon-gamma (IFN-gamma). We observed that Fc gamma RI transcript levels in monoblast-like U937 cells were elevated within 3 hr and peaked 12 hr after exposure to IFN-gamma. Treatment of U937 with IFN-gamma for 9 hr in the presence of cycloheximide led to super-induction of Fc gamma RI expression. Nuclear run-on analysis revealed that the rate of Fc gamma RI transcription was increased by IFN-gamma. Genomic sequence upstream of the Fc gamma RIC gene was cloned and subjected to primer extension analysis, which demonstrated a single transcription initiation site without a TATA box. Transient transfections of CAT reporter gene constructs containing various Fc gamma RIC promoter sequences into U937 cells revealed that a 20-bp region surrounding the transcription start site (-7 to +13) was capable of mediating transcription initiation and that an IFN-gamma responsive element (GIRE) was present within 74 bp upstream of the transcription initiation site. A 17-bp sequence between positions -51 and -35 conferred IFN-gamma responsiveness on a heterologous promoter. Double-stranded GIRE sequence, but not a scrambled sequence, was specifically bound by nuclear proteins from IFN-gamma treated U937 cells. Gel shift experiments further showed that the STAT1 alpha protein bound to the Fc gamma RIC GIRE in response to IFN-gamma treatment of U937 cells. The Fc gamma RIC GIRE is homologous to the IFN-gamma activation sequence (GAS) of the guanylate binding protein and to X box elements of class II MHC genes. Our results demonstrate that transcriptional regulation of the Fc gamma RIC gene by IFN-gamma involves the binding of STAT1 alpha to a 17-bp GAS homology in the proximal promoter.
Mol Immunol 1995 Aug
PMID:An interferon-gamma activation sequence mediates the transcriptional regulation of the IgG Fc receptor type IC gene by interferon-gamma. 756 11

The metabolic fate of labeled guanine and of prelabeled guanine nucleotides (GuRN) was studied in cultured rat cardiomyocytes. Special attention was given to guanine salvage in comparison to degradation; to the contribution of GuRN to adenine nucleotides (AdRN); to the fluxes from GMP to IMP and from IMP to GMP; and to the degradation pathways of GuRN. In accordance with the 3- to 4-fold higher activity of guanine deaminase (guanase), in comparison to that of hypoxanthine-guanine phosphoribosyltransferase (HGPRT), the rate of guanine deamination to xanthine exceeded that of guanine incorporation into nucleotides (at 4 microM) by 13.2-fold. The label from guanine incorporated into nucleotides was found mainly (81%) in GuRN, but also in IMP and AdRN. The prelabeled GuRN lost 43% of the label in 4 h, reflecting mainly degradation to xanthine (and uric acid) and synthesis of nucleic acids. Blocking nucleoside degradation was associated with a marked accumulation of label in guanosine and inosine (guanosine/inosine labeling ratio is 1.25). The results indicate that in the myocardium guanine is a poor substrate for salvage synthesis of GuRN and that its contribution to the homeostasis of adenine nucleotides is negligible; that GMP degradation to xanthine proceeds through both guanosine and IMP; and that the cardiomyocytes contain the activity of GMP reductase and of the enzymes converting IMP to GMP.
Biochem Mol Med 1995 Aug
PMID:Metabolism of guanine and guanine nucleotides in primary rat cardiomyocyte cultures. 758 72

Subadult male Weddell seals were instrumented with microcomputer-based backpacks and were then monitored during voluntary diving and recovery periods in McMurdo Sound, Antarctica. Depth and duration of diving, swim speed, and dive pattern were routinely monitored. An indwelling venous catheter was used to collect plasma samples at various time periods before and following diving episodes, so that changes in plasma concentrations of hormones and of metabolites could be measured. Adrenergic and nitroxidergic regulatory effects were assessed indirectly by measuring concentration changes in catecholamine and cyclic guanosine monophosphate (cGMP), respectively. The studies found that (i), except for dives of less than several minutes, epinephrine and norepinephrine both increased as a function of diving duration, then rapidly decreased during recovery (with a half time of about 10 min), (ii) that the changes in catecholamine concentrations correlated with splenic contraction and an increase in circulating red blood cell mass (hematocrit), (iii) that the changes in catecholamines, especially [epinephrine], were inversely related to insulin/glucagon ratios, which mediated a postdiving hyperglycemia, and (iv) that in long dives (but not short ones) the changes in catecholamines correlated with increasing reliance on anaerobic metabolism, indicated by increased plasma lactate concentrations. These diving-catecholamine relationships during voluntary diving at sea were similar to those observed during enforced submergence (simulated diving) under controlled laboratory conditions. At the end of diving, even while catecholamine concentrations were still high, many of the above effects were rapidly reversed and the reversal appeared to correlate with accelerated nitric oxide production, indirectly indicated by increased plasma cGMP concentrations. Taken together, the data led to the hypothesis of important adrenergic regulation of the diving response in seals, with rapid reversal at the end of diving and during recovery being regulated by nitroxidergic mechanisms.
Comp Biochem Physiol B Biochem Mol Biol 1995 Oct
PMID:Hormonal regulatory adjustments during voluntary diving in Weddell seals. 758 64

It has been reported that exogenous alkylated purines, such as O6-methylguanine (O6meG), induce aneuploidy in mammalian cells. It is shown here that the aneugenic effect of O6meG, evidenced by its ability to induce micronuclei in rodent cells, is dependent on its conversion to O6-methyl-guanosine-5'-monophosphate (O6me-5'-GMP) by hypoxanthine-guanine phosphoribosyl transferase (HPRT). This conclusion, in contrast with previous in vitro data showing that O6meG does not seem to be a substrate for HPRT, was based on the following observations: 1) O6meG did not induce micronuclei in HPRT-deficient Chinese hamster cells, but did induce micronuclei in HPRT-proficient cells, and in mouse cells partially or totally deficient in adenine phosphoribosyl transferase; 2) O6meG was not metabolized in HPRT-deficient cells, while in wild-type cells a number of metabolites were detected by high performance liquid chromatography (HPLC) analysis of cold acid extracts, one of them coeluting with O6me-5'-GMP used as a marker; 3) when de novo synthesis of purine nucleotides was inhibited by aminopterin, O6meG sustained the growth of HPRT-proficient, but not of HPRT-deficient, cells; and 4) when HPRT-deficient cells were treated with liposomes charged with O6me-5'-GMP, induction of micronuclei was shown. The finding that methylated guanine exerts its aneugenic action through methylated nucleotide(s) provides an important, though indirect, support to the hypothesis that alkylating agents may induce aneuploidy via nucleotide pool alkylation.
Environ Mol Mutagen 1995
PMID:Induction of kinetochore-containing micronuclei by exogenous O6-methylguanine requires conversion of the methylated base to a nucleotide. 758 48

Hyperthyroidism induces a number of metabolic and physiological changes in the heart including hypertrophy, increase in inotropic status, and alterations of myocardial energy metabolism. The effects of hyperthyroidism on adenosine metabolism which is intimately involved in the control of many aspects of myocardial energetics, have not been clarified. The aim of this study was thus to evaluate the potential role of adenosine in the altered physiology of the hyperthyroid heart. Transport of adenosine was studied in cardiomyocytes isolated from hyperthyroid and euthyroid rats. Activities of different enzymes of purine metabolism were studied in heart homogenates and concentrations of nucleotide and creatine metabolites were determined in hearts freeze-clamped in situ. Both transport of adenosine into cardiomyocytes and the rate of intracellular phosphorylation were higher in the hyperthyroid rat. At 10 microM concentration, adenosine transport rates were 275 and 197 pmol/min/mg protein in hyperthyroid and euthyroid cardiomyocytes respectively whilst rates of adenosine phosphorylation were 250 and 180 pmol/min/mg prot. An even more pronounced difference was observed if values were expressed per number of cells due to cardiomyocyte enlargement. Hyperthyroidism was associated with a 20% increase in adenosine kinase, 30% decrease in membrane 5'-nucleotidase and 15% decrease in adenosine deaminase activities measured in heart homogenates. In addition there was a substantial depletion in the total creatine pool from 63.7 to 41.6 mumol/g dry wt, a small decrease in the adenylate pool (from 27.2 to 24.3 mumol/g dry wt) and an elevation of the guanylate pool (from 1.22 to 1.36). These results show that adenosine transport and phosphorylation capacity is enhanced in hyperthyroidism.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Cell Biochem 1995 Feb 23
PMID:Hyperthyroidism increases adenosine transport and metabolism in the rat heart. 759 49

The ability of a ras protein to associate with proteins present in rat brain cytosol in vitro was investigated using chemical cross-linking agents and the 125I-labelled v-H-ras protein. Two iodinated protein complexes with apparent molecular weights of 40 and 85 kDa were observed when a mixture of rat brain cytosol and [125I] ras was treated with the cross-linking agent disuccinimidyl suberate and subjected to SDS-PAGE. Formation of the [125I] Formation of the[125I] 85 kDa complex was enhanced by a high concentration of EDTA while generation of the 40 kDa species was abolished by this treatment. Formation of the [125I] 85 kDa complex was inhibited by unlabelled ras protein, GTP, GTP gamma S, and GDP but not by ATP gamma S and GMP. Chromatography of the cross-linked brain cytosol[125I] ras mixture on DEAE cellulose partially resolved the [125I] 85 kDa complex from the [125I] ras protein. The [125I] 85 kDa complex (formed using ethyleneglycolbis (succinimidylsuccinate) as the cross-linking agent) could be immunoprecipitated using a rabbit anti-ras polyclonal antibody. Treatment of the immunoprecipitate with hydroxylamine to cleave the cross-link yielded [125]I-labelled ras. A substantial enrichment of the proportion of the [125I] 85 kDa complex in the cross-linked extract was achieved by preparative SDS-PAGE. It is concluded that the in vitro chemical cross-linking approach employed here has detected two ras binding proteins in rat brain cytosol: a 65 kDa heat-sensitive and a 20 kDa heat-stable protein.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Cell Biochem 1995 Apr 26
PMID:Detection of a 65 kDa ras binding protein in rat and sheep brain cytosol using a chemical cross linking agent. 767 31

We previously isolated a cDNA clone encoding interferon consensus sequence-binding protein (ICSBP), a member of the interferon regulatory factor (IRF) family, that binds to the interferon (IFN)-stimulated response element (ISRE) of many IFN-regulated genes. In this investigation, we studied the functional role of ICSBP by transient cotransfection of ICSBP cDNA with IFN-responsive reporter genes into the human embryonal carcinoma cell line N-Tera2. These cells were shown not to express ICSBP or IRF-2, thus allowing functional analysis of transfected cDNAs. Cotransfection of ICSBP into cells treated with retinoic acid or any of the IFNs (alpha, beta, or gamma) repressed expression of a chloramphenicol acetyltransferase reporter driven by the major histocompatibility complex class I gene promoter. Similarly, ICSBP repressed expression of chloramphenicol acetyltransferase reporters driven by the ISREs of the 2'-5' oligoadenylate synthetase, guanylate-binding protein, and ISG-15 genes in IFN-treated cells. The repression was dependent on the presence of the ISRE in the reporter. Deletion analysis showed that the putative N-terminal DNA binding domain of ICSBP by itself is capable of mediating the repression. Using the same cotransfection conditions as for ICSBP, a similar repression of these reporters was observed with IRF-2. Finally, ICSBP repressed the IRF-1-mediated induction of major histocompatibility complex class I and IFN-beta reporters in the absence of IFN or retinoic acid. Taken together, these results suggest that ICSBP is a negative regulatory factor capable of repressing transcription of target genes induced by IFN, retinoic acid, or IRF-1.
Mol Cell Biol 1993 Jan
PMID:Interferon consensus sequence-binding protein, a member of the interferon regulatory factor family, suppresses interferon-induced gene transcription. 767 54


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