EC:3.1.3.1 - FACTA Search

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Query: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cytoplasmic extracts of interferon-treated primary chick embryo cells contain an enzyme activity that synthesized an inhibitor of chick cell-free protein synthesis. The same activity was detected in extracts of cells treated with mock preparations of interferon, but at <0.3% of the level found in interferon-treated cell extracts. The enzyme was activated by double-stranded RNA and could be isolated by binding to columns of poly(I)-poly(C)-agarose. In the column-bound state, the enzyme reacted with ATP to synthesize the inhibitor, which could then be continuously eluted from the column. The inhibitor was purified and its structure and function were compared with those of the low molecular weight inhibitor of protein synthesis made by an enzyme from interferon-treated mouse L cells. The avian and mammalian inhibitors comigrated on thin layers of polyethyleneimine-cellulose during chromatography in three different solvent systems, and they coeluted as a series of peaks from columns of DEAE-cellulose during sodium chloride gradient elution. Digestion with bacterial alkaline phosphatase or snake venom phosphodiesterase yielded products that similarly comigrated. Functionally, the two inhibitors were interchangeable: both inhibited protein synthesis in extracts of mammalian and avian cells, producing 50% inhibition at a concentration of about 0.3 nM (AMP equivalents). We conclude that the chick cell-derived oligonucleotide inhibitor has a structure that is closely related or identical to that of the inhibitor made in the mouse system, and that both preparations inhibit cell-free protein synthesis in a non-species-specific manner.
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PMID:Oligonucleotide inhibitor of protein synthesis made in extracts of interferon-treated chick embryo cells: comparison with the mouse low molecular weight inhibitor. 27 8

Extracts of interferon-treated HeLa cells adsorbed to poly(I) . poly(C)-agarose have been used to synthesize 2'5'oligo(A). This oligonucleotide has been characterized by enzymatic digestion with alkaline phosphatase, snake venom phosphodiesterase, T2 ribonuclease and chromatography on DEAE, and PEI-cellulose. The oligonucleotide inhibits protein synthesis in vitro and activates an endonuclease present in extracts of control and interferon-treated cells. The metabolic stability of 2'5'oligo(A) has been investigated in these cell extracts. The oligonucleotide undergoes rapid degradation, particularly in the absence of ATP and of an energy regenerating system. Furthermore, the 2'5'oligo(A)-activated endonuclease reverts to an inactive state under these conditions, but can be reactivated upon further addition of 2'5'oligo(A). A possible role for the degradation of 2'5'oligo(A) in the mechanism of interferon action is discussed.
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PMID:Metabolic stability of 2' 5'oligo (A) and activity of 2' 5'oligo (A)-dependent endonuclease in extracts of interferon-treated and control HeLa cells. 42 14

Daily subcutaneous injections of 5 to 10 million units of partially purified human leukocyte interferon were given to newborn rabbits for 2 weeks or 1 month. The control groups received mock interferon, saline or nothing. The interferon treatment had no overt effect on the development of the animals during the period of treatment. The rabbits treated with interferon had leukocytosis, splenomegaly and prolonged postnatal extramedullary hematopoiesis in the liver and spleen. Certain immune responses were also demonstrated in the rabbits treated with interferon and mock interferon preparations. Platelet counts and the serum-ASAT, -ALAT, -LD and alkaline phosphatase values were normal.
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PMID:Toxicity studies with human leukocyte interferon in newborn rabbits. 69 30

Granulocyte colony-stimulating factor (G-CSF) is known to act on the neutrophilic granulocytes from chronic myelogenous leukemia (CML) patients to induce neutrophil alkaline phosphatase (NAP) activity. Gamma-interferon (IFN-gamma) and granulocyte-macrophage colony-stimulating factor (GM-CSF) have been reported to suppress NAP induction with G-CSF. We confirmed that this inhibitory effect of GM-CSF is accompanied by the decrease of the NAP mRNA level. Moreover, we found that the simultaneous addition of retinoic acid completely neutralized this inhibitory effect of GM-CSF. Recovery of the NAP activity brought about by the retinoic acid was also accompanied by the increase of NAP mRNA level. These results indicate that retinoic acid neutralizes the inhibitory effect of GM-CSF on the induction of NAP activity through the change of the NAP mRNA level.
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PMID:Retinoic acid acts to neutralize the inhibitory effect of granulocyte-macrophage colony-stimulating factor (GM-CSF) on alkaline phosphatase activity of neutrophils that is induced by granulocyte colony-stimulating factor (G-CSF). 137 89

The work described in this report suggests the existence of two biochemically distinguishable forms of the interferon-inducible, double-stranded RNA-dependent protein kinase. Kinase isolated from the cytosolic fraction (S-100) and the ribosome salt wash fraction of interferon-treated cells differed in their chromatographic properties. S-100 kinase eluted from a gel filtration column with M(r) = 140,000-160,000 and was predominantly anionic in nature, whereas ribosomal kinase eluted with M(r) = 66,000 and was predominantly cationic in nature. Purified preparations of S-100 kinase contained the M(r) = 66,000 subunit, P1, as the only polypeptide present in stoichiometric amounts, and thus the S-100 kinase appears to be a dimer of P1 subunits. Dimerization of the S-100 kinase was dependent on the phosphorylation state of the enzyme. Kinase isolated from S-100 was partially phosphorylated. Dephosphorylation of the S-100 kinase by treatment with alkaline phosphatase resulted in a monomeric form of the enzyme with biochemical characteristics similar to that of the ribosome salt wash kinase.
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PMID:Cytosolic double-stranded RNA-dependent protein kinase is likely a dimer of partially phosphorylated Mr = 66,000 subunits. 137 30

Possible involvement of protein phosphorylation in interferon (IFN)-mediated activation of IFN-stimulated gene factor 3 (ISGF3) was investigated. For this purpose, in vivo experiments with specific inhibitors of protein kinases and in vitro experiments with protein phosphatases were carried out. In HeLaM cells, 2-aminopurine, an inhibitor of double-stranded RNA-dependent protein kinase, blocked the induction of ISGF3 gamma subunit but not the activation of ISGF3 alpha subunit. A series of experiments using combinations of protein and RNA synthesis inhibitors and 2-aminopurine indicated that the block elicited by 2-aminopurine was at the level of ISGF3 gamma mRNA synthesis. Activation of ISGF3 alpha, although insensitive to 2-aminopurine, was completely blocked by 10 nM staurosporine, an inhibitor of protein kinase C. On the other hand, even 500 nM staurosporine did not block the induction of ISGF3 gamma. Incubation of cytoplasmic or nuclear extracts of IFN-treated HeLaM cells in vitro with alkaline phosphatase completely eliminated their ability to form the ISGF3 complex but not the ISGF1 complex. Treatment with acid phosphatase, on the other hand, changed the electrophoretic mobility of the ISGF3 complex but did not obliterate it. Complementation experiments revealed that ISGF3 alpha was the alkaline phosphatase-sensitive component of the complex. These results suggest that a protein kinase C-mediated phosphorylation step is involved in ISGF3 alpha activation and a 2-aminopurine-sensitive component is involved in ISGF3 gamma mRNA induction.
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PMID:Role of protein phosphorylation in activation of interferon-stimulated gene factors. 155 41

Mx protein, an intracellular protein induced by type I interferons (IFNs), is useful as a marker for the IFN-induced state. It is detectable, for example, in leukocytes of patients undergoing IFN-alpha treatment as well as in patients suffering from viral or autoimmune diseases. For immunizations and standardizations, recombinant human MxA protein was expressed in Escherichia coli and purified from inclusion bodies by several steps of chromatography. Two monoclonal antibodies against nonoverlapping epitopes and specific for human Mx protein were selected to establish a simple two-site immunometric enzyme assay. In addition, a monoclonal antibody also reacting with Mx proteins of other species was identified. Prior to assay, whole blood samples were lysed with a nonionic detergent. The sample was incubated on wells coated with a first monoclonal antibody (1304.5.32) together with a second biotinylated monoclonal (1302.34.16), which, after washing, was revealed by an avidin-alkaline phosphatase system. Limit of detection was 5 ng/ml. In two-thirds of normal blood samples (n = 87), Mx protein levels were below 5 ng/ml; 25 samples (29%) had Mx levels between 5 and 50 ng/ml; and 4 samples (5%) were above 50 ng/ml. No Mx was found in plasma, and the mononuclear cell fraction accounted for the bulk of Mx in blood. In vitro, as determined by flow cytometry, monocytes and lymphocytes accumulated Mx protein for 24 h with similar kinetics and remained at plateau levels for more than 70 h. Monocytes contained around eight times more Mx than lymphocytes. The immunoassay was also suitable for detecting Mx after IFN induction in heparinized blood.
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PMID:A whole blood immunoassay for the interferon-inducible human Mx protein. 157 88

A 12-week, double-blind controlled study comparing low dose alpha-interferon (5 x 10(5) iu, twice a week) and placebo was carried out to determine whether this drug has an immunomodulatory effect in rheumatoid arthritis. There were statistically significant improvements in the patients' joint score, C-reactive protein value and platelet count, without any side effects. Interferon-alpha caused an increase of serum calcium and a decrease of alkaline phosphatase. Thus, alpha-interferon requires further investigation as a possible additional useful treatment for rheumatoid arthritis.
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PMID:A preliminary study on the effect of alpha-interferon treatment on the joint inflammation and serum calcium in rheumatoid arthritis. 159 3

Tumor necrosis factor (TNF) alpha and TNF beta both inhibited proliferation of cultured human osteoblastic SaOS-2 cells. TNF alpha also inhibited alkaline phosphatase (ALP) activity in the cells. The TNF alpha-induced inhibition of proliferation and ALP activity was further potentiated by interferon (IFN) gamma. These findings indicate that human SaOS-2 cells, fulfilling several criteria for osteoblasts, respond to TNF alpha and IFN gamma, resulting in decceleration of their maturation.
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PMID:Tumor necrosis factor alpha and interferon gamma inhibit proliferation and alkaline phosphatase activity of human osteoblastic SaOS-2 cell line. 210 56

Recombinant human interferon-alpha 2C and recombinant human interferon-gamma (5-1000 U/ml) inhibit the proliferation of normal human bone-derived cells and a human osteosarcoma cell line. In the bone-derived cells the inhibitory effect of interferon-gamma was significantly greater than that of interferon-alpha, whereas in the osteosarcoma cell line the inhibitory effects of both interferons were quantitatively similar. Interferon-alpha did not affect the alkaline phosphatase activity of either type of cells. In contrast, interferon-gamma affected the activity of the enzyme in both cell types: in the bone-derived cells the effect of interferon-gamma was stimulatory whereas in the osteosarcoma cells the effect was inhibitory. In both cell types interferon-gamma selectively inhibited the incorporation of radiolabelled proline into type I collagen. In the osteosarcoma cells, the effects of both interferons on collagen synthesis were quantitatively similar. In the bone-derived cells, however, interferon-alpha decreased proline incorporation into collagen and non-collagen proteins to a similar extent and thus did not affect collagen synthesis when expressed as a percentage of total protein synthesis. Two-dimensional polyacrylamide gel electrophoresis of the radiolabelled proteins of the cell layer synthesised by both cell types in the presence of either interferon demonstrated that this treatment enhanced or induced the synthesis of a total of 21 individual proteins (19 in bone cells, 14 in osteosarcoma), ranging in apparent molecular mass over 14-87 kDa. The set of proteins induced was different in all four combinations of cells and interferon. A tentative identification of several of the proteins was possible based upon estimation of molecular mass, preferential induction by interferon-alpha or interferon-gamma and differential induction in normal and transformed bone-derived cells. The results of this study demonstrate that interferons have complex effects upon the proliferative and biosynthetic activities of human bone-derived cells and demonstrate significant differences between the responses of normal cells and transformed bone-derived cell line. Further investigations will be required in order to determine whether or not these differences are unique to the osteosarcoma cell line or are a characteristic of the effects of interferons on bone-derived cells in general.
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PMID:Interferons and bone. A comparison of the effects of interferon-alpha and interferon-gamma in cultures of human bone-derived cells and an osteosarcoma cell line. 212 83

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