Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.2.1.17 (lysozyme)
21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Murine myeloid leukemia cells (MI) are induced to differentiate into macrophages by the metabolically active form of vitamin D3,1 alpha,25-dihydroxyvitamin D3[1 alpha,25(OH)2D3] (E. Abe et al., (1981) Proc. Natl. Acad. Sci. USA 78, 4990-4994). At 0.12-120 nM, 1 alpha,25(OH)2D3 suppressed cell growth in a dose-dependent manner and markedly induced phagocytic activity, lysozyme activity, and C3-receptor formation. The potency of 1 alpha,25(OH)2D3, at 0.12-120 nM, in inducing differentiation was nearly equivalent to that of 10-10,000 nM of dexamethasone, one of the most potent stimulators of Ml cells. Simultaneous treatment with low physiological plasma concentrations of 1 alpha,25(OH)2D3 (0.12 nM) and dexamethasone (10 nM) induced differentiation of Ml cells equivalent to the responses obtained only by using much higher concentrations of the respective steroids when used separately. In addition, two variant clones of Ml cells resistant to either 1 alpha,25(OH)2D3 or dexamethasone were isolated. One was resistant to 120 nM of 1 alpha,25(OH)2D3 but sensitive to 10-1000 nM of dexamethasone. The other was resistant to 1000 nM of dexamethasone but sensitive to 12 nM of 1 alpha,25(OH)2D3. This suggests that the mechanism of action of 1 alpha,25(OH)2D3 in inducing differentiation of Ml cells is different at least in part from that of dexamethasone, and that combination therapy by both steroids may be useful in reducing leukemogenicity of Ml cells in vivo.
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PMID:Cooperative effect of 1 alpha,25-dihydroxyvitamin D3 and dexamethasone in inducing differentiation of mouse myeloid leukemia cells. 658 1

Various human and mouse myeloid leukemia cell lines can differentiate to mature myeloid or monocytoid cells in response to different agents. The myeloblastic leukemia of the RFM/Un mouse (the RF.AML line) was studied here to determine its ability to differentiate after in vitro and in vivo treatment. The RF.AML cells were passed in vivo by i.v. or i.p. injection of freshly harvested leukemic spleen cells or in vitro-passaged leukemia cells. The cells proliferated in the spleen and peritoneal cavity. The RF.AML cells had the appearance of myeloblasts or myelomonoblasts on Wright's stain, had slight positivity for peroxidase, and lacked staining for nonspecific esterase. The cells grew in suspension in vitro with a doubling time of 48 hr. Various phorbol diester tumor promotors inhibited proliferation and incorporation of thymidine into the RF.AML cells. Phorbol myristate acetate (10 to 100 nM) caused the cells to adhere to plastic, and enhanced the phagocytic ability of the cells for Candida albicans. The RF.AML cells had specific receptors for phorbol dibutyrate, binding 0.37 +/- 0.03 (S.E.) pmol of [3H]phorbol dibutyrate/10(6) cells after a 2-hr incubation at 4 degrees with 50 nM [3H]phorbol dibutyrate. Thirty-three to 300 nM dexamethasone caused 19 to 37% of the cells to become nonspecific esterase positive and enhanced their phagocytosis of C. albicans. Likewise, 0.5 or 1.0 microM 13-cis-retinoic acid, or 0.6 or 1.2% dimethyl sulfoxide enhanced the phagocytic ability of the RF.AML cells but had no effect on the adherence, proliferation, or nonspecific esterase activity. None of the treatments induced lysozyme activity in the cells or rendered the RF.AML cells able to produce H2O2 in response to phorbol myristate acetate treatment in vitro. In vivo treatment of mice with RF.AML present with phorbol myristate acetate or dexamethasone did not induce differentiation of the RF.AML cells or alter the survival of the animals. Thus, although the RF.AML cells differentiate in vitro in response to various agents, in vivo differentiation was not seen in this model.
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PMID:Comparison of in vitro and in vivo differentiation of myeloblastic leukemia of the RFM/Un mouse. 659 93

Tunicamycin, an antibiotic that specifically blocks the synthesis of N-acetylglucosamine-lipid intermediates and thereby prevents glycosylation of glycoproteins, induced differentiation of both human (HL-60) and murine (M1) myeloid leukemia cell lines in culture. At 0.1-1.0 microgram/ml, it induced differentiation of both HL-60 and M1 cells, characterized by increase in phagocytic cells and changes to resemble mature myeloid cells. Fc receptors were also induced in M1 but not in HL-60 cells; induction of intracellular lysozyme activity was not detected in either HL-60 or M1 cells. With this concentration of tunicamycin, there was marked decrease in rate of incorporation of radioactive glucosamine into macromolecules and a decrease in the rate of DNA synthesis. These data show that glycosylation of cellular proteins has an important role in maintaining these myeloid leukemia cells in an undifferentiated state in culture. The results also indicate that induction of phagocytosis in both HL-60 and M1 myeloid leukemia cells and of Fc receptors in M1 cells does not require continued synthesis of the oligosaccharide portions of cellular proteins by the lipid-linked pathway.
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PMID:Induction of differentiation of human and murine myeloid leukemia cells in culture by tunicamycin. 692 33

The effect of hematopoietic stem cell age on leukemogenesis in vitro was tested in nonrecharged, corticosterold-supplemented NIH Swiss [N:NIH(S)] mouse long-term bone marrow cultures infected with Friend murine leukemia virus of anemia-inducing strain (F-MuLV-A) or spleen focus-forming virus (SFFV) [Rauscher murine leukemia virus (R-MuLV)], a pseudotype virus derived by rescue of the SFFV genome from SFFV-Balb/3T3 clone A31 nonproducer cells with clonal helper R-MuLV. Cultures at 33 degrees C derived from 10-day-old or adult mouse marrow generated colony-forming unit culture granulocytic macrophage (CFUc) progenitor cells for over 20 weeks and colony-forming unit spleen cells for 14 weeks and generated permanent granulocytic leukemia cell lines after infection with F-MuLV-A at week 1, 2, or 4 but not at week 8. Leukemia lines were of granulocyte phenotype whether induced by F-MuLV-A or SFFV (R-MuLV) and synthesized myeloperoxidase and lysozyme but were restricted in ability to generate superoxide in response to phorbol myristate acetate stimulation. Cultures (31 degrees C) infected with temperature-sensitive (ts) helper virus mutant pseudotypes of SFFV as well as SFFV (R-MuLV) generated granulocytic leukemia lines, whereas only SFFV (R-MuLV) pseudotype virus-infected cultures became leukemic at 37 degrees C. R-MuLV wild type or ts mutant helper virus infection alone increased cell proliferation and numbers of CFUc but did not generate leukemia. These data indicated that gene(s) specific to F-MuLV-A or a virus rescued from SFFV-Balb/3T3 clone A31 nonproducer cells are required for transformation in vitro of a hematopoietic stem cell present in early but absent in late bone marrow cultures.
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PMID:Virus and cell requirements for Friend virus granulocytic leukemogenesis in long-term bone marrow cultures of NIH swiss [N:NIH(S)] mice. 692 98

The effect of chloroquine on differentiation of cultured mouse myeloid leukemia Ml cells was examined. On treatment with 5 approximately 25 microgram/ml of chloroquine diphosphate for 1 approximately 4 days, the cells were induced to phagocytize latex beads, to form Fc rosettes, to form dispersed colonies in soft agar, and to synthesize lysozyme, unlike untreated cells. The morphology of about 40% of the cells changed during treatment with 20 microgram/ml of chloroquine diphosphate for 4 days; some cells developed small eccentrically located nuclei, and others ring-shaped or segmented nuclei. These results show that Ml cells differentiate into cells resembling macrophages or granulocytes on treatment with chloroquine.
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PMID:Induction by chloroquine of differentiation of cultured mouse myeloid leukemia cells. 692 69

Retinoic acid, retinol, retinyl acetate, and retinal induced activities of lysosomal enzymes, such as lysozyme, acid protease, and acid phosphatase, in mouse myeloid leukemia cells (M1), while the pyridyl analog of retinoic acid had no effect. Retinoic acid was the most potent inducer of lysosomal enzyme activities. The induction of lysozyme activity by retinoic acid was inhibited by treatment with puromycin. The retinoids did not induce phagocytic and locomotive activities or morphological changes in M1 cells, and they inhibited the induction of these differentiation-associated properties by various inducers without inhibiting cell growth. Retinoic acid was the most potent inhibitor of induction of these differentiation-associated properties. The inhibitory effect of retinoic acid was found to be reversible. These results suggest that distinct mechanisms exist for control of induction of lysosomal enzyme activities and of other differentiation-associated properties of M1 cells, such as phagocytosis, morphological changes, and migration.
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PMID:Effects of retinoids on induction of differentiation of cultured mouse myeloid leukemia cells. 693 43

Mouse myeloid leukemia cells (M1) could be induced to differentiate into mature macrophages and granulocytes with dexamethasone or proteinaceous inducer. Retinoic acid inhibited functional and morphological differentiation of M1 cells, but the pyridyl analog of retinoic acid had no effect. M1 cells could be induced to produce a factor(s) inhibiting their own differentiation to macrophage- and granulocyte-like cells by retinoic acid but not by its pyridyl analog. This factor(s) inhibited induction by inducers of phagocytic activity, locomotive activity, lysozyme activity, and morphological changes in M1 cells. The production of the inhibitory factor(s) by M1 cells incubated with retinoic acid was inhibited by a low concentrations (5--10 ng/ml) of actinomycin D. The inhibitory factor seemed to be a protein(s), since it was susceptible to heat treatment and proteases. The effect of retinoic acid in inducing production of the inhibitory factor(s) by M1 cells seemed to be reversible, since it was low on washing the cells with fresh medium. Therefore, induction of this inhibitory factor may be involved in the mechanism of inhibition of functional and morphological differentiation of M1 cells by retinoic acid.
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PMID:Production of differentiation-inhibiting factor in cultured mouse myeloid leukemia cells treated with retinoic acid. 693 4

Alkyl-lysophospholipids are synthetic analogs of naturally occurring lysophospholipids. The effects of these compounds on cell proliferation and differentiation of cultured human (HL-60) and mouse (M1) myeloid leukemia cells were studied. Both cell lines were induced to differentiate into morphologically and functionally mature granulocytes and macrophages by incubation with a wide variety of these compounds. Some alkyl-lysophospholipids induced differentiation (judged morphologically and by the appearance of abilities to reduce nitro blue tetrazolium, to phagocytize latex particles, and to induce lysozyme activity) of both the cells lines at concentrations of 1 microgram/ml. However, these compounds did not affect colony formation of normal mouse bone marrow cells even at a higher concentration, 20 microgram/ml. These results suggest that alkyl-lysophospholipids induce cell differentiation of myeloid leukemia cells without affecting proliferation and differentiation of normal bone marrow cells. Thus, these compounds could be useful in therapy of myeloid leukemia.
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PMID:Induction of differentiation of cultured human and mouse myeloid leukemia cells by alkyl-lysophospholipids. 694 52

Mouse myeloid leukemia cells can be induced to differentiate into macrophages in vitro by 1 alpha,25-dihydroxyvitamin D3, the active form of vitamin D3. The minimal concentration of 1 alpha,25-dihydroxyvitamin D3 to induce the cell differentiation was 0.12 nM. The degree of cell differentiation in various markers induced by 12 nM 1 alpha,25-dihydroxyvitamin D3 was nearly equivalent to that induced by 1 microM dexamethasone, the most potent known stimulator. Among several markers of the differentiation by 1 alpha,25-dihydroxyvitamin D3, phagocytic activity was induced within 24 hr, and this was followed by induction of lysozyme and locomotive activities. Similar changes were also induced by 0.01-1 microM 1 alpha-hydroxyvitamin D3. 25-Hydroxyvitamin D3 and 24R,25-dihydroxyvitamin D3 showed only weak inducing activity. These results suggest the possibility that, in addition to its wellknown biological activities in enhancing intestinal calcium transport and bone mineral mobilization, 1 alpha, 25-dihydroxyvitamin D3 is involved in the differentiation of bone marrow cells.
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PMID:Differentiation of mouse myeloid leukemia cells induced by 1 alpha,25-dihydroxyvitamin D3. 694 46

Retinoic acid induced lysozyme activity in mouse myeloid leukemia M1 cells. It also stimulated the synthesis and release of prostaglandins such as prostaglandin F2alpha, E2, and D2 by the cells. The particulate fraction of retinoic acid-treated M1 cells converted arachidonate to prostaglandins, and this conversion was almost completely inhibited by indomethacin. Retinol, retinal and retinyl acetate, but not the pyridyl analog of retinoic acid, also induced lysozyme activity and stimulated synthesis and release of prostaglandins. Indomethacin inhibited the induction of lysozyme activity by retinoic acid. The induction of lysozyme activity and the stimulation of prostaglandin E2 production were dependent on the concentration of retinoic acid. Kinetic studies showed that stimulation of prostaglandin E2 production by retinoic acid was followed by induction of lysozyme activity. The tumor promotor 12-O-tetradecanoyl-phorbol-13-acetate (TPA) and phorbol 12,13-didecanoate inhibited the induction of lysozyme activity by retinoic acid, but 4 alpha-phorbol didecanoate and phorbol did not. TPA and phorbol 12, 13-didecanoate, but not 4 alpha -phorbol didecanoate, also inhibited the stimulation of prostaglandin E2 production by retinoic acid. These results suggest that stimulation by retinoic acid of prostaglandin E2 production in M1 cells is a prerequisite for the induction of lysozyme activity. On the other hand, both retinoic acid and TPA inhibited the induction by dexamethasone of phagocytic activity, which is a typical functional marker of differentiation of M1 cells, without causing significant growth inhibition. Suboptimal concentrations of retinoic acid and TPA had synergistic inhibitory effects on the induction of phagocytic activity of M1 cells by dexamethasone.
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PMID:Stimulation by retinoic acid of prostaglandin production and its inhibition by tumor promoters in mouse myeloid leukemia cells. 694 53


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