Hydrogen peroxide metabolism in human monocytes during differentiation in vitro
about
Oxidation of low-density lipoprotein by hypochlorite causes aggregation that is mediated by modification of lysine residues rather than lipid oxidationZanvil Alexander Cohn 1926-1993In vitro differentiation of human monocytes. Differences in monocyte phenotypes induced by cultivation on glass or on collagenScience review: extracellular acidosis and the immune response: clinical and physiologic implicationsMonocyte activation in early onset rheumatoid arthritisMacrophage myeloperoxidase regulation by granulocyte macrophage colony-stimulating factor in human atherosclerosis and implications in acute coronary syndromesInnate immunity to Aspergillus species.Ingestion of Giardia lamblia trophozoites by human mononuclear phagocytesModel systems to assess the destructive potential of human neutrophils and monocyte-derived macrophages during the acute and chronic phases of inflammation.Mechanisms of expression of NADPH oxidase components in human cultured monocytes: role of cytokines and transcriptional regulators involved.Effects of immune complexes from SLE patients on human monocyte locomotion and Fc receptor function.Decreased superoxide production, degranulation, tumor necrosis factor alpha secretion, and CD11b/CD18 receptor expression by adherent monocytes from preterm infants.Recent progress in histochemistry and cell biology.Myeloperoxidase, a catalyst for lipoprotein oxidation, is expressed in human atherosclerotic lesionsPotent toxicity of 2-chlorodeoxyadenosine toward human monocytes in vitro and in vivo. A novel approach to immunosuppressive therapy.Respiratory burst activity of intestinal macrophages in normal and inflammatory bowel diseaseResistance of human tumor cells in vitro to oxidative cytolysis.Gamma-interferon restores listericidal activity and concurrently enhances release of reactive oxygen metabolites in dexamethasone-treated human monocytes.Therapeutic concentrations of glucocorticoids suppress the antimicrobial activity of human macrophages without impairing their responsiveness to gamma interferonImmunosuppression by D-penicillamine in vitro. Inhibition of human T lymphocyte proliferation by copper- or ceruloplasmin-dependent generation of hydrogen peroxide and protection by monocytes.Functional maturation of membrane potential changes and superoxide-producing capacity during differentiation of human granulocytes.Germline CYBB mutations that selectively affect macrophages in kindreds with X-linked predisposition to tuberculous mycobacterial disease.Aspects of the release of superoxide by leukocytes, and a means by which this is switched off.The reconstitution of cell-mediated immunity in the cutaneous lesions of lepromatous leprosy by recombinant interleukin 2.In vitro differentiation of human macrophages with enhanced antimycobacterial activityImpaired responsiveness to gamma interferon of macrophages infected with lymphocytic choriomeningitis virus clone 13: susceptibility to histoplasmosis.Hydrogen peroxide release by alveolar macrophages from sarcoid patients and by alveolar macrophages from normals after exposure to recombinant interferons alpha A, beta, and gamma and 1,25-dihydroxyvitamin D3.Immunohistochemical detection of myeloperoxidase and its oxidation products in Kupffer cells of human liver.Expression and function of galectin-3, a beta-galactoside-binding lectin, in human monocytes and macrophages.Spontaneous expression of the c-sis gene and release of a platelet-derived growth factorlike molecule by human alveolar macrophages.Human serum induces maturation of human monocytes in vitro. Changes in cytolytic activity, intracellular lysosomal enzymes, and nonspecific esterase activity.Strong glucose dependence of electron current in human monocytesSuppression of macrophage oxidative metabolism by products of malignant and nonmalignant cells.In vitro differentiation of human monocytes. Monocytes cultured on glass are cytotoxic to tumor cells but monocytes cultured on collagen are not.Identification of interferon-gamma as the lymphokine that activates human macrophage oxidative metabolism and antimicrobial activity.Reactive oxygen production by cultured rat glomerular mesangial cells during phagocytosis is associated with stimulation of lipoxygenase activityReceptors for C3b and C3bi promote phagocytosis but not the release of toxic oxygen from human phagocytes.Induction of tissue transglutaminase in human peripheral blood monocytes.Functional and biochemical studies of multinucleated giant cells derived from the culture of human monocytes.Murine Kupffer cells. Mononuclear phagocytes deficient in the generation of reactive oxygen intermediates.
P2860
Q24528264-781D4E23-B77B-4ED7-BF3B-A4B3F90077EEQ24680249-65BE3F37-A8BD-4F5E-8955-03B2E851E36CQ24683626-C0925303-6069-4019-9723-E53F130278BDQ24799847-B6AAD47D-8C16-4EA5-AA02-692B98FDEA6BQ28330607-E494F104-C652-4B37-B88B-E3537922C3FFQ28359694-C67B7CEA-2B94-47C9-8227-0FF1A63C787FQ30434628-11580933-1028-4AF3-A92C-AC0FE5E44F6BQ30451088-3C874F83-468E-481A-B13F-24CEEBF10521Q31623351-CDD7968D-CFCF-4F78-85A7-76597892E5B8Q32159886-B93FC419-4736-4331-8DDB-BBACC7005634Q33555452-06F898A8-9F6E-49F0-8846-D5CA3FBAF890Q33997744-253F9682-7045-4A3B-AFFD-D81827C423D3Q34172616-B8117387-AC8D-481E-A663-570F6666E612Q34236265-2B995A96-FB5D-4BF4-A651-8A3A9724C905Q34263013-95E36454-F1B8-4D1C-A336-2209C89B730BQ34532797-A9581CFC-F408-49B8-81A3-DF53248F6C16Q34541025-646E6313-E553-4087-9EE9-8547E4E48976Q34562383-267EE664-B60D-4E38-9046-5ED49D1B8405Q34563875-30DF966B-34C1-4C25-9D55-16A97591B646Q34598653-A635E4CF-02FE-4F28-BBB3-64ADC2864FEDQ34607720-D46B5A25-4967-4115-B5AF-D255A0682F99Q34992223-168B0042-3B46-41A3-83CB-A96125E77948Q35031441-521737FB-BC01-4D39-A41E-1668D665D5D0Q35190753-811AFE8E-6703-4DAF-9E77-4C5B7722FAB7Q35370163-4957671C-DE97-4331-A707-537C43FE5036Q35403119-4D151092-2FFB-4648-BE05-253ABD1A20ACQ35576906-76E6038F-FB59-4290-A1C4-BA64A023C084Q35747219-8D0257AB-63BF-45F3-B68B-4CBD93179C2DQ35798551-1B85BEB4-16A9-4D1F-98AC-986557511931Q35807682-8B6C36F0-A78D-4C55-8056-2E633E60388CQ35885701-C4E8A715-4787-43C0-AA12-AE3BBD38824FQ35895731-4788B710-8BCD-46F1-9D04-DFC47DAA46B3Q36346940-04D8CAA2-BAD0-4656-8519-B58A5C030681Q36347884-0066D75B-F433-4928-AFCF-1716BB8DC7C3Q36348121-D3F44EA5-E4AF-42BD-9C67-32C930BF8EB4Q36348317-D88C9EC5-F2E8-4BA5-A134-FE8CAA1368ABQ36348349-DC9CF5FB-92B7-41DD-A019-DDB9E10FCA88Q36348373-F852B293-E634-48B2-B2F0-57BE3654B49BQ36348649-8AB5A187-51E4-45E6-B3E1-3DE6ABF92417Q36349948-D86AAFB4-ABE9-4BE9-9CC7-717E69BE81AF
P2860
Hydrogen peroxide metabolism in human monocytes during differentiation in vitro
description
1981 nî lūn-bûn
@nan
1981年の論文
@ja
1981年学术文章
@wuu
1981年学术文章
@zh-cn
1981年学术文章
@zh-hans
1981年学术文章
@zh-my
1981年学术文章
@zh-sg
1981年學術文章
@yue
1981年學術文章
@zh
1981年學術文章
@zh-hant
name
Hydrogen peroxide metabolism in human monocytes during differentiation in vitro
@en
Hydrogen peroxide metabolism in human monocytes during differentiation in vitro.
@nl
type
label
Hydrogen peroxide metabolism in human monocytes during differentiation in vitro
@en
Hydrogen peroxide metabolism in human monocytes during differentiation in vitro.
@nl
prefLabel
Hydrogen peroxide metabolism in human monocytes during differentiation in vitro
@en
Hydrogen peroxide metabolism in human monocytes during differentiation in vitro.
@nl
P2093
P2860
P356
P1476
Hydrogen peroxide metabolism in human monocytes during differentiation in vitro
@en
P2093
A Nakagawara
C F Nathan
P2860
P304
P356
10.1172/JCI110370
P407
P577
1981-11-01T00:00:00Z