BIOMAT Database Logo BIOMAT Database Logo

The role of lipoproteins in inactivation of endotoxin by serum. 1992

H Northoff, and W A Flegel, and R Yurttas, and C Weinstock
DRK-Blutspendezentrale Ulm, FRG.

Lipopolysaccharide (LPS)-induced release of cytokines from human monocytes can be prevented by previous interference of serum with LPS. This inactivation is a function of lipoproteins. Here we show that low-density lipoproteins as well as high-density lipoproteins can inactivate LPS. The effects of heparin and EDTA on LPS inactivation by serum are also described.

UI MeSH Term Description Entries
D008070 Lipopolysaccharides Lipid-containing polysaccharides which are endotoxins and important group-specific antigens. They are often derived from the cell wall of gram-negative bacteria and induce immunoglobulin secretion. The lipopolysaccharide molecule consists of three parts: LIPID A, core polysaccharide, and O-specific chains (O ANTIGENS). When derived from Escherichia coli, lipopolysaccharides serve as polyclonal B-cell mitogens commonly used in laboratory immunology. (From Dorland, 28th ed) Lipopolysaccharide,Lipoglycans
D008074 Lipoproteins Lipid-protein complexes involved in the transportation and metabolism of lipids in the body. They are spherical particles consisting of a hydrophobic core of TRIGLYCERIDES and CHOLESTEROL ESTERS surrounded by a layer of hydrophilic free CHOLESTEROL; PHOSPHOLIPIDS; and APOLIPOPROTEINS. Lipoproteins are classified by their varying buoyant density and sizes. Circulating Lipoproteins,Lipoprotein,Lipoproteins, Circulating
D004492 Edetic Acid A chelating agent that sequesters a variety of polyvalent cations such as CALCIUM. It is used in pharmaceutical manufacturing and as a food additive. EDTA,Edathamil,Edetates,Ethylenediaminetetraacetic Acid,Tetracemate,Calcium Disodium Edetate,Calcium Disodium Versenate,Calcium Tetacine,Chelaton 3,Chromium EDTA,Copper EDTA,Coprin,Dicobalt EDTA,Disodium Calcitetracemate,Disodium EDTA,Disodium Ethylene Dinitrilotetraacetate,Distannous EDTA,Edetate Disodium Calcium,Edetic Acid, Calcium Salt,Edetic Acid, Calcium, Sodium Salt,Edetic Acid, Chromium Salt,Edetic Acid, Dipotassium Salt,Edetic Acid, Disodium Salt,Edetic Acid, Disodium Salt, Dihydrate,Edetic Acid, Disodium, Magnesium Salt,Edetic Acid, Disodium, Monopotassium Salt,Edetic Acid, Magnesium Salt,Edetic Acid, Monopotassium Salt,Edetic Acid, Monosodium Salt,Edetic Acid, Potassium Salt,Edetic Acid, Sodium Salt,Ethylene Dinitrilotetraacetate,Ethylenedinitrilotetraacetic Acid,Gallium EDTA,Magnesium Disodium EDTA,N,N'-1,2-Ethanediylbis(N-(carboxymethyl)glycine),Potassium EDTA,Stannous EDTA,Versenate,Versene,Acid, Edetic,Acid, Ethylenediaminetetraacetic,Acid, Ethylenedinitrilotetraacetic,Calcitetracemate, Disodium,Dinitrilotetraacetate, Disodium Ethylene,Dinitrilotetraacetate, Ethylene,Disodium Versenate, Calcium,EDTA, Chromium,EDTA, Copper,EDTA, Dicobalt,EDTA, Disodium,EDTA, Distannous,EDTA, Gallium,EDTA, Magnesium Disodium,EDTA, Potassium,EDTA, Stannous,Edetate, Calcium Disodium,Ethylene Dinitrilotetraacetate, Disodium,Tetacine, Calcium,Versenate, Calcium Disodium
D004731 Endotoxins Toxins closely associated with the living cytoplasm or cell wall of certain microorganisms, which do not readily diffuse into the culture medium, but are released upon lysis of the cells. Endotoxin
D006493 Heparin A highly acidic mucopolysaccharide formed of equal parts of sulfated D-glucosamine and D-glucuronic acid with sulfaminic bridges. The molecular weight ranges from six to twenty thousand. Heparin occurs in and is obtained from liver, lung, mast cells, etc., of vertebrates. Its function is unknown, but it is used to prevent blood clotting in vivo and vitro, in the form of many different salts. Heparinic Acid,alpha-Heparin,Heparin Sodium,Liquaemin,Sodium Heparin,Unfractionated Heparin,Heparin, Sodium,Heparin, Unfractionated,alpha Heparin
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D016207 Cytokines Non-antibody proteins secreted by inflammatory leukocytes and some non-leukocytic cells, that act as intercellular mediators. They differ from classical hormones in that they are produced by a number of tissue or cell types rather than by specialized glands. They generally act locally in a paracrine or autocrine rather than endocrine manner. Cytokine

Related Publications

H Northoff, and W A Flegel, and R Yurttas, and C Weinstock
In vitro inactivation of bacterial endotoxin by human lipoproteins and apolipoproteins.
February 1992, Infection and immunity,
H Northoff, and W A Flegel, and R Yurttas, and C Weinstock
Inactivation of endotoxin by serum: a phylogenetic study.
January 1974, The Journal of infectious diseases,
H Northoff, and W A Flegel, and R Yurttas, and C Weinstock
Endotoxin inactivation by the humoral components in the tolerant rat serum.
September 1987, Toxicology,
H Northoff, and W A Flegel, and R Yurttas, and C Weinstock
Metabolic disorders of serum lipoproteins in endotoxin-poisoned mice: the role of high density lipoprotein (HDL) and triglyceride-rich lipoproteins.
January 1982, Microbiology and immunology,
H Northoff, and W A Flegel, and R Yurttas, and C Weinstock
Inactivation of endotoxin by a humoral component. II. Interaction of endotoxin with serum and plasma.
November 1958, The Journal of experimental medicine,
H Northoff, and W A Flegel, and R Yurttas, and C Weinstock
Suppression of fibroblast growth by Bacteroides gingivalis endotoxin is not reduced by serum lipoproteins.
May 1989, Journal of periodontology,
H Northoff, and W A Flegel, and R Yurttas, and C Weinstock
Role for circulating lipoproteins in protection from endotoxin toxicity.
May 1995, Infection and immunity,
H Northoff, and W A Flegel, and R Yurttas, and C Weinstock
Inactivation of endotoxin by humoral systems.
November 1960, Annals of the New York Academy of Sciences,
H Northoff, and W A Flegel, and R Yurttas, and C Weinstock
Inactivation of endotoxin by polymyxin B.
October 1974, Antimicrobial agents and chemotherapy,
H Northoff, and W A Flegel, and R Yurttas, and C Weinstock
The role of serum lipoproteins in steroidogenesis by the human fetal adrenal cortex.
July 1979, The Journal of clinical endocrinology and metabolism,
Copied contents to your clipboard!