BIOMAT Database Logo BIOMAT Database Logo

Lipoprotein receptors, cholesterol metabolism, and atherosclerosis. 1975

J L Goldstein, and M S Brown

Deposition of cholesterol esters in the arterial intima is a characteristic feature of human atherosclerosis. Very little is known about the mechanisms by which cells normally regulate their cholesterol ester content. Recent studies in cultured human cells demonstrate the existence of a cell surface receptor that binds plasma low density lipoproteins and regulates the sterol content of cells by modulating the rates of uptake, esterification, and synthesis of cholesterol. A possible role for this lipoprotein receptor in the pathogenesis of atherosclerosis is discussed.

UI MeSH Term Description Entries
D006949 Hyperlipidemias Conditions with excess LIPIDS in the blood. Hyperlipemia,Hyperlipidemia,Lipemia,Lipidemia,Hyperlipemias,Lipemias,Lipidemias
D007457 Iodine Radioisotopes Unstable isotopes of iodine that decay or disintegrate emitting radiation. I atoms with atomic weights 117-139, except I 127, are radioactive iodine isotopes. Radioisotopes, Iodine
D008077 Lipoproteins, LDL A class of lipoproteins of small size (18-25 nm) and light (1.019-1.063 g/ml) particles with a core composed mainly of CHOLESTEROL ESTERS and smaller amounts of TRIGLYCERIDES. The surface monolayer consists mostly of PHOSPHOLIPIDS, a single copy of APOLIPOPROTEIN B-100, and free cholesterol molecules. The main LDL function is to transport cholesterol and cholesterol esters to extrahepatic tissues. Low-Density Lipoprotein,Low-Density Lipoproteins,beta-Lipoprotein,beta-Lipoproteins,LDL(1),LDL(2),LDL-1,LDL-2,LDL1,LDL2,Low-Density Lipoprotein 1,Low-Density Lipoprotein 2,LDL Lipoproteins,Lipoprotein, Low-Density,Lipoproteins, Low-Density,Low Density Lipoprotein,Low Density Lipoprotein 1,Low Density Lipoprotein 2,Low Density Lipoproteins,beta Lipoprotein,beta Lipoproteins
D008247 Lysosomes A class of morphologically heterogeneous cytoplasmic particles in animal and plant tissues characterized by their content of hydrolytic enzymes and the structure-linked latency of these enzymes. The intracellular functions of lysosomes depend on their lytic potential. The single unit membrane of the lysosome acts as a barrier between the enzymes enclosed in the lysosome and the external substrate. The activity of the enzymes contained in lysosomes is limited or nil unless the vesicle in which they are enclosed is ruptured or undergoes MEMBRANE FUSION. (From Rieger et al., Glossary of Genetics: Classical and Molecular, 5th ed). Autolysosome,Autolysosomes,Lysosome
D011485 Protein Binding The process in which substances, either endogenous or exogenous, bind to proteins, peptides, enzymes, protein precursors, or allied compounds. Specific protein-binding measures are often used as assays in diagnostic assessments. Plasma Protein Binding Capacity,Binding, Protein
D002784 Cholesterol The principal sterol of all higher animals, distributed in body tissues, especially the brain and spinal cord, and in animal fats and oils. Epicholesterol
D004794 Enzyme Repression The interference in synthesis of an enzyme due to the elevated level of an effector substance, usually a metabolite, whose presence would cause depression of the gene responsible for enzyme synthesis. Repression, Enzyme
D004952 Esters Compounds derived from organic or inorganic acids in which at least one hydroxyl group is replaced by an –O-alkyl or another organic group. They can be represented by the structure formula RCOOR’ and are usually formed by the reaction between an acid and an alcohol with elimination of water. Ester
D005347 Fibroblasts Connective tissue cells which secrete an extracellular matrix rich in collagen and other macromolecules. Fibroblast
D005977 Glutarates Derivatives of glutaric acid (the structural formula (COO-)2C3H6), including its salts and esters. Glutarate

Related Publications

J L Goldstein, and M S Brown
Atherosclerosis and lipoprotein metabolism: role of reverse cholesterol transport.
February 1986, The American journal of cardiology,
J L Goldstein, and M S Brown
[High-density cholesterol lipoprotein: metabolism and role in atherosclerosis].
May 1988, Presse medicale (Paris, France : 1983),
J L Goldstein, and M S Brown
Cholesterol and Lipoprotein Metabolism and Atherosclerosis: Recent Advances In reverse Cholesterol Transport.
November 2017, Annals of hepatology,
J L Goldstein, and M S Brown
Lecithin-cholesterol acyltransferase: role in lipoprotein metabolism, reverse cholesterol transport and atherosclerosis.
June 2000, Current opinion in lipidology,
J L Goldstein, and M S Brown
Lipoprotein cholesterol and atherosclerosis.
December 2001, Current molecular medicine,
J L Goldstein, and M S Brown
Lipoprotein receptors and atherosclerosis.
August 1989, Biochemical Society transactions,
J L Goldstein, and M S Brown
Lipoprotein receptors and atherosclerosis.
January 1986, Clinical science (London, England : 1979),
J L Goldstein, and M S Brown
[Cellular lipoprotein receptors in atherogenesis. I. LDL receptors in cholesterol metabolism].
January 1986, Przeglad lekarski,
J L Goldstein, and M S Brown
Atherosclerosis and lipoprotein metabolism.
January 1980, Indian heart journal: teaching series,
J L Goldstein, and M S Brown
[Lipoprotein metabolism and atherosclerosis].
June 1988, Schweizerische Rundschau fur Medizin Praxis = Revue suisse de medecine Praxis,
Copied contents to your clipboard!