Lipoprotein (LP) metabolism plays a pivotal role in atherogenesis. Breakdown of triglyceride (TG) rich lipoproteins, both of exogenous – chylomicrones and endogenous – very low density lipoproteiny (VLDL) produces remnant lipoproteins after repeated action of lipoprotein lipase (LPL). Atherogenity of remnant lipoprotein has been proved. Also atheroprotective high density lipoproteins (HDL) are produced from surface of TG rich lipoproteins during their lipolysis. Protective role of HDL particles in atherogenesis is manifested by reverse cholesterol transport from all extrahepatic cells to the liver including cells of the arterial wall. Plasma concentration of atherogenic low density lipoproteins (LPL) is regulated by the production rate of VLDL in the liver on the one hand and their utilization by selective LDL receptors (mainly in the liver) on the other hand. Number of functioning LDL receptors is regulated genetically (gene for own LDL receptor and gene for both ligands – apoprotein B and apoprotein E) and also by environmental factors. Diet low in saturated fat and cholesterol and rich in dietary fibres increases number of LDL receptors and consequently decreases LDL cholesterol concentration.Monocytes entering arterial wall when intravasal and then subendothelial concentration of LDL is increased absorb LDL and predominantly oxidized LDL by scavenger receptors. During this repeated process they are changed to macrophages, residual macrophages and foam cells. Production of foam cells represents a starting point in atherogenesis but their high presence is typical also for advanced vulnerable atherosclerotic lesions, which are prone to rupture producing clinical complication – myocardial infarction and stroke.

        Key words: atherosclerosis, lipoproteins, metabolism