Role of contact inhibition in the regulation of receptor-mediated uptake of low density lipoprotein in cultured vascular endothelial cells.

Abstract

Bovine vascular endothelial cells during logarithmic growth bind, internalize and degrade low density lipoprotein (LDL) via a receptor-mediated pathway. Contact-inhibited (confluent) monolayers bind, but do not internalize, LDL. This is in contrast to aortic smooth muscle cells or endothelial cells that have lost the property of contact inhibition. These cells internalize and degrade LDL at high and low cell densities. The LDL receptors of smooth muscle and sparse endothelial cells down-regulate in response to LDL. Normal endothelial cells at confluency show little response. When contact inhibition in endothelial monolayers was locally released by wounding and LDL was present, only cells released from contact inhibition accumulated LDL cholesterol. In smooth muscle cells under the same conditions the entire culture interiorized lipid. In endothelial cells, unlike smooth muscle cells, contact inhibition is apparently the major factor regulating cellular uptake of LDL cholesteryl ester. Reversal of contact inhibition by wounding provides a mechanism by which the endothelium could be the primary initiator of the atherosclerotic plaque.