Cholesterol homeostasis. Modulation by amphiphiles.

Diverse amphiphiles act on cellular cholesterol metabolism as if signaling regulatory sites. One class (oxysterols) mimics the homeostatic effects of excess cell cholesterol, inhibiting cholesterol biosynthesis and stimulating plasma membrane cholesterol esterification. A second class of amphiphiles has effects precisely opposite to the oxysterols, i.e. they immediately inhibit plasma membrane cholesterol esterification and progressively induce 3-hydroxy-3-methylglutaryl-coenzyme A reductase activity and cholesterol biosynthesis. This second class of agents includes steroids, hydrophobic amines, phenothiazines, ionophores, colchicine, cytochalasins, and lysophosphatides, most of which interact with P-glycoproteins. These data support a general hypothesis describing cellular cholesterol homeostasis. (a) Proteins regulating sterol metabolism are embedded in intracellular membranes where their activities are governed by the local level of cholesterol. (b) Excess plasma membrane and lysosomal cholesterol circulates through those intracellular membranes and sets the homeostatic activities therein. (c) The two classes of agents mentioned above affect cholesterol homeostasis by increasing or decreasing, respectively, the ambient level of cholesterol at the sites of regulation.