Cholesterol homeostasis is vital for proper cellular and systemic functions. Disturbed cholesterol balance underlies not only cardiovascular disease but also an increasing number of other diseases such as neurodegenerative diseases and cancers. The cellular cholesterol level reflects the dynamic balance between biosynthesis, uptake, export and esterification — a process in which cholesterol is converted to neutral cholesteryl esters either for storage in lipid droplets or for secretion as constituents of lipoproteins. In this Review, we discuss the latest advances regarding how each of the four parts of cholesterol metabolism is executed and regulated. The key factors governing these pathways and the major mechanisms by which they respond to varying sterol levels are described. Finally, we discuss how these pathways function in a concerted manner to maintain cholesterol homeostasis.

Cholesterol is an important structural component of all animal cell membranes that functions in various processes, including membrane dynamics and cell signalling, and is also a precursor of other molecules. Deregulation of cholesterol metabolism — biosynthesis, dietary absorption and cellular uptake, storage and efflux — is linked to many diseases, including cardiovascular and genetic diseases, and cancer. A better understanding of cholesterol metabolism offers the possibility to control systemic cholesterol levels to improve human health.