Endocytosis

S Mukherjee, RN Ghosh… - Physiological …, 1997 - journals.physiology.org
S Mukherjee, RN Ghosh, FR Maxfield
Physiological reviews, 1997journals.physiology.org
Mammalian cells take up extracellular material by a variety of different mechanisms that are
collectively termed endocytosis. Endocytic mechanisms serve many important cellular
functions including the uptake of extracellular nutrients, regulation of cell-surface receptor
expression, maintenance of cell polarity, and antigen presentation. Endocytic pathways are
also utilized by viruses, toxins, and symbiotic microorganisms to gain entry into cells. One of
the best-characterized endocytic mechanisms is receptor-mediated endocytosis via clathrin …
Mammalian cells take up extracellular material by a variety of different mechanisms that are collectively termed endocytosis. Endocytic mechanisms serve many important cellular functions including the uptake of extracellular nutrients, regulation of cell-surface receptor expression, maintenance of cell polarity, and antigen presentation. Endocytic pathways are also utilized by viruses, toxins, and symbiotic microorganisms to gain entry into cells. One of the best-characterized endocytic mechanisms is receptor-mediated endocytosis via clathrin-coated pits. This type of endocytosis constitutes the major emphasis of this review, with a brief discussion of other endocytic mechanisms and their comparison with the receptor-mediated pathway. This review describes and evaluates critically current understanding of the mechanisms of entry of plasma membrane components such as the receptor-ligand complexes and membrane lipids as well as the extracellular fluid into cells. The intracellular sorting and trafficking of these molecules upon internalization are also described. The roles of endocytosis in physiological and pathological processes are discussed. These include maintenance of cell polarization, antigen presentation, glucose transport, atherosclerosis, Alzheimer's disease, and the endocytosis of toxins and viruses.
American Physiological Society