Regulation of cellular iron metabolism

J Wang, K Pantopoulos - Biochemical Journal, 2011 - portlandpress.com
Biochemical Journal, 2011portlandpress.com
Iron is an essential but potentially hazardous biometal. Mammalian cells require sufficient
amounts of iron to satisfy metabolic needs or to accomplish specialized functions. Iron is
delivered to tissues by circulating transferrin, a transporter that captures iron released into
the plasma mainly from intestinal enterocytes or reticuloendothelial macrophages. The
binding of iron-laden transferrin to the cell-surface transferrin receptor 1 results in
endocytosis and uptake of the metal cargo. Internalized iron is transported to mitochondria …
Iron is an essential but potentially hazardous biometal. Mammalian cells require sufficient amounts of iron to satisfy metabolic needs or to accomplish specialized functions. Iron is delivered to tissues by circulating transferrin, a transporter that captures iron released into the plasma mainly from intestinal enterocytes or reticuloendothelial macrophages. The binding of iron-laden transferrin to the cell-surface transferrin receptor 1 results in endocytosis and uptake of the metal cargo. Internalized iron is transported to mitochondria for the synthesis of haem or iron–sulfur clusters, which are integral parts of several metalloproteins, and excess iron is stored and detoxified in cytosolic ferritin. Iron metabolism is controlled at different levels and by diverse mechanisms. The present review summarizes basic concepts of iron transport, use and storage and focuses on the IRE (iron-responsive element)/IRP (iron-regulatory protein) system, a well known post-transcriptional regulatory circuit that not only maintains iron homoeostasis in various cell types, but also contributes to systemic iron balance.
portlandpress.com