The cellular mechanisms of body iron homeostasis

Nunez, MT; Garate, MA; Arredondo M.; Tapia, V; Muñoz P

Abstract

Cells tightly regulate iron levels through the activity of iron regulatory proteins (IRPs) that bind to RNA motifs called iron responsive elements (IREs). When cells become iron-depleted, IRPs bind to IREs present in the mRNAs of ferritin and the transferrin receptor, resulting in diminished translation of the ferritin mRNA and increased translation of the transferrin receptor mRNA. Similarly, body iron homeostasis is maintained through the control of intestinal iron absorption. Intestinal epithelia cells sense body iron through the basolateral endocytosis of plasma transferrin. Transferrin endocytosis results in enterocytes whose iron content will depend on the iron saturation of plasma transferrin. Cell iron levels, in turn, inversely correlate with intestinal iron absorption. In this study, we examined the relationship between the regulation of intestinal iron absorption and the regulation of intracellular iron levels by Caco-2 cells. We asserted that IRP activity closely correlates with apical iron uptake and transepithelial iron transport. Moreover, overexpression of IRE resulted in a very low labile or reactive iron pool and increased apical to basolateral iron flux. These results show that iron absorption is primarily regulated by the size of the labile iron pool, which in turn is regulated by the IRE/IRP system.

Más información

Título según WOS: The cellular mechanisms of body iron homeostasis
Título según SCOPUS: The cellular mechanisms of body iron homeostasis
Título según SCIELO: The cellular mechanisms of body iron homeostasis
Título de la Revista: BIOLOGICAL RESEARCH
Volumen: 33
Número: 2
Editorial: SOC BIOLGIA CHILE
Fecha de publicación: 2000
Página de inicio: 133
Página final: 142
Idioma: English
DOI:

10.4067/S0716-97602000000200013

Notas: ISI, SCIELO, SCOPUS